row_id
string
dataset_id
string
source_dataset
string
source_file
string
source_table
string
source_sha
string
row_index
int64
split
string
subject_type
string
entry_id
int64
sequence_id
int64
target_sequence_id
int64
source_sequence_length
int64
target_sequence_length
int64
protein_id
int64
protein_name
string
organism
string
isoform
int64
protein_ids
string
protein_names
string
organisms
string
isoforms
string
uniprot_accessions
string
interpro_accessions
string
ec_numbers
string
megascale_ids
string
other_references
string
mutations
string
substitutions
string
deletions
string
insertions
string
mutation_count
int64
substitution_count
int64
deletion_count
int64
insertion_count
int64
first_position
int64
first_source_aa
string
first_target_aa
string
conservation
float64
feature_types
string
pdb_ids
string
afdb_ids
string
structure_ids
string
structure_methods
string
structure_resolution_min
float64
residue_positions
string
residue_chain_names
string
residue_secondary_structures
string
residue_in_pocket_any
bool
residue_in_tunnel_any
bool
residue_asa_mean
float64
residue_bfactor_mean
float64
experiment_id
int64
experiment_dataset
string
ph
float64
measure
string
method
string
buffer
string
buffer_conc
string
exp_temperature
float64
ion
string
ion_conc
string
pdb_chain_mutation
string
tm
float64
dtm
float64
dg
float64
dg_text
string
ddg
float64
dh
float64
dcp
float64
dhvh
float64
cm
float64
m_value
float64
trypsin_ml
float64
chymotrypsin_ml
float64
stabilizing
float64
stabilizing_text
string
domainome_fitness
float64
domainome_fitness_std
float64
domainome_ddg
float64
domainome_ddg_std
float64
reversibility
string
state
string
measurement_types
string
measurement_datasets
string
annotation_types
string
publication_id
string
publication_type
string
publication_title
string
publication_year
int64
publication_doi
string
publication_pmid
string
publication_journal
string
publication_url
string
publication_author_count
int64
publication_authors
string
annotations_json
string
measurements_json
string
features_json
string
fireprotdb:1113
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,113
train
mutant
6,679
30
7,321
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
A47S
A47S
1
1
0
0
47
A
S
4
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
47
A
H
true
false
61.153226
13.953
14,396
ProTherm
7
CD
Urea
MOPS
30 mM
0
1RN1_A:A21S
null
null
null
0.4
null
null
null
3.99
1.22
null
null
null
null
null
null
null
yes
DDG|M|CM|REVERSIBILITY
capriotti_S1615_map.csv|khan_protherm_data_mapped.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
895
ARTICLE
Helix propensities are identical in proteins and peptides.
1,997
10.1021/bi9707180
9283083
Biochemistry;36;10923-9
3
Pace C N|Scholtz J M|Myers J K
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":0.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{"n...
[{"datasets":["capriotti_S1615_map.csv","khan_protherm_data_mapped.csv","potapov_with_uniprot_mapping.csv"],"id":53201,"numValue":0.4,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":53202,"numValue":1.22,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":53203,"numValue":3.99,"references"...
[{"id":6494,"numValue":4.0,"position":47,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1114
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,114
train
mutant
6,680
30
7,322
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
A47T
A47T
1
1
0
0
47
A
T
4
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
47
A
H
true
false
61.153226
13.953
14,388
ProTherm
2.5
CD
Urea
glycine
30 mM
0
1RN1_A:A21T
null
null
null
0.57
null
null
null
2.43
1.6
null
null
null
null
null
null
null
yes
DDG|M|CM|REVERSIBILITY
capriotti_S1615_map.csv|khan_protherm_data_mapped.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
895
ARTICLE
Helix propensities are identical in proteins and peptides.
1,997
10.1021/bi9707180
9283083
Biochemistry;36;10923-9
3
Pace C N|Scholtz J M|Myers J K
[{"numValue":2.5,"strValue":null,"type":"PH"},{"numValue":0.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"glycine","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},...
[{"datasets":["capriotti_S1615_map.csv","khan_protherm_data_mapped.csv","potapov_with_uniprot_mapping.csv"],"id":53169,"numValue":0.57,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":53170,"numValue":1.6,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":53171,"numValue":2.43,"references"...
[{"id":6494,"numValue":4.0,"position":47,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1115
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,115
train
mutant
6,681
30
7,323
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
A47V
A47V
1
1
0
0
47
A
V
4
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
47
A
H
true
false
61.153226
13.953
14,389
ProTherm
2.5
CD
Urea
glycine
30 mM
0
1RN1_A:A21V
null
null
null
0.66
null
null
null
2.38
1.77
null
null
null
null
null
null
null
yes
DDG|M|CM|REVERSIBILITY
capriotti_S1615_map.csv|khan_protherm_data_mapped.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
895
ARTICLE
Helix propensities are identical in proteins and peptides.
1,997
10.1021/bi9707180
9283083
Biochemistry;36;10923-9
3
Pace C N|Scholtz J M|Myers J K
[{"numValue":2.5,"strValue":null,"type":"PH"},{"numValue":0.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"glycine","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},...
[{"datasets":["capriotti_S1615_map.csv","khan_protherm_data_mapped.csv","potapov_with_uniprot_mapping.csv"],"id":53173,"numValue":0.66,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":53174,"numValue":1.77,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":53175,"numValue":2.38,"references...
[{"id":6494,"numValue":4.0,"position":47,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1116
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,116
train
mutant
6,682
30
7,324
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
A47W
A47W
1
1
0
0
47
A
W
4
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
47
A
H
true
false
61.153226
13.953
14,390
ProTherm
2.5
CD
Urea
glycine
30 mM
0
1RN1_A:A21W
null
null
null
0.3
null
null
null
2.6
1.56
null
null
null
null
null
null
null
yes
DDG|M|CM|REVERSIBILITY
capriotti_S1615_map.csv|khan_protherm_data_mapped.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
895
ARTICLE
Helix propensities are identical in proteins and peptides.
1,997
10.1021/bi9707180
9283083
Biochemistry;36;10923-9
3
Pace C N|Scholtz J M|Myers J K
[{"numValue":2.5,"strValue":null,"type":"PH"},{"numValue":0.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"glycine","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},...
[{"datasets":["capriotti_S1615_map.csv","khan_protherm_data_mapped.csv","potapov_with_uniprot_mapping.csv"],"id":53177,"numValue":0.3,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":53178,"numValue":1.56,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":53179,"numValue":2.6,"references":...
[{"id":6494,"numValue":4.0,"position":47,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1117
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,117
train
mutant
6,683
30
7,325
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
A47Y
A47Y
1
1
0
0
47
A
Y
4
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
47
A
H
true
false
61.153226
13.953
14,391
ProTherm
2.5
CD
Urea
glycine
30 mM
0
1RN1_A:A21Y
null
null
null
0.39
null
null
null
2.54
1.69
null
null
null
null
null
null
null
yes
DDG|M|CM|REVERSIBILITY
capriotti_S1615_map.csv|khan_protherm_data_mapped.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
895
ARTICLE
Helix propensities are identical in proteins and peptides.
1,997
10.1021/bi9707180
9283083
Biochemistry;36;10923-9
3
Pace C N|Scholtz J M|Myers J K
[{"numValue":2.5,"strValue":null,"type":"PH"},{"numValue":0.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"glycine","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},...
[{"datasets":["capriotti_S1615_map.csv","khan_protherm_data_mapped.csv","potapov_with_uniprot_mapping.csv"],"id":53181,"numValue":0.39,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":53182,"numValue":1.69,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":53183,"numValue":2.54,"references...
[{"id":6494,"numValue":4.0,"position":47,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1118
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,118
train
mutant
7,139
30
7,794
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
A47G|G49A
A47G|G49A
2
2
0
0
47
A
G
4
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
47|49
A
H
true
false
30.576613
12.870875
15,377
ProTherm
7.4
Fluorescence
Urea
Sodium acetate
50 mM
25
1RN1_A:A21G 1RN1_A:G23A
null
null
6
null
null
null
null
4.7
1.37
null
null
null
null
null
null
null
yes
DG|M|CM|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
731
ARTICLE
Hydrogen-exchange stabilities of RNase T1 and variants with buried and solvent-exposed Ala --> Gly mutations in the helix.
1,999
10.1021/bi9919450
10600109
Biochemistry;38;16481-90
4
Steyaert J|Langhorst U|Pace C N|Huyghues-Despointes B M
[{"numValue":7.4,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"Sodium acetate","type":"BUFFER"},{"numValue":null,"strValue":"50 mM","typ...
[{"datasets":[],"id":56444,"numValue":6.0,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":56445,"numValue":1.37,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":56446,"numValue":4.7,"references":[],"strValue":null,"type":"CM"},{"datasets":[],"id":56447,"numValue":null,"references":[],"st...
[{"id":6494,"numValue":4.0,"position":47,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6496,"numValue":9.0,"position":49,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1120
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,120
train
mutant
30
30
32
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y50W
Y50W
1
1
0
0
50
Y
W
6
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
50
A
H
true
false
33.631191
11.895
30
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
null
Mops
50 mM
1RN1_A:Y24W
58.8
1.6
null
null
106.12
null
null
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DH|REVERSIBILITY
AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"20 mM, 2 mM","type":"BUFFER_CONC"},{"numValue":null,"strVal...
[{"datasets":[],"id":89,"numValue":58.8,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","Saraboji_S1791.csv"],"id":90,"numValue":1.6,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":91,"numValue":106.12,"references":[],"strValue":null,"type":"DH"},{"datasets":[],"id":92,"...
[{"id":6497,"numValue":6.0,"position":50,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1121
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,121
train
mutant
30
30
32
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y50W
Y50W
1
1
0
0
50
Y
W
6
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
50
A
H
true
false
33.631191
11.895
8,549
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_A:Y24W
null
null
null
-1.24
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DDG|REVERSIBILITY
capriotti_S1615_map.csv|capriotti_S388_map.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":29013,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":["capriotti_S1615_map.csv","capriotti_S388_map.csv","potapov_with_uniprot_mapping.csv"],"id":29014,"numValue":-1.24,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":29015,"numValue":null,"references":[]...
[{"id":6497,"numValue":6.0,"position":50,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1122
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,122
train
mutant
30
30
32
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y50W
Y50W
1
1
0
0
50
Y
W
6
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
50
A
H
true
false
33.631191
11.895
8,555
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_A:Y24W
null
null
9.03
null
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DG|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":29031,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":[],"id":29032,"numValue":9.03,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":29033,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":6497,"numValue":6.0,"position":50,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1123
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,123
train
mutant
6,692
30
7,334
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y50W|W85Y
Y50W|W85Y
2
2
0
0
50
Y
W
6
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
50|85
A
H|E
true
false
17.562769
11.28
14,433
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
null
Mops
50 mM
1RN1_A:Y24W 1RN1_A:W59Y
56.6
-0.6
null
null
100.62
null
null
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DH|REVERSIBILITY
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"20 mM, 2 mM","type":"BUFFER_CONC"},{"numValue":null,"strVal...
[{"datasets":[],"id":53362,"numValue":56.6,"references":[],"strValue":null,"type":"TM"},{"datasets":[],"id":53363,"numValue":-0.6,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":53364,"numValue":100.62,"references":[],"strValue":null,"type":"DH"},{"datasets":[],"id":53365,"numValue":null,"references":...
[{"id":6497,"numValue":6.0,"position":50,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1124
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,124
train
mutant
6,692
30
7,334
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y50W|W85Y
Y50W|W85Y
2
2
0
0
50
Y
W
6
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
50|85
A
H|E
true
false
17.562769
11.28
15,147
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_A:Y24W 1RN1_A:W59Y
null
null
null
-0.29
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DDG|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":55572,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":[],"id":55573,"numValue":-0.29,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":55574,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":6497,"numValue":6.0,"position":50,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1125
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,125
train
mutant
6,692
30
7,334
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y50W|W85Y
Y50W|W85Y
2
2
0
0
50
Y
W
6
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
50|85
A
H|E
true
false
17.562769
11.28
15,152
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_A:Y24W 1RN1_A:W59Y
null
null
8.1
null
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DG|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":55587,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":[],"id":55588,"numValue":8.1,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":55589,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":6497,"numValue":6.0,"position":50,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1126
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,126
train
mutant
640
30
693
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Q51K
Q51K
1
1
0
0
51
Q
K
3
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
51
A
H
true
false
105.524045
22.143889
1,057
ProTherm
7
Fluorescence
Thermal
MOPS
30 mM
null
1RN1_A:Q25K
51.7
3.4
null
null
null
null
107
null
null
null
null
null
null
null
null
null
Unknown
TM|DTM|DHVH|REVERSIBILITY
AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
109
ARTICLE
Conformational stability and activity of ribonuclease T1 and mutants. Gln25----Lys, Glu58----Ala, and the double mutant.
1,989
2663837
J Biol Chem;264;11621-5
4
Steyaert J|Stanssens P|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"1RN1_A:Q25K","type"...
[{"datasets":[],"id":3948,"numValue":51.7,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","Saraboji_S1791.csv"],"id":3949,"numValue":3.4,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":3950,"numValue":107.0,"references":[],"strValue":null,"type":"DHVH"},{"datasets":[],"i...
[{"id":6498,"numValue":3.0,"position":51,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1127
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,127
train
mutant
640
30
693
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Q51K
Q51K
1
1
0
0
51
Q
K
3
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
51
A
H
true
false
105.524045
22.143889
3,013
ProTherm
5
DSC
Thermal
Sodium borate-NaOH
10 mM
null
NaCl
80 mM
1RN1_A:Q25K
61.2
2.4
null
null
121.5
1.14
114.8
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DH|DCP|DHVH|REVERSIBILITY
AUTOMUTE_S1962.csv|Saraboji_S2204.csv|STRUM_Q3421.csv|AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
269
ARTICLE
Energetics of ribonuclease T1 structure.
1,994
10.1021/bi00177a023
8136367
Biochemistry;33;3312-9
4
Yu Y|Privalov P L|Pace C N|Makhatadze G I
[{"numValue":5.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"Sodium borate-NaOH","type":"BUFFER"},{"numValue":null,"strValue":"10 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"NaCl","type":"...
[{"datasets":["AUTOMUTE_S1962.csv","Saraboji_S2204.csv","STRUM_Q3421.csv"],"id":10930,"numValue":61.2,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","AUTOMUTE_S1962.csv","Saraboji_S1791.csv","Saraboji_S2204.csv","STRUM_Q3421.csv"],"id":10931,"numValue":2.4,"references":[],"strValue":null...
[{"id":6498,"numValue":3.0,"position":51,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1128
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,128
train
mutant
640
30
693
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Q51K
Q51K
1
1
0
0
51
Q
K
3
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
51
A
H
true
false
105.524045
22.143889
3,014
ProTherm
6
DSC
Thermal
Sodium borate-NaOH
10 mM
null
NaCl
80 mM
1RN1_A:Q25K
56.9
2.8
null
null
112.4
0.99
110.5
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DH|DCP|DHVH|REVERSIBILITY
AUTOMUTE_S1962.csv|Saraboji_S2204.csv|STRUM_Q3421.csv|AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
269
ARTICLE
Energetics of ribonuclease T1 structure.
1,994
10.1021/bi00177a023
8136367
Biochemistry;33;3312-9
4
Yu Y|Privalov P L|Pace C N|Makhatadze G I
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"Sodium borate-NaOH","type":"BUFFER"},{"numValue":null,"strValue":"10 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"NaCl","type":"...
[{"datasets":["AUTOMUTE_S1962.csv","Saraboji_S2204.csv","STRUM_Q3421.csv"],"id":10936,"numValue":56.9,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","AUTOMUTE_S1962.csv","Saraboji_S1791.csv","Saraboji_S2204.csv","STRUM_Q3421.csv"],"id":10937,"numValue":2.8,"references":[],"strValue":null...
[{"id":6498,"numValue":3.0,"position":51,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1129
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,129
train
mutant
640
30
693
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Q51K
Q51K
1
1
0
0
51
Q
K
3
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
51
A
H
true
false
105.524045
22.143889
3,015
ProTherm
6.5
DSC
Thermal
Sodium borate-NaOH
10 mM
null
NaCl
80 mM
1RN1_A:Q25K
54
2.9
null
null
109.3
1.19
108.6
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DH|DCP|DHVH|REVERSIBILITY
AUTOMUTE_S1962.csv|Saraboji_S2204.csv|AUTOMUTE_S1749.csv|Saraboji_S1791.csv|STRUM_Q3421.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
269
ARTICLE
Energetics of ribonuclease T1 structure.
1,994
10.1021/bi00177a023
8136367
Biochemistry;33;3312-9
4
Yu Y|Privalov P L|Pace C N|Makhatadze G I
[{"numValue":6.5,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"Sodium borate-NaOH","type":"BUFFER"},{"numValue":null,"strValue":"10 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"NaCl","type":"...
[{"datasets":["AUTOMUTE_S1962.csv","Saraboji_S2204.csv"],"id":10942,"numValue":54.0,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","AUTOMUTE_S1962.csv","Saraboji_S1791.csv","Saraboji_S2204.csv","STRUM_Q3421.csv"],"id":10943,"numValue":2.9,"references":[],"strValue":null,"type":"DTM"},{"d...
[{"id":6498,"numValue":3.0,"position":51,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1131
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,131
train
mutant
640
30
693
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Q51K
Q51K
1
1
0
0
51
Q
K
3
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
51
A
H
true
false
105.524045
22.143889
3,017
ProTherm
8.6
DSC
Thermal
Sodium borate-NaOH
10 mM
null
NaCl
80 mM
1RN1_A:Q25K
46.6
3.2
null
null
97.6
1.15
102.2
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DH|DCP|DHVH|REVERSIBILITY
AUTOMUTE_S1925.csv|EASE-MM_S1676.csv|I_Mutant2.0_S1948.csv|I_Mutant2.0_S2087.csv|M47andM8_S2760.csv|PON-TStab_dataset.csv|STRUM_Q3421.csv|SVM-WIN31_SVM-3D12_S1634.csv|SVM-WIN31_SVM-3D12_S1681.csv|AUTOMUTE_S1749.csv|iPTREE-STAB_S1859.csv|Saraboji_S1791.csv|M47andM8_S1810.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
269
ARTICLE
Energetics of ribonuclease T1 structure.
1,994
10.1021/bi00177a023
8136367
Biochemistry;33;3312-9
4
Yu Y|Privalov P L|Pace C N|Makhatadze G I
[{"numValue":8.6,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"Sodium borate-NaOH","type":"BUFFER"},{"numValue":null,"strValue":"10 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"NaCl","type":"...
[{"datasets":["AUTOMUTE_S1925.csv","EASE-MM_S1676.csv","I_Mutant2.0_S1948.csv","I_Mutant2.0_S2087.csv","M47andM8_S2760.csv","PON-TStab_dataset.csv","STRUM_Q3421.csv","SVM-WIN31_SVM-3D12_S1634.csv","SVM-WIN31_SVM-3D12_S1681.csv"],"id":10954,"numValue":46.6,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOM...
[{"id":6498,"numValue":3.0,"position":51,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1132
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,132
train
mutant
640
30
693
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Q51K
Q51K
1
1
0
0
51
Q
K
3
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
51
A
H
true
false
105.524045
22.143889
3,018
ProTherm
9.7
DSC
Thermal
Sodium borate-NaOH
10 mM
null
NaCl
80 mM
1RN1_A:Q25K
44
3.3
null
null
94
1.38
105
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DH|DCP|DHVH|REVERSIBILITY
AUTOMUTE_S1925.csv|EASE-MM_S1676.csv|I_Mutant2.0_S1948.csv|I_Mutant2.0_S2087.csv|M47andM8_S2760.csv|PON-TStab_dataset.csv|STRUM_Q3421.csv|SVM-WIN31_SVM-3D12_S1634.csv|SVM-WIN31_SVM-3D12_S1681.csv|AUTOMUTE_S1749.csv|iPTREE-STAB_S1859.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
269
ARTICLE
Energetics of ribonuclease T1 structure.
1,994
10.1021/bi00177a023
8136367
Biochemistry;33;3312-9
4
Yu Y|Privalov P L|Pace C N|Makhatadze G I
[{"numValue":9.7,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"Sodium borate-NaOH","type":"BUFFER"},{"numValue":null,"strValue":"10 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"NaCl","type":"...
[{"datasets":["AUTOMUTE_S1925.csv","EASE-MM_S1676.csv","I_Mutant2.0_S1948.csv","I_Mutant2.0_S2087.csv","M47andM8_S2760.csv","PON-TStab_dataset.csv","STRUM_Q3421.csv","SVM-WIN31_SVM-3D12_S1634.csv","SVM-WIN31_SVM-3D12_S1681.csv"],"id":10960,"numValue":44.0,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOM...
[{"id":6498,"numValue":3.0,"position":51,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1133
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,133
train
mutant
640
30
693
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Q51K
Q51K
1
1
0
0
51
Q
K
3
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
51
A
H
true
false
105.524045
22.143889
7,759
ProTherm
7
Fluorescence
Thermal
MOPS
30 mM
48.6
1RN1_A:Q25K
null
null
null
-0.93
null
null
null
null
null
null
null
null
null
null
null
null
Unknown
DDG|REVERSIBILITY
capriotti_S1615_map.csv|capriotti_S388_map.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
109
ARTICLE
Conformational stability and activity of ribonuclease T1 and mutants. Gln25----Lys, Glu58----Ala, and the double mutant.
1,989
2663837
J Biol Chem;264;11621-5
4
Steyaert J|Stanssens P|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":48.6,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUF...
[{"datasets":["capriotti_S1615_map.csv","capriotti_S388_map.csv","potapov_with_uniprot_mapping.csv"],"id":26643,"numValue":-0.93,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":26644,"numValue":null,"references":[],"strValue":"Unknown","type":"REVERSIBILITY"}]
[{"id":6498,"numValue":3.0,"position":51,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1134
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,134
train
mutant
640
30
693
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Q51K
Q51K
1
1
0
0
51
Q
K
3
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
51
A
H
true
false
105.524045
22.143889
8,891
ProTherm
7
Fluorescence
Urea
MOPS
30 mM
25
1RN1_A:Q25K
null
null
6.39
-0.77
null
null
null
5.3
1.21
null
null
null
null
null
null
null
Unknown
DG|DDG|M|CM|REVERSIBILITY
SAAFEC_S1262.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
109
ARTICLE
Conformational stability and activity of ribonuclease T1 and mutants. Gln25----Lys, Glu58----Ala, and the double mutant.
1,989
2663837
J Biol Chem;264;11621-5
4
Steyaert J|Stanssens P|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER...
[{"datasets":[],"id":30130,"numValue":6.39,"references":[],"strValue":null,"type":"DG"},{"datasets":["SAAFEC_S1262.csv"],"id":30131,"numValue":-0.77,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":30132,"numValue":1.21,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":30133,"numValue":5....
[{"id":6498,"numValue":3.0,"position":51,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1135
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,135
train
mutant
6,799
30
7,441
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Q51K|E84A
Q51K|E84A
2
2
0
0
51
Q
K
3
ACTIVE_SITE|CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
51|84
A
H|E
true
true
58.979321
18.800555
14,596
ProTherm
7
Fluorescence
Thermal
MOPS
30 mM
null
1RN1_A:Q25K 1RN1_A:E58A
48.8
-0.5
null
null
null
null
93
null
null
null
null
null
null
null
null
null
Unknown
TM|DTM|DHVH|REVERSIBILITY
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
109
ARTICLE
Conformational stability and activity of ribonuclease T1 and mutants. Gln25----Lys, Glu58----Ala, and the double mutant.
1,989
2663837
J Biol Chem;264;11621-5
4
Steyaert J|Stanssens P|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"1RN1_A:Q25K 1RN1_A:...
[{"datasets":[],"id":53972,"numValue":48.8,"references":[],"strValue":null,"type":"TM"},{"datasets":[],"id":53973,"numValue":-0.5,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":53974,"numValue":93.0,"references":[],"strValue":null,"type":"DHVH"},{"datasets":[],"id":53975,"numValue":null,"references":...
[{"id":4,"numValue":null,"position":84,"positionArray":null,"positionRange":null,"strValue":"Proton acceptor","type":"ACTIVE_SITE"},{"id":6498,"numValue":3.0,"position":51,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6531,"numValue":9.0,"position":84,"positionArray":null,"posit...
fireprotdb:1136
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,136
train
mutant
6,799
30
7,441
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Q51K|E84A
Q51K|E84A
2
2
0
0
51
Q
K
3
ACTIVE_SITE|CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
51|84
A
H|E
true
true
58.979321
18.800555
15,060
ProTherm
7
Fluorescence
Thermal
MOPS
30 mM
48.6
1RN1_A:Q25K 1RN1_A:E58A
null
null
null
-0.06
null
null
null
null
null
null
null
null
null
null
null
null
Unknown
DDG|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
109
ARTICLE
Conformational stability and activity of ribonuclease T1 and mutants. Gln25----Lys, Glu58----Ala, and the double mutant.
1,989
2663837
J Biol Chem;264;11621-5
4
Steyaert J|Stanssens P|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":48.6,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUF...
[{"datasets":[],"id":55311,"numValue":-0.06,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":55312,"numValue":null,"references":[],"strValue":"Unknown","type":"REVERSIBILITY"}]
[{"id":4,"numValue":null,"position":84,"positionArray":null,"positionRange":null,"strValue":"Proton acceptor","type":"ACTIVE_SITE"},{"id":6498,"numValue":3.0,"position":51,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6531,"numValue":9.0,"position":84,"positionArray":null,"posit...
fireprotdb:1138
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,138
train
mutant
651
30
704
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N62A
N62A
1
1
0
0
62
N
A
6
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
62
A
T
false
true
81.591732
27.28375
1,068
ProTherm
7
Fluorescence
Thermal
MOPS
30 mM
null
1RN1_A:N36A
50.9
0
null
null
null
null
111
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DHVH|REVERSIBILITY
capriotti_S1615_map.csv|khan_protherm_data_mapped.csv|AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
110
ARTICLE
Contribution of hydrogen bonding to the conformational stability of ribonuclease T1.
1,992
10.1021/bi00118a013
1731929
Biochemistry;31;725-32
4
Stanssens P|Hahn U|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"1RN1_A:N36A","type"...
[{"datasets":["capriotti_S1615_map.csv","khan_protherm_data_mapped.csv"],"id":3992,"numValue":50.9,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","capriotti_S1615_map.csv","khan_protherm_data_mapped.csv","Saraboji_S1791.csv"],"id":3993,"numValue":0.0,"references":[],"strValue":null,"type...
[{"id":6509,"numValue":6.0,"position":62,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1139
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,139
train
mutant
651
30
704
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N62A
N62A
1
1
0
0
62
N
A
6
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
62
A
T
false
true
81.591732
27.28375
7,632
ProTherm
7
Fluorescence
Thermal
MOPS
30 mM
50.9
1RN1_A:N36A
null
null
null
0
null
null
null
null
null
null
null
null
null
null
null
null
yes
DDG|REVERSIBILITY
capriotti_S1615_map.csv|guerios_625_map.csv|khan_protherm_data_mapped.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
110
ARTICLE
Contribution of hydrogen bonding to the conformational stability of ribonuclease T1.
1,992
10.1021/bi00118a013
1731929
Biochemistry;31;725-32
4
Stanssens P|Hahn U|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":50.9,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUF...
[{"datasets":["capriotti_S1615_map.csv","guerios_625_map.csv","khan_protherm_data_mapped.csv"],"id":26329,"numValue":0.0,"references":[],"strValue":null,"type":"DDG"},{"datasets":["capriotti_S1615_map.csv","khan_protherm_data_mapped.csv"],"id":26330,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY...
[{"id":6509,"numValue":6.0,"position":62,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1140
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,140
train
mutant
651
30
704
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N62A
N62A
1
1
0
0
62
N
A
6
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
62
A
T
false
true
81.591732
27.28375
8,902
ProTherm
7
Fluorescence
Urea
MOPS
30 mM
25
1RN1_A:N36A
null
null
null
-0.03
null
null
null
5.31
1.31
null
null
null
null
null
null
null
yes
DDG|M|CM|REVERSIBILITY
capriotti_S1615_map.csv|capriotti_S388_map.csv|guerios_625_map.csv|khan_protherm_data_mapped.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
110
ARTICLE
Contribution of hydrogen bonding to the conformational stability of ribonuclease T1.
1,992
10.1021/bi00118a013
1731929
Biochemistry;31;725-32
4
Stanssens P|Hahn U|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER...
[{"datasets":["capriotti_S1615_map.csv","capriotti_S388_map.csv","guerios_625_map.csv","khan_protherm_data_mapped.csv","potapov_with_uniprot_mapping.csv"],"id":30176,"numValue":-0.03,"references":[],"strValue":null,"type":"DDG"},{"datasets":["capriotti_S1615_map.csv","khan_protherm_data_mapped.csv"],"id":30177,"numValu...
[{"id":6509,"numValue":6.0,"position":62,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1141
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,141
train
mutant
4,346
30
4,856
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
P65A
P65A
1
1
0
0
65
P
A
9
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
65
A
S
true
false
9.467264
11.424286
10,300
ProTherm
5
Fluorescence
GdnHCl
Sodium acetate
0.1 M
25
1RN1_A:P39A
null
null
4.88
5.12
null
null
null
1.71
2.63
null
null
null
null
null
null
null
yes
DG|DDG|M|CM|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
670
ARTICLE
Stability and folding kinetics of ribonuclease T1 are strongly altered by the replacement of cis-proline 39 with alanine.
1,993
10.1006/jmbi.1993.1336
8515459
J Mol Biol;231;897-912
4
Hahn U|Landt O|Schmid F X|Mayr L M
[{"numValue":5.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"GdnHCl","type":"METHOD"},{"numValue":null,"strValue":"Sodium acetate","type":"BUFFER"},{"numValue":null,"strValue":"0.1 M","t...
[{"datasets":[],"id":35309,"numValue":4.88,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":35310,"numValue":5.12,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":35311,"numValue":2.63,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":35312,"numValue":1.71,"references":[],...
[{"id":6512,"numValue":9.0,"position":65,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1143
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,143
train
mutant
4,346
30
4,856
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
P65A
P65A
1
1
0
0
65
P
A
9
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
65
A
S
true
false
9.467264
11.424286
14,000
ProTherm
8
Fluorescence
GdnHCl
Tris
0.1 M
10
1RN1_A:P39A
null
null
4.11
4.33
null
null
null
1.43
2.87
null
null
null
null
null
null
null
yes
DG|DDG|M|CM|REVERSIBILITY
guerios_625_map.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
670
ARTICLE
Stability and folding kinetics of ribonuclease T1 are strongly altered by the replacement of cis-proline 39 with alanine.
1,993
10.1006/jmbi.1993.1336
8515459
J Mol Biol;231;897-912
4
Hahn U|Landt O|Schmid F X|Mayr L M
[{"numValue":8.0,"strValue":null,"type":"PH"},{"numValue":10.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"GdnHCl","type":"METHOD"},{"numValue":null,"strValue":"Tris","type":"BUFFER"},{"numValue":null,"strValue":"0.1 M","type":"BUFF...
[{"datasets":[],"id":51856,"numValue":4.11,"references":[],"strValue":null,"type":"DG"},{"datasets":["guerios_625_map.csv","potapov_with_uniprot_mapping.csv"],"id":51857,"numValue":4.33,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":51858,"numValue":2.87,"references":[],"strValue":null,"type":"M"},{"...
[{"id":6512,"numValue":9.0,"position":65,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1144
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,144
train
mutant
33
30
35
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
H66T
H66T
1
1
0
0
66
H
T
9
ACTIVE_SITE|CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
66
A
E
true
true
62.29325
13.775
33
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
null
Mops
50 mM
1RN1_A:H40T
56.7
-0.5
null
null
100.14
null
null
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DH|REVERSIBILITY
AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"20 mM, 2 mM","type":"BUFFER_CONC"},{"numValue":null,"strVal...
[{"datasets":[],"id":101,"numValue":56.7,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","Saraboji_S1791.csv"],"id":102,"numValue":-0.5,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":103,"numValue":100.14,"references":[],"strValue":null,"type":"DH"},{"datasets":[],"id":...
[{"id":3,"numValue":null,"position":66,"positionArray":null,"positionRange":null,"strValue":null,"type":"ACTIVE_SITE"},{"id":6513,"numValue":9.0,"position":66,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1145
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,145
train
mutant
33
30
35
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
H66T
H66T
1
1
0
0
66
H
T
9
ACTIVE_SITE|CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
66
A
E
true
true
62.29325
13.775
8,552
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_A:H40T
null
null
null
0.26
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DDG|REVERSIBILITY
capriotti_S1615_map.csv|capriotti_S388_map.csv|khan_protherm_data_mapped.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":29022,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":["capriotti_S1615_map.csv","capriotti_S388_map.csv","khan_protherm_data_mapped.csv","potapov_with_uniprot_mapping.csv"],"id":29023,"numValue":0.26,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":29024,...
[{"id":3,"numValue":null,"position":66,"positionArray":null,"positionRange":null,"strValue":null,"type":"ACTIVE_SITE"},{"id":6513,"numValue":9.0,"position":66,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1147
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,147
train
mutant
6,695
30
7,337
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
H66T|W85Y
H66T|W85Y
2
2
0
0
66
H
T
9
ACTIVE_SITE|CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
66|85
A
E
true
true
31.893799
12.22
14,436
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
null
Mops
50 mM
1RN1_A:H40T 1RN1_A:W59Y
53.9
-3.3
null
null
92.5
null
null
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DH|REVERSIBILITY
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"20 mM, 2 mM","type":"BUFFER_CONC"},{"numValue":null,"strVal...
[{"datasets":[],"id":53374,"numValue":53.9,"references":[],"strValue":null,"type":"TM"},{"datasets":[],"id":53375,"numValue":-3.3,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":53376,"numValue":92.5,"references":[],"strValue":null,"type":"DH"},{"datasets":[],"id":53377,"numValue":null,"references":[]...
[{"id":3,"numValue":null,"position":66,"positionArray":null,"positionRange":null,"strValue":null,"type":"ACTIVE_SITE"},{"id":6513,"numValue":9.0,"position":66,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":nul...
fireprotdb:1148
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,148
train
mutant
6,695
30
7,337
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
H66T|W85Y
H66T|W85Y
2
2
0
0
66
H
T
9
ACTIVE_SITE|CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
66|85
A
E
true
true
31.893799
12.22
15,150
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_A:H40T 1RN1_A:W59Y
null
null
null
0.93
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DDG|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":55581,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":[],"id":55582,"numValue":0.93,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":55583,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":3,"numValue":null,"position":66,"positionArray":null,"positionRange":null,"strValue":null,"type":"ACTIVE_SITE"},{"id":6513,"numValue":9.0,"position":66,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":nul...
fireprotdb:1149
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,149
train
mutant
6,695
30
7,337
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
H66T|W85Y
H66T|W85Y
2
2
0
0
66
H
T
9
ACTIVE_SITE|CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
66|85
A
E
true
true
31.893799
12.22
15,155
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_A:H40T 1RN1_A:W59Y
null
null
6.88
null
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DG|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":55596,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":[],"id":55597,"numValue":6.88,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":55598,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":3,"numValue":null,"position":66,"positionArray":null,"positionRange":null,"strValue":null,"type":"ACTIVE_SITE"},{"id":6513,"numValue":9.0,"position":66,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":nul...
fireprotdb:1150
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,150
train
mutant
31
30
33
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y68W
Y68W
1
1
0
0
68
Y
W
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
68
A
L|E
true
true
13.303211
14.945417
31
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
null
Mops
50 mM
1RN1_A:Y42W
56.6
-0.6
null
null
96.08
null
null
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DH|REVERSIBILITY
AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"20 mM, 2 mM","type":"BUFFER_CONC"},{"numValue":null,"strVal...
[{"datasets":[],"id":93,"numValue":56.6,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","Saraboji_S1791.csv"],"id":94,"numValue":-0.6,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":95,"numValue":96.08,"references":[],"strValue":null,"type":"DH"},{"datasets":[],"id":96,"...
[{"id":6515,"numValue":8.0,"position":68,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1151
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,151
train
mutant
31
30
33
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y68W
Y68W
1
1
0
0
68
Y
W
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
68
A
L|E
true
true
13.303211
14.945417
8,550
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_A:Y42W
null
null
null
0.14
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DDG|REVERSIBILITY
capriotti_S1615_map.csv|capriotti_S388_map.csv|khan_protherm_data_mapped.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":29016,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":["capriotti_S1615_map.csv","capriotti_S388_map.csv","khan_protherm_data_mapped.csv","potapov_with_uniprot_mapping.csv"],"id":29017,"numValue":0.14,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":29018,...
[{"id":6515,"numValue":8.0,"position":68,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1152
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,152
train
mutant
31
30
33
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y68W
Y68W
1
1
0
0
68
Y
W
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
68
A
L|E
true
true
13.303211
14.945417
8,556
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_A:Y42W
null
null
7.67
null
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DG|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":29034,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":[],"id":29035,"numValue":7.67,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":29036,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":6515,"numValue":8.0,"position":68,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1153
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,153
train
mutant
643
30
696
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y68F
Y68F
1
1
0
0
68
Y
F
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
68
A
L|E
true
true
13.303211
14.945417
1,060
ProTherm
7
Fluorescence
Thermal
MOPS
30 mM
null
1RN1_A:Y42F
54.3
3.4
null
null
null
null
106
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DHVH|REVERSIBILITY
AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
110
ARTICLE
Contribution of hydrogen bonding to the conformational stability of ribonuclease T1.
1,992
10.1021/bi00118a013
1731929
Biochemistry;31;725-32
4
Stanssens P|Hahn U|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"1RN1_A:Y42F","type"...
[{"datasets":[],"id":3960,"numValue":54.3,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","Saraboji_S1791.csv"],"id":3961,"numValue":3.4,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":3962,"numValue":106.0,"references":[],"strValue":null,"type":"DHVH"},{"datasets":[],"i...
[{"id":6515,"numValue":8.0,"position":68,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1154
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,154
train
mutant
643
30
696
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y68F
Y68F
1
1
0
0
68
Y
F
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
68
A
L|E
true
true
13.303211
14.945417
7,624
ProTherm
7
Fluorescence
Thermal
MOPS
30 mM
50.9
1RN1_A:Y42F
null
null
null
-1.15
null
null
null
null
null
null
null
null
null
null
null
null
yes
DDG|REVERSIBILITY
capriotti_S1615_map.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
110
ARTICLE
Contribution of hydrogen bonding to the conformational stability of ribonuclease T1.
1,992
10.1021/bi00118a013
1731929
Biochemistry;31;725-32
4
Stanssens P|Hahn U|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":50.9,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUF...
[{"datasets":["capriotti_S1615_map.csv"],"id":26313,"numValue":-1.15,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":26314,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":6515,"numValue":8.0,"position":68,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1155
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,155
train
mutant
643
30
696
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y68F
Y68F
1
1
0
0
68
Y
F
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
68
A
L|E
true
true
13.303211
14.945417
8,894
ProTherm
7
Fluorescence
Urea
MOPS
30 mM
25
1RN1_A:Y42F
null
null
null
-1.14
null
null
null
6.24
1.17
null
null
null
null
null
null
null
yes
DDG|M|CM|REVERSIBILITY
capriotti_S1615_map.csv|capriotti_S388_map.csv|guerios_625_map.csv|khan_protherm_data_mapped.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
110
ARTICLE
Contribution of hydrogen bonding to the conformational stability of ribonuclease T1.
1,992
10.1021/bi00118a013
1731929
Biochemistry;31;725-32
4
Stanssens P|Hahn U|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER...
[{"datasets":["capriotti_S1615_map.csv","capriotti_S388_map.csv","guerios_625_map.csv","khan_protherm_data_mapped.csv","potapov_with_uniprot_mapping.csv"],"id":30144,"numValue":-1.14,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":30145,"numValue":1.17,"references":[],"strValue":null,"type":"M"},{"dat...
[{"id":6515,"numValue":8.0,"position":68,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1156
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,156
train
mutant
6,693
30
7,335
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y68W|W85Y
Y68W|W85Y
2
2
0
0
68
Y
W
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
68|85
A
L|E
true
true
7.39878
12.805208
14,434
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
null
Mops
50 mM
1RN1_A:Y42W 1RN1_A:W59Y
53.7
-3.5
null
null
91.78
null
null
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DH|REVERSIBILITY
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"20 mM, 2 mM","type":"BUFFER_CONC"},{"numValue":null,"strVal...
[{"datasets":[],"id":53366,"numValue":53.7,"references":[],"strValue":null,"type":"TM"},{"datasets":[],"id":53367,"numValue":-3.5,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":53368,"numValue":91.78,"references":[],"strValue":null,"type":"DH"},{"datasets":[],"id":53369,"numValue":null,"references":[...
[{"id":6515,"numValue":8.0,"position":68,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1157
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,157
train
mutant
6,693
30
7,335
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y68W|W85Y
Y68W|W85Y
2
2
0
0
68
Y
W
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
68|85
A
L|E
true
true
7.39878
12.805208
15,148
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_A:Y42W 1RN1_A:W59Y
null
null
null
1.03
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DDG|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":55575,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":[],"id":55576,"numValue":1.03,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":55577,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":6515,"numValue":8.0,"position":68,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1158
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,158
train
mutant
6,693
30
7,335
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y68W|W85Y
Y68W|W85Y
2
2
0
0
68
Y
W
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
68|85
A
L|E
true
true
7.39878
12.805208
15,153
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_A:Y42W 1RN1_A:W59Y
null
null
6.76
null
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DG|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":55590,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":[],"id":55591,"numValue":6.76,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":55592,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":6515,"numValue":8.0,"position":68,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1160
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,160
train
mutant
652
30
705
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N70A
N70A
1
1
0
0
70
N
A
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
70
A
L
true
true
37.443961
14.67375
1,098
ProTherm
7
CD
Thermal
MOPS
30 mM
null
1RN1_A:N44A
45.6
-5.2
null
null
null
null
86.8
null
null
null
null
null
null
null
null
null
Yes
2.0
TM|DTM|DHVH|STATE|REVERSIBILITY
AUTOMUTE_S1749.csv|Saraboji_S1791.csv|HotMuSiC_S1626.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
114
ARTICLE
Contribution of a conserved asparagine to the conformational stability of ribonucleases Sa, Ba, and T1.
1,998
10.1021/bi9815243
9819211
Biochemistry;37;16192-200
7
Giletto A|Sevcik J|Urbanikova L|Dauter Z|Pace C N|Hebert E J|Wilson K S
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"1RN1_A:N44A","type":"_PDB_CHA...
[{"datasets":[],"id":4111,"numValue":45.6,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","Saraboji_S1791.csv"],"id":4112,"numValue":-5.2,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":4113,"numValue":86.8,"references":[],"strValue":null,"type":"DHVH"},{"datasets":[],"i...
[{"id":6517,"numValue":8.0,"position":70,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1161
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,161
train
mutant
652
30
705
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N70A
N70A
1
1
0
0
70
N
A
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
70
A
L
true
true
37.443961
14.67375
3,309
ProTherm
7
CD
Thermal
MOPS
30 mM
null
1RN1_A:N44A
45.6
-5.2
null
null
null
null
86.8
null
null
null
null
null
null
null
null
null
yes (>95%)
TM|DTM|DHVH|REVERSIBILITY
AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
114
ARTICLE
Contribution of a conserved asparagine to the conformational stability of ribonucleases Sa, Ba, and T1.
1,998
10.1021/bi9815243
9819211
Biochemistry;37;16192-200
7
Giletto A|Sevcik J|Urbanikova L|Dauter Z|Pace C N|Hebert E J|Wilson K S
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"1RN1_A:N44A","type":"_PDB_CHA...
[{"datasets":[],"id":12176,"numValue":45.6,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","Saraboji_S1791.csv"],"id":12177,"numValue":-5.2,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":12178,"numValue":86.8,"references":[],"strValue":null,"type":"DHVH"},{"datasets":[]...
[{"id":6517,"numValue":8.0,"position":70,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1163
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,163
train
mutant
652
30
705
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N70A
N70A
1
1
0
0
70
N
A
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
70
A
L
true
true
37.443961
14.67375
7,637
ProTherm
7
CD
Thermal
MOPS
30 mM
50.8
1RN1_A:N44A
null
null
null
1.6
null
null
null
null
null
null
null
null
null
null
null
null
yes (>95%)
DDG|REVERSIBILITY
capriotti_S1615_map.csv|khan_protherm_data_mapped.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
114
ARTICLE
Contribution of a conserved asparagine to the conformational stability of ribonucleases Sa, Ba, and T1.
1,998
10.1021/bi9815243
9819211
Biochemistry;37;16192-200
7
Giletto A|Sevcik J|Urbanikova L|Dauter Z|Pace C N|Hebert E J|Wilson K S
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":50.8,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"}...
[{"datasets":["capriotti_S1615_map.csv","khan_protherm_data_mapped.csv"],"id":26339,"numValue":1.6,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":26340,"numValue":null,"references":[],"strValue":"yes (>95%)","type":"REVERSIBILITY"}]
[{"id":6517,"numValue":8.0,"position":70,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1164
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,164
train
mutant
652
30
705
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N70A
N70A
1
1
0
0
70
N
A
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
70
A
L
true
true
37.443961
14.67375
8,903
ProTherm
7
Fluorescence
Urea
MOPS
30 mM
25
1RN1_A:N44A
null
null
null
2.08
null
null
null
3.59
1.3
null
null
null
null
null
null
null
yes
DDG|M|CM|REVERSIBILITY
capriotti_S1615_map.csv|capriotti_S388_map.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
110
ARTICLE
Contribution of hydrogen bonding to the conformational stability of ribonuclease T1.
1,992
10.1021/bi00118a013
1731929
Biochemistry;31;725-32
4
Stanssens P|Hahn U|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER...
[{"datasets":["capriotti_S1615_map.csv","capriotti_S388_map.csv"],"id":30180,"numValue":2.08,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":30181,"numValue":1.3,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":30182,"numValue":3.59,"references":[],"strValue":null,"type":"CM"},{"dataset...
[{"id":6517,"numValue":8.0,"position":70,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1165
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,165
train
mutant
652
30
705
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N70A
N70A
1
1
0
0
70
N
A
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
70
A
L
true
true
37.443961
14.67375
8,914
ProTherm
7
Fluorescence
Urea
MOPS
30 mM
25
1RN1_A:N44A
null
null
4.12
2
null
null
null
3.51
1.17
null
null
null
null
null
null
null
Yes
2.0
DG|DDG|M|CM|STATE|REVERSIBILITY
guerios_625_map.csv|potapov_with_uniprot_mapping.csv|SAAFEC_S1262.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
114
ARTICLE
Contribution of a conserved asparagine to the conformational stability of ribonucleases Sa, Ba, and T1.
1,998
10.1021/bi9815243
9819211
Biochemistry;37;16192-200
7
Giletto A|Sevcik J|Urbanikova L|Dauter Z|Pace C N|Hebert E J|Wilson K S
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER...
[{"datasets":[],"id":30235,"numValue":4.12,"references":[],"strValue":null,"type":"DG"},{"datasets":["guerios_625_map.csv","potapov_with_uniprot_mapping.csv","SAAFEC_S1262.csv"],"id":30236,"numValue":2.0,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":30237,"numValue":1.17,"references":[],"strValue":n...
[{"id":6517,"numValue":8.0,"position":70,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1166
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,166
train
mutant
652
30
705
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N70A
N70A
1
1
0
0
70
N
A
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
70
A
L
true
true
37.443961
14.67375
10,697
ProTherm
7
CD
Urea
MOPS
30 mM
25
1RN1_A:N44A
null
null
4.12
2
null
null
null
3.51
1.17
null
null
null
null
null
null
null
yes (>95%)
DG|DDG|M|CM|REVERSIBILITY
guerios_625_map.csv|potapov_with_uniprot_mapping.csv|SAAFEC_S1262.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
114
ARTICLE
Contribution of a conserved asparagine to the conformational stability of ribonucleases Sa, Ba, and T1.
1,998
10.1021/bi9815243
9819211
Biochemistry;37;16192-200
7
Giletto A|Sevcik J|Urbanikova L|Dauter Z|Pace C N|Hebert E J|Wilson K S
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{"...
[{"datasets":[],"id":36722,"numValue":4.12,"references":[],"strValue":null,"type":"DG"},{"datasets":["guerios_625_map.csv","potapov_with_uniprot_mapping.csv","SAAFEC_S1262.csv"],"id":36723,"numValue":2.0,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":36724,"numValue":1.17,"references":[],"strValue":n...
[{"id":6517,"numValue":8.0,"position":70,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1168
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,168
train
mutant
668
30
724
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N70D
N70D
1
1
0
0
70
N
D
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
70
A
L
true
true
37.443961
14.67375
3,307
ProTherm
7
CD
Thermal
MOPS
30 mM
null
1RN1_A:N44D
45.3
-5.5
null
null
null
null
84.2
null
null
null
null
null
null
null
null
null
yes (>95%)
TM|DTM|DHVH|REVERSIBILITY
AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
114
ARTICLE
Contribution of a conserved asparagine to the conformational stability of ribonucleases Sa, Ba, and T1.
1,998
10.1021/bi9815243
9819211
Biochemistry;37;16192-200
7
Giletto A|Sevcik J|Urbanikova L|Dauter Z|Pace C N|Hebert E J|Wilson K S
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"1RN1_A:N44D","type":"_PDB_CHA...
[{"datasets":[],"id":12168,"numValue":45.3,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","Saraboji_S1791.csv"],"id":12169,"numValue":-5.5,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":12170,"numValue":84.2,"references":[],"strValue":null,"type":"DHVH"},{"datasets":[]...
[{"id":6517,"numValue":8.0,"position":70,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1169
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,169
train
mutant
668
30
724
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N70D
N70D
1
1
0
0
70
N
D
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
70
A
L
true
true
37.443961
14.67375
7,635
ProTherm
7
CD
Thermal
MOPS
30 mM
50.8
1RN1_A:N44D
null
null
null
1.6
null
null
null
null
null
null
null
null
null
null
null
null
yes (>95%)
DDG|REVERSIBILITY
capriotti_S1615_map.csv|khan_protherm_data_mapped.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
114
ARTICLE
Contribution of a conserved asparagine to the conformational stability of ribonucleases Sa, Ba, and T1.
1,998
10.1021/bi9815243
9819211
Biochemistry;37;16192-200
7
Giletto A|Sevcik J|Urbanikova L|Dauter Z|Pace C N|Hebert E J|Wilson K S
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":50.8,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"}...
[{"datasets":["capriotti_S1615_map.csv","khan_protherm_data_mapped.csv"],"id":26335,"numValue":1.6,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":26336,"numValue":null,"references":[],"strValue":"yes (>95%)","type":"REVERSIBILITY"}]
[{"id":6517,"numValue":8.0,"position":70,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1170
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,170
train
mutant
668
30
724
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N70D
N70D
1
1
0
0
70
N
D
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
70
A
L
true
true
37.443961
14.67375
8,912
ProTherm
7
Fluorescence
Urea
MOPS
30 mM
25
1RN1_A:N44D
null
null
4.43
2
null
null
null
3.54
1.25
null
null
null
null
null
null
null
Yes
2.0
DG|DDG|M|CM|STATE|REVERSIBILITY
guerios_625_map.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
114
ARTICLE
Contribution of a conserved asparagine to the conformational stability of ribonucleases Sa, Ba, and T1.
1,998
10.1021/bi9815243
9819211
Biochemistry;37;16192-200
7
Giletto A|Sevcik J|Urbanikova L|Dauter Z|Pace C N|Hebert E J|Wilson K S
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER...
[{"datasets":[],"id":30223,"numValue":4.43,"references":[],"strValue":null,"type":"DG"},{"datasets":["guerios_625_map.csv","potapov_with_uniprot_mapping.csv"],"id":30224,"numValue":2.0,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":30225,"numValue":1.25,"references":[],"strValue":null,"type":"M"},{"d...
[{"id":6517,"numValue":8.0,"position":70,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1171
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,171
train
mutant
668
30
724
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N70D
N70D
1
1
0
0
70
N
D
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
70
A
L
true
true
37.443961
14.67375
8,915
ProTherm
2.7
Fluorescence
Urea
glycine
30 mM
25
1RN1_A:N44D
null
null
5.71
null
null
null
null
3.45
1.66
null
null
null
null
null
null
null
Yes
2.0
DG|M|CM|STATE|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
114
ARTICLE
Contribution of a conserved asparagine to the conformational stability of ribonucleases Sa, Ba, and T1.
1,998
10.1021/bi9815243
9819211
Biochemistry;37;16192-200
7
Giletto A|Sevcik J|Urbanikova L|Dauter Z|Pace C N|Hebert E J|Wilson K S
[{"numValue":2.7,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"glycine","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUF...
[{"datasets":[],"id":30241,"numValue":5.71,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":30242,"numValue":1.66,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":30243,"numValue":3.45,"references":[],"strValue":null,"type":"CM"},{"datasets":[],"id":30244,"numValue":2.0,"references":[],"s...
[{"id":6517,"numValue":8.0,"position":70,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1172
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,172
train
mutant
668
30
724
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N70D
N70D
1
1
0
0
70
N
D
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
70
A
L
true
true
37.443961
14.67375
10,695
ProTherm
7
CD
Urea
MOPS
30 mM
25
1RN1_A:N44D
null
null
4.43
2
null
null
null
3.54
1.25
null
null
null
null
null
null
null
yes (>95%)
DG|DDG|M|CM|REVERSIBILITY
guerios_625_map.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
114
ARTICLE
Contribution of a conserved asparagine to the conformational stability of ribonucleases Sa, Ba, and T1.
1,998
10.1021/bi9815243
9819211
Biochemistry;37;16192-200
7
Giletto A|Sevcik J|Urbanikova L|Dauter Z|Pace C N|Hebert E J|Wilson K S
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{"...
[{"datasets":[],"id":36712,"numValue":4.43,"references":[],"strValue":null,"type":"DG"},{"datasets":["guerios_625_map.csv","potapov_with_uniprot_mapping.csv"],"id":36713,"numValue":2.0,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":36714,"numValue":1.25,"references":[],"strValue":null,"type":"M"},{"d...
[{"id":6517,"numValue":8.0,"position":70,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1173
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,173
train
mutant
668
30
724
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N70D
N70D
1
1
0
0
70
N
D
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
70
A
L
true
true
37.443961
14.67375
10,698
ProTherm
2.7
CD
Urea
glycine
30 mM
25
1RN1_A:N44D
null
null
5.71
0.5
null
null
null
3.45
1.66
null
null
null
null
null
null
null
yes (>95%)
DG|DDG|M|CM|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
114
ARTICLE
Contribution of a conserved asparagine to the conformational stability of ribonucleases Sa, Ba, and T1.
1,998
10.1021/bi9815243
9819211
Biochemistry;37;16192-200
7
Giletto A|Sevcik J|Urbanikova L|Dauter Z|Pace C N|Hebert E J|Wilson K S
[{"numValue":2.7,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"glycine","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"}...
[{"datasets":[],"id":36727,"numValue":5.71,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":36728,"numValue":0.5,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":36729,"numValue":1.66,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":36730,"numValue":3.45,"references":[],"...
[{"id":6517,"numValue":8.0,"position":70,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1174
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,174
train
mutant
669
30
725
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N70S
N70S
1
1
0
0
70
N
S
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
70
A
L
true
true
37.443961
14.67375
1,097
ProTherm
7
CD
Thermal
MOPS
30 mM
null
1RN1_A:N44S
45.8
-5
null
null
null
null
89.6
null
null
null
null
null
null
null
null
null
Yes
2.0
TM|DTM|DHVH|STATE|REVERSIBILITY
AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
114
ARTICLE
Contribution of a conserved asparagine to the conformational stability of ribonucleases Sa, Ba, and T1.
1,998
10.1021/bi9815243
9819211
Biochemistry;37;16192-200
7
Giletto A|Sevcik J|Urbanikova L|Dauter Z|Pace C N|Hebert E J|Wilson K S
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"1RN1_A:N44S","type":"_PDB_CHA...
[{"datasets":[],"id":4106,"numValue":45.8,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","Saraboji_S1791.csv"],"id":4107,"numValue":-5.0,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":4108,"numValue":89.6,"references":[],"strValue":null,"type":"DHVH"},{"datasets":[],"i...
[{"id":6517,"numValue":8.0,"position":70,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1175
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,175
train
mutant
669
30
725
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N70S
N70S
1
1
0
0
70
N
S
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
70
A
L
true
true
37.443961
14.67375
3,308
ProTherm
7
CD
Thermal
MOPS
30 mM
null
1RN1_A:N44S
45.8
-5
null
null
null
null
89.6
null
null
null
null
null
null
null
null
null
yes (>95%)
TM|DTM|DHVH|REVERSIBILITY
AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
114
ARTICLE
Contribution of a conserved asparagine to the conformational stability of ribonucleases Sa, Ba, and T1.
1,998
10.1021/bi9815243
9819211
Biochemistry;37;16192-200
7
Giletto A|Sevcik J|Urbanikova L|Dauter Z|Pace C N|Hebert E J|Wilson K S
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"1RN1_A:N44S","type":"_PDB_CHA...
[{"datasets":[],"id":12172,"numValue":45.8,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","Saraboji_S1791.csv"],"id":12173,"numValue":-5.0,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":12174,"numValue":89.6,"references":[],"strValue":null,"type":"DHVH"},{"datasets":[]...
[{"id":6517,"numValue":8.0,"position":70,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1176
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,176
train
mutant
669
30
725
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N70S
N70S
1
1
0
0
70
N
S
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
70
A
L
true
true
37.443961
14.67375
7,636
ProTherm
7
CD
Thermal
MOPS
30 mM
50.8
1RN1_A:N44S
null
null
null
1.5
null
null
null
null
null
null
null
null
null
null
null
null
yes (>95%)
DDG|REVERSIBILITY
capriotti_S1615_map.csv|khan_protherm_data_mapped.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
114
ARTICLE
Contribution of a conserved asparagine to the conformational stability of ribonucleases Sa, Ba, and T1.
1,998
10.1021/bi9815243
9819211
Biochemistry;37;16192-200
7
Giletto A|Sevcik J|Urbanikova L|Dauter Z|Pace C N|Hebert E J|Wilson K S
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":50.8,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"}...
[{"datasets":["capriotti_S1615_map.csv","khan_protherm_data_mapped.csv","potapov_with_uniprot_mapping.csv"],"id":26337,"numValue":1.5,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":26338,"numValue":null,"references":[],"strValue":"yes (>95%)","type":"REVERSIBILITY"}]
[{"id":6517,"numValue":8.0,"position":70,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1177
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,177
train
mutant
669
30
725
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N70S
N70S
1
1
0
0
70
N
S
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
70
A
L
true
true
37.443961
14.67375
8,913
ProTherm
7
Fluorescence
Urea
MOPS
30 mM
25
1RN1_A:N44S
null
null
4.39
1.9
null
null
null
3.6
1.22
null
null
null
null
null
null
null
Yes
2.0
DG|DDG|M|CM|STATE|REVERSIBILITY
SAAFEC_S1262.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
114
ARTICLE
Contribution of a conserved asparagine to the conformational stability of ribonucleases Sa, Ba, and T1.
1,998
10.1021/bi9815243
9819211
Biochemistry;37;16192-200
7
Giletto A|Sevcik J|Urbanikova L|Dauter Z|Pace C N|Hebert E J|Wilson K S
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER...
[{"datasets":[],"id":30229,"numValue":4.39,"references":[],"strValue":null,"type":"DG"},{"datasets":["SAAFEC_S1262.csv"],"id":30230,"numValue":1.9,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":30231,"numValue":1.22,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":30232,"numValue":3.6,...
[{"id":6517,"numValue":8.0,"position":70,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1178
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,178
train
mutant
669
30
725
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
N70S
N70S
1
1
0
0
70
N
S
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
70
A
L
true
true
37.443961
14.67375
10,696
ProTherm
7
CD
Urea
MOPS
30 mM
25
1RN1_A:N44S
null
null
4.39
1.9
null
null
null
3.6
1.22
null
null
null
null
null
null
null
yes (>95%)
DG|DDG|M|CM|REVERSIBILITY
SAAFEC_S1262.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
114
ARTICLE
Contribution of a conserved asparagine to the conformational stability of ribonucleases Sa, Ba, and T1.
1,998
10.1021/bi9815243
9819211
Biochemistry;37;16192-200
7
Giletto A|Sevcik J|Urbanikova L|Dauter Z|Pace C N|Hebert E J|Wilson K S
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{"...
[{"datasets":[],"id":36717,"numValue":4.39,"references":[],"strValue":null,"type":"DG"},{"datasets":["SAAFEC_S1262.csv"],"id":36718,"numValue":1.9,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":36719,"numValue":1.22,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":36720,"numValue":3.6,...
[{"id":6517,"numValue":8.0,"position":70,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1179
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,179
train
mutant
32
30
34
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y71W
Y71W
1
1
0
0
71
Y
W
5
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
71
A
L|T
true
true
165.428457
23.737954
32
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
null
Mops
50 mM
1RN1_B:Y45W
55.9
-1.3
null
null
106.84
null
null
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DH|REVERSIBILITY
AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"20 mM, 2 mM","type":"BUFFER_CONC"},{"numValue":null,"strVal...
[{"datasets":[],"id":97,"numValue":55.9,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","Saraboji_S1791.csv"],"id":98,"numValue":-1.3,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":99,"numValue":106.84,"references":[],"strValue":null,"type":"DH"},{"datasets":[],"id":100...
[{"id":6518,"numValue":5.0,"position":71,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1180
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,180
train
mutant
32
30
34
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y71W
Y71W
1
1
0
0
71
Y
W
5
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
71
A
L|T
true
true
165.428457
23.737954
2,917
ProTherm
7
Absorbance
Thermal
Sodium cacodylate
10 mM
null
1RN1_B:Y45W
56
-1.6
null
null
null
null
null
null
null
null
null
null
null
null
null
null
yes
TM|DTM|REVERSIBILITY
AUTOMUTE_S1962.csv|Saraboji_S2204.csv|STRUM_Q3421.csv|AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
255
ARTICLE
Impact of point mutations on the structure and thermal stability of ribonuclease T1 in aqueous solution probed by Fourier transform infrared spectroscopy.
1,994
10.1021/bi00201a021
8075073
Biochemistry;33;10725-30
7
Backmann J|Fabian H|Schultz C|Hahn U|Saenger W|Naumann D|Mantsch H H
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"Absorbance","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"Sodium cacodylate","type":"BUFFER"},{"numValue":null,"strValue":"10 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"1RN1_B:Y...
[{"datasets":["AUTOMUTE_S1962.csv","Saraboji_S2204.csv","STRUM_Q3421.csv"],"id":10580,"numValue":56.0,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","AUTOMUTE_S1962.csv","Saraboji_S1791.csv","Saraboji_S2204.csv","STRUM_Q3421.csv"],"id":10581,"numValue":-1.6,"references":[],"strValue":nul...
[{"id":6518,"numValue":5.0,"position":71,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1181
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,181
train
mutant
32
30
34
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y71W
Y71W
1
1
0
0
71
Y
W
5
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
71
A
L|T
true
true
165.428457
23.737954
8,551
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_B:Y45W
null
null
null
-0.74
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DDG|REVERSIBILITY
capriotti_S1615_map.csv|capriotti_S388_map.csv|khan_protherm_data_mapped.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":29019,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":["capriotti_S1615_map.csv","capriotti_S388_map.csv","khan_protherm_data_mapped.csv"],"id":29020,"numValue":-0.74,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":29021,"numValue":null,"references":[],"s...
[{"id":6518,"numValue":5.0,"position":71,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1182
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,182
train
mutant
32
30
34
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y71W
Y71W
1
1
0
0
71
Y
W
5
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
71
A
L|T
true
true
165.428457
23.737954
8,557
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_B:Y45W
null
null
8.56
null
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DG|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":29037,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":[],"id":29038,"numValue":8.56,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":29039,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":6518,"numValue":5.0,"position":71,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1183
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,183
train
mutant
6,694
30
7,336
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y71W|W85Y
Y71W|W85Y
2
2
0
0
71
Y
W
5
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
71|85
A
L|E|T
true
true
83.461402
17.201477
14,435
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
null
Mops
50 mM
1RN1_A:W59Y 1RN1_B:Y45W
52.8
-4.4
null
null
95.12
null
null
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DH|REVERSIBILITY
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"20 mM, 2 mM","type":"BUFFER_CONC"},{"numValue":null,"strVal...
[{"datasets":[],"id":53370,"numValue":52.8,"references":[],"strValue":null,"type":"TM"},{"datasets":[],"id":53371,"numValue":-4.4,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":53372,"numValue":95.12,"references":[],"strValue":null,"type":"DH"},{"datasets":[],"id":53373,"numValue":null,"references":[...
[{"id":6518,"numValue":5.0,"position":71,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1184
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,184
train
mutant
6,694
30
7,336
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y71W|W85Y
Y71W|W85Y
2
2
0
0
71
Y
W
5
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
71|85
A
L|E|T
true
true
83.461402
17.201477
14,671
ProTherm
7
Absorbance
Thermal
Sodium cacodylate
10 mM
null
1RN1_A:W59Y 1RN1_B:Y45W
53.1
-4.5
null
null
null
null
null
null
null
null
null
null
null
null
null
null
yes
TM|DTM|REVERSIBILITY
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
255
ARTICLE
Impact of point mutations on the structure and thermal stability of ribonuclease T1 in aqueous solution probed by Fourier transform infrared spectroscopy.
1,994
10.1021/bi00201a021
8075073
Biochemistry;33;10725-30
7
Backmann J|Fabian H|Schultz C|Hahn U|Saenger W|Naumann D|Mantsch H H
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"Absorbance","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"Sodium cacodylate","type":"BUFFER"},{"numValue":null,"strValue":"10 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"1RN1_A:W...
[{"datasets":[],"id":54253,"numValue":53.1,"references":[],"strValue":null,"type":"TM"},{"datasets":[],"id":54254,"numValue":-4.5,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":54255,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":6518,"numValue":5.0,"position":71,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1185
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,185
train
mutant
6,694
30
7,336
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y71W|W85Y
Y71W|W85Y
2
2
0
0
71
Y
W
5
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
71|85
A
L|E|T
true
true
83.461402
17.201477
15,149
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_A:W59Y 1RN1_B:Y45W
null
null
null
0.91
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DDG|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":55578,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":[],"id":55579,"numValue":0.91,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":55580,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":6518,"numValue":5.0,"position":71,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1186
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,186
train
mutant
6,694
30
7,336
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y71W|W85Y
Y71W|W85Y
2
2
0
0
71
Y
W
5
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
71|85
A
L|E|T
true
true
83.461402
17.201477
15,154
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_A:W59Y 1RN1_B:Y45W
null
null
6.91
null
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DG|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":55593,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":[],"id":55594,"numValue":6.91,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":55595,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":6518,"numValue":5.0,"position":71,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1187
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,187
train
mutant
4,687
30
5,225
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
D75A
D75A
1
1
0
0
75
D
A
3
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
75
A
L
true
false
136.573511
22.70875
11,047
ProTherm
7
CD
Urea
MOPS
30 mM
25
1RN1_A:D49A
null
null
null
0.5
null
null
null
5.67
1.21
null
null
null
null
null
null
null
Unknown
DDG|M|CM|REVERSIBILITY
SAAFEC_S1262.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
366
ARTICLE
Increasing protein stability by altering long-range coulombic interactions.
1,999
10.1110/ps.8.9.1843
10493585
Protein Sci;8;1843-9
5
Grimsley G R|Shaw K L|Fee L R|Alston R W|Huyghues-Despointes B M
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{"...
[{"datasets":["SAAFEC_S1262.csv"],"id":38008,"numValue":0.5,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":38009,"numValue":1.21,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":38010,"numValue":5.67,"references":[],"strValue":null,"type":"CM"},{"datasets":[],"id":38011,"numValue":null...
[{"id":6522,"numValue":3.0,"position":75,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1188
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,188
train
mutant
4,687
30
5,225
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
D75A
D75A
1
1
0
0
75
D
A
3
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
75
A
L
true
false
136.573511
22.70875
11,048
ProTherm
2.5
CD
Urea
glycine
30 mM
25
1RN1_A:D49A
null
null
null
-0.4
null
null
null
3.42
1.69
null
null
null
null
null
null
null
Unknown
DDG|M|CM|REVERSIBILITY
guerios_625_map.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
366
ARTICLE
Increasing protein stability by altering long-range coulombic interactions.
1,999
10.1110/ps.8.9.1843
10493585
Protein Sci;8;1843-9
5
Grimsley G R|Shaw K L|Fee L R|Alston R W|Huyghues-Despointes B M
[{"numValue":2.5,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"glycine","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"}...
[{"datasets":["guerios_625_map.csv"],"id":38012,"numValue":-0.4,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":38013,"numValue":1.69,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":38014,"numValue":3.42,"references":[],"strValue":null,"type":"CM"},{"datasets":[],"id":38015,"numValue":...
[{"id":6522,"numValue":3.0,"position":75,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1189
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,189
train
mutant
4,733
30
5,272
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
D75H
D75H
1
1
0
0
75
D
H
3
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
75
A
L
true
false
136.573511
22.70875
11,148
ProTherm
7
CD
Thermal
MOPS
30 mM
25
1RN1_A:D49H
null
null
null
-1.1
null
null
null
null
null
null
null
null
null
null
null
null
Unknown
DDG|REVERSIBILITY
khan_protherm_data_mapped.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
750
ARTICLE
Charge-charge interactions influence the denatured state ensemble and contribute to protein stability.
2,000
10.1110/ps.9.7.1395
10933506
Protein Sci;9;1395-8
3
Pace C N|Shaw K L|Alston R W
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"}...
[{"datasets":["khan_protherm_data_mapped.csv","potapov_with_uniprot_mapping.csv"],"id":38350,"numValue":-1.1,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":38351,"numValue":null,"references":[],"strValue":"Unknown","type":"REVERSIBILITY"}]
[{"id":6522,"numValue":3.0,"position":75,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1190
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,190
train
mutant
7,281
30
7,951
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
S80G|P81N
S80G|P81N
2
2
0
0
80
S
G
6
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
80|81
A
S|L
false
false
63.710654
21.898155
15,606
ProTherm
8
CD
Urea
Tris-HCl
0.1 M
15
NaCl
2.5 M
1RN1_A:S54G 1RN1_A:P55N
null
null
2.44
null
null
null
null
null
null
null
null
null
null
null
null
null
Unknown
DG|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
937
ARTICLE
Folding mechanism of ribonuclease T1 in the absence of the disulfide bonds.
1,994
10.1021/bi00252a029
7981223
Biochemistry;33;14608-19
2
Schmid F X|M?cke M
[{"numValue":8.0,"strValue":null,"type":"PH"},{"numValue":15.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"Tris-HCl","type":"BUFFER"},{"numValue":null,"strValue":"0.1 M","type":"BUFFER_CONC"...
[{"datasets":[],"id":57262,"numValue":2.44,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":57263,"numValue":null,"references":[],"strValue":"Unknown","type":"REVERSIBILITY"}]
[{"id":6527,"numValue":6.0,"position":80,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6528,"numValue":5.0,"position":81,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1191
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,191
train
mutant
7,281
30
7,951
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
S80G|P81N
S80G|P81N
2
2
0
0
80
S
G
6
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
80|81
A
S|L
false
false
63.710654
21.898155
15,610
ProTherm
8
Absorbance
Urea
Tris-HCl
0.1 M
15
NaCl
2.8 M
1RN1_A:S54G 1RN1_A:P55N
null
null
5.98
null
null
null
null
null
null
null
null
null
null
null
null
null
Unknown
DG|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
938
ARTICLE
Intact disulfide bonds decelerate the folding of ribonuclease T1.
1,994
10.1006/jmbi.1994.1408
8014991
J Mol Biol;239;713-25
2
Schmid F X|M?cke M
[{"numValue":8.0,"strValue":null,"type":"PH"},{"numValue":15.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Absorbance","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"Tris-HCl","type":"BUFFER"},{"numValue":null,"strValue":"0.1 M","type":"BUFF...
[{"datasets":[],"id":57276,"numValue":5.98,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":57277,"numValue":null,"references":[],"strValue":"Unknown","type":"REVERSIBILITY"}]
[{"id":6527,"numValue":6.0,"position":80,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6528,"numValue":5.0,"position":81,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1192
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,192
train
mutant
7,281
30
7,951
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
S80G|P81N
S80G|P81N
2
2
0
0
80
S
G
6
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
80|81
A
S|L
false
false
63.710654
21.898155
15,612
ProTherm
5
CD
GdnHCl
Na acetate
0.1 M
10
1RN1_A:S54G 1RN1_A:P55N
null
null
11.21
null
null
null
null
null
2.8
null
null
null
null
null
null
null
Unknown
DG|M|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
939
ARTICLE
Structure of a rapidly formed intermediate in ribonuclease T1 folding.
1,992
10.1002/pro.5560010910
1304394
Protein Sci;1;1162-72
3
Kiefhaber T|Willaert K|Schmid F X
[{"numValue":5.0,"strValue":null,"type":"PH"},{"numValue":10.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"CD","type":"MEASURE"},{"numValue":null,"strValue":"GdnHCl","type":"METHOD"},{"numValue":null,"strValue":"Na acetate","type":"BUFFER"},{"numValue":null,"strValue":"0.1 M","type":"BUFFER_C...
[{"datasets":[],"id":57281,"numValue":11.21,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":57282,"numValue":2.8,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":57283,"numValue":null,"references":[],"strValue":"Unknown","type":"REVERSIBILITY"}]
[{"id":6527,"numValue":6.0,"position":80,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6528,"numValue":5.0,"position":81,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1193
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,193
train
mutant
644
30
697
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y82F
Y82F
1
1
0
0
82
Y
F
5
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
82
A
L|E
false
false
23.259251
16.395417
1,061
ProTherm
7
Fluorescence
Thermal
MOPS
30 mM
null
1RN1_A:Y56F
48.8
-2.1
null
null
null
null
99
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DHVH|REVERSIBILITY
AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
110
ARTICLE
Contribution of hydrogen bonding to the conformational stability of ribonuclease T1.
1,992
10.1021/bi00118a013
1731929
Biochemistry;31;725-32
4
Stanssens P|Hahn U|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"1RN1_A:Y56F","type"...
[{"datasets":[],"id":3964,"numValue":48.8,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","Saraboji_S1791.csv"],"id":3965,"numValue":-2.1,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":3966,"numValue":99.0,"references":[],"strValue":null,"type":"DHVH"},{"datasets":[],"i...
[{"id":6529,"numValue":5.0,"position":82,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1194
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,194
train
mutant
644
30
697
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y82F
Y82F
1
1
0
0
82
Y
F
5
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
82
A
L|E
false
false
23.259251
16.395417
7,625
ProTherm
7
Fluorescence
Thermal
MOPS
30 mM
50.9
1RN1_A:Y56F
null
null
null
0.71
null
null
null
null
null
null
null
null
null
null
null
null
yes
DDG|REVERSIBILITY
capriotti_S1615_map.csv|khan_protherm_data_mapped.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
110
ARTICLE
Contribution of hydrogen bonding to the conformational stability of ribonuclease T1.
1,992
10.1021/bi00118a013
1731929
Biochemistry;31;725-32
4
Stanssens P|Hahn U|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":50.9,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUF...
[{"datasets":["capriotti_S1615_map.csv","khan_protherm_data_mapped.csv"],"id":26315,"numValue":0.71,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":26316,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":6529,"numValue":5.0,"position":82,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1195
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,195
train
mutant
644
30
697
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y82F
Y82F
1
1
0
0
82
Y
F
5
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
82
A
L|E
false
false
23.259251
16.395417
8,895
ProTherm
7
Fluorescence
Urea
MOPS
30 mM
25
1RN1_A:Y56F
null
null
null
0.78
null
null
null
4.65
1.26
null
null
null
null
null
null
null
yes
DDG|M|CM|REVERSIBILITY
capriotti_S1615_map.csv|capriotti_S388_map.csv|guerios_625_map.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
110
ARTICLE
Contribution of hydrogen bonding to the conformational stability of ribonuclease T1.
1,992
10.1021/bi00118a013
1731929
Biochemistry;31;725-32
4
Stanssens P|Hahn U|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER...
[{"datasets":["capriotti_S1615_map.csv","capriotti_S388_map.csv","guerios_625_map.csv","potapov_with_uniprot_mapping.csv"],"id":30148,"numValue":0.78,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":30149,"numValue":1.26,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":30150,"numValue":4...
[{"id":6529,"numValue":5.0,"position":82,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1197
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,197
train
mutant
645
30
698
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y83F
Y83F
1
1
0
0
83
Y
F
4
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
83
A
E
true
false
23.585322
14.775417
7,626
ProTherm
7
Fluorescence
Thermal
MOPS
30 mM
50.9
1RN1_A:Y57F
null
null
null
0.44
null
null
null
null
null
null
null
null
null
null
null
null
yes
DDG|REVERSIBILITY
capriotti_S1615_map.csv|khan_protherm_data_mapped.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
110
ARTICLE
Contribution of hydrogen bonding to the conformational stability of ribonuclease T1.
1,992
10.1021/bi00118a013
1731929
Biochemistry;31;725-32
4
Stanssens P|Hahn U|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":50.9,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUF...
[{"datasets":["capriotti_S1615_map.csv","khan_protherm_data_mapped.csv"],"id":26317,"numValue":0.44,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":26318,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":6530,"numValue":4.0,"position":83,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1198
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,198
train
mutant
645
30
698
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y83F
Y83F
1
1
0
0
83
Y
F
4
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
83
A
E
true
false
23.585322
14.775417
8,896
ProTherm
7
Fluorescence
Urea
MOPS
30 mM
25
1RN1_A:Y57F
null
null
null
0.5
null
null
null
4.88
1.29
null
null
null
null
null
null
null
yes
DDG|M|CM|REVERSIBILITY
capriotti_S1615_map.csv|capriotti_S388_map.csv|guerios_625_map.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
110
ARTICLE
Contribution of hydrogen bonding to the conformational stability of ribonuclease T1.
1,992
10.1021/bi00118a013
1731929
Biochemistry;31;725-32
4
Stanssens P|Hahn U|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER...
[{"datasets":["capriotti_S1615_map.csv","capriotti_S388_map.csv","guerios_625_map.csv","potapov_with_uniprot_mapping.csv"],"id":30152,"numValue":0.5,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":30153,"numValue":1.29,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":30154,"numValue":4....
[{"id":6530,"numValue":4.0,"position":83,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1200
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,200
train
mutant
641
30
694
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
E84A
E84A
1
1
0
0
84
E
A
9
ACTIVE_SITE|CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
84
A
E
true
true
12.434597
15.457222
7,760
ProTherm
7
Fluorescence
Thermal
MOPS
30 mM
48.6
1RN1_A:E58A
null
null
null
0.78
null
null
null
null
null
null
null
null
null
null
null
null
Unknown
DDG|REVERSIBILITY
capriotti_S1615_map.csv|capriotti_S388_map.csv|khan_protherm_data_mapped.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
109
ARTICLE
Conformational stability and activity of ribonuclease T1 and mutants. Gln25----Lys, Glu58----Ala, and the double mutant.
1,989
2663837
J Biol Chem;264;11621-5
4
Steyaert J|Stanssens P|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":48.6,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUF...
[{"datasets":["capriotti_S1615_map.csv","capriotti_S388_map.csv","khan_protherm_data_mapped.csv"],"id":26645,"numValue":0.78,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":26646,"numValue":null,"references":[],"strValue":"Unknown","type":"REVERSIBILITY"}]
[{"id":4,"numValue":null,"position":84,"positionArray":null,"positionRange":null,"strValue":"Proton acceptor","type":"ACTIVE_SITE"},{"id":6531,"numValue":9.0,"position":84,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1201
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,201
train
mutant
641
30
694
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
E84A
E84A
1
1
0
0
84
E
A
9
ACTIVE_SITE|CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
84
A
E
true
true
12.434597
15.457222
8,892
ProTherm
7
Fluorescence
Urea
MOPS
30 mM
25
1RN1_A:E58A
null
null
4.72
0.9
null
null
null
3.92
1.2
null
null
null
null
null
null
null
Unknown
DG|DDG|M|CM|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
109
ARTICLE
Conformational stability and activity of ribonuclease T1 and mutants. Gln25----Lys, Glu58----Ala, and the double mutant.
1,989
2663837
J Biol Chem;264;11621-5
4
Steyaert J|Stanssens P|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER...
[{"datasets":[],"id":30135,"numValue":4.72,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":30136,"numValue":0.9,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":30137,"numValue":1.2,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":30138,"numValue":3.92,"references":[],"s...
[{"id":4,"numValue":null,"position":84,"positionArray":null,"positionRange":null,"strValue":"Proton acceptor","type":"ACTIVE_SITE"},{"id":6531,"numValue":9.0,"position":84,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1202
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,202
train
mutant
641
30
694
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
E84A
E84A
1
1
0
0
84
E
A
9
ACTIVE_SITE|CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
84
A
E
true
true
12.434597
15.457222
10,521
ProTherm
6.01
Fluorescence
Urea
MES
30 mM
25
NaCl
0.2 M
1RN1_A:E58A
null
null
7.6
0.64
null
null
null
5.67
1.34
null
null
null
null
null
null
null
Unknown
DG|DDG|M|CM|REVERSIBILITY
potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
686
ARTICLE
Contribution of histidine residues to the conformational stability of ribonuclease T1 and mutant Glu-58----Ala.
1,990
10.1021/bi00485a005
1980207
Biochemistry;29;7572-6
4
Pace C N|McNutt M|Mullins L S|Raushel F M
[{"numValue":6.01,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MES","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER...
[{"datasets":[],"id":36152,"numValue":7.6,"references":[],"strValue":null,"type":"DG"},{"datasets":["potapov_with_uniprot_mapping.csv"],"id":36153,"numValue":0.64,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":36154,"numValue":1.34,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":36155...
[{"id":4,"numValue":null,"position":84,"positionArray":null,"positionRange":null,"strValue":"Proton acceptor","type":"ACTIVE_SITE"},{"id":6531,"numValue":9.0,"position":84,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1203
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,203
train
mutant
641
30
694
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
E84A
E84A
1
1
0
0
84
E
A
9
ACTIVE_SITE|CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
84
A
E
true
true
12.434597
15.457222
10,522
ProTherm
8.01
Fluorescence
Urea
HEPPSO
30 mM
25
NaCl
0.2 mM
1RN1_A:E58A
null
null
6.63
-0.71
null
null
null
4.89
1.36
null
null
null
null
null
null
null
Unknown
DG|DDG|M|CM|REVERSIBILITY
guerios_625_map.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
686
ARTICLE
Contribution of histidine residues to the conformational stability of ribonuclease T1 and mutant Glu-58----Ala.
1,990
10.1021/bi00485a005
1980207
Biochemistry;29;7572-6
4
Pace C N|McNutt M|Mullins L S|Raushel F M
[{"numValue":8.01,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"HEPPSO","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUF...
[{"datasets":[],"id":36157,"numValue":6.63,"references":[],"strValue":null,"type":"DG"},{"datasets":["guerios_625_map.csv"],"id":36158,"numValue":-0.71,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":36159,"numValue":1.36,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":36160,"numValue"...
[{"id":4,"numValue":null,"position":84,"positionArray":null,"positionRange":null,"strValue":"Proton acceptor","type":"ACTIVE_SITE"},{"id":6531,"numValue":9.0,"position":84,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1204
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,204
train
mutant
29
30
31
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
W85Y
W85Y
1
1
0
0
85
W
Y
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
85
A
E
true
false
1.494348
10.665
29
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
null
Mops
50 mM
1RN1_A:W59Y
54.3
-2.9
null
null
91.78
null
null
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DH|REVERSIBILITY
AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"20 mM, 2 mM","type":"BUFFER_CONC"},{"numValue":null,"strVal...
[{"datasets":[],"id":85,"numValue":54.3,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","Saraboji_S1791.csv"],"id":86,"numValue":-2.9,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":87,"numValue":91.78,"references":[],"strValue":null,"type":"DH"},{"datasets":[],"id":88,"...
[{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1205
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,205
train
mutant
29
30
31
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
W85Y
W85Y
1
1
0
0
85
W
Y
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
85
A
E
true
false
1.494348
10.665
2,916
ProTherm
7
Absorbance
Thermal
Sodium cacodylate
10 mM
null
1RN1_A:W59Y
53.4
-4.2
null
null
null
null
null
null
null
null
null
null
null
null
null
null
yes
TM|DTM|REVERSIBILITY
AUTOMUTE_S1962.csv|Saraboji_S2204.csv|STRUM_Q3421.csv|AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
255
ARTICLE
Impact of point mutations on the structure and thermal stability of ribonuclease T1 in aqueous solution probed by Fourier transform infrared spectroscopy.
1,994
10.1021/bi00201a021
8075073
Biochemistry;33;10725-30
7
Backmann J|Fabian H|Schultz C|Hahn U|Saenger W|Naumann D|Mantsch H H
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"Absorbance","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"Sodium cacodylate","type":"BUFFER"},{"numValue":null,"strValue":"10 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"1RN1_A:W...
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[{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1206
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,206
train
mutant
29
30
31
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
W85Y
W85Y
1
1
0
0
85
W
Y
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
85
A
E
true
false
1.494348
10.665
3,632
ProTherm
7
Absorbance
Thermal
Sodium cacodylate-D2O
100 mM
null
1RN1_A:W59Y
65
20
null
null
null
null
null
null
null
null
null
null
null
null
null
null
yes
TM|DTM|REVERSIBILITY
AUTOMUTE_S1962.csv|Saraboji_S2204.csv|STRUM_Q3421.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
341
ARTICLE
New structural insights into the refolding of ribonuclease T1 as seen by time-resolved Fourier-transform infrared spectroscopy.
1,999
10.1002/(sici)1097-0134(19990215)34:3<303::aid-prot4>3.0.co;2-h
10024018
Proteins;34;303-16
3
Fabian H|Naumann D|Reinst?dler D
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"Absorbance","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"Sodium cacodylate-D2O","type":"BUFFER"},{"numValue":null,"strValue":"100 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"1RN...
[{"datasets":["AUTOMUTE_S1962.csv","Saraboji_S2204.csv","STRUM_Q3421.csv"],"id":13344,"numValue":65.0,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1962.csv","Saraboji_S2204.csv","STRUM_Q3421.csv"],"id":13345,"numValue":20.0,"references":[],"strValue":null,"type":"DTM"},{"datasets":["AUTOMUTE_S19...
[{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1207
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,207
train
mutant
29
30
31
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
W85Y
W85Y
1
1
0
0
85
W
Y
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
85
A
E
true
false
1.494348
10.665
8,548
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_A:W59Y
null
null
null
0.93
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DDG|REVERSIBILITY
capriotti_S1615_map.csv|capriotti_S388_map.csv|khan_protherm_data_mapped.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":29010,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":["capriotti_S1615_map.csv","capriotti_S388_map.csv","khan_protherm_data_mapped.csv","potapov_with_uniprot_mapping.csv"],"id":29011,"numValue":0.93,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":29012,...
[{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1208
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,208
train
mutant
29
30
31
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
W85Y
W85Y
1
1
0
0
85
W
Y
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
85
A
E
true
false
1.494348
10.665
8,554
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_A:W59Y
null
null
6.88
null
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DG|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":29028,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":[],"id":29029,"numValue":6.88,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":29030,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1209
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,209
train
mutant
6,696
30
7,338
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
W85Y|H118A
W85Y|H118A
2
2
0
0
85
W
Y
8
ACTIVE_SITE|CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
85|118
A
E|L|S
true
true
23.837804
11.534
14,437
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
null
Mops
50 mM
1RN1_A:W59Y 1RN1_A:H92A
53.2
-4
null
null
87
null
null
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DH|REVERSIBILITY
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"20 mM, 2 mM","type":"BUFFER_CONC"},{"numValue":null,"strVal...
[{"datasets":[],"id":53378,"numValue":53.2,"references":[],"strValue":null,"type":"TM"},{"datasets":[],"id":53379,"numValue":-4.0,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":53380,"numValue":87.0,"references":[],"strValue":null,"type":"DH"},{"datasets":[],"id":53381,"numValue":null,"references":[]...
[{"id":5,"numValue":null,"position":118,"positionArray":null,"positionRange":null,"strValue":"Proton donor","type":"ACTIVE_SITE"},{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6565,"numValue":9.0,"position":118,"positionArray":null,"positi...
fireprotdb:1210
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,210
train
mutant
6,696
30
7,338
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
W85Y|H118A
W85Y|H118A
2
2
0
0
85
W
Y
8
ACTIVE_SITE|CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
85|118
A
E|L|S
true
true
23.837804
11.534
15,151
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_A:W59Y 1RN1_A:H92A
null
null
null
1.53
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DDG|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":55584,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":[],"id":55585,"numValue":1.53,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":55586,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":5,"numValue":null,"position":118,"positionArray":null,"positionRange":null,"strValue":"Proton donor","type":"ACTIVE_SITE"},{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6565,"numValue":9.0,"position":118,"positionArray":null,"positi...
fireprotdb:1211
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,211
train
mutant
6,696
30
7,338
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
W85Y|H118A
W85Y|H118A
2
2
0
0
85
W
Y
8
ACTIVE_SITE|CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
85|118
A
E|L|S
true
true
23.837804
11.534
15,156
ProTherm
6
DSC
Thermal
sodium acetate, calcium acetate
20 mM, 2 mM
25
Mops
50 mM
1RN1_A:W59Y 1RN1_A:H92A
null
null
6.26
null
null
0.98
null
null
null
null
null
null
null
null
null
null
yes
DCP|DG|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|ION|ION_CONC|_PDB_CHAIN_MUTATION
3
ARTICLE
X-ray crystallographic and calorimetric studies of the effects of the mutation Trp59-->Tyr in ribonuclease T1.
1,994
10.1111/j.1432-1033.1994.tb18652.x
8125111
Eur J Biochem;220;527-34
4
Schluckebier G|Backmann J|Granzin J|Schubert W D
[{"numValue":6.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"sodium acetate, calcium acetate","type":"BUFFER"},{"numValue":null,"strValue":"...
[{"datasets":[],"id":55599,"numValue":0.98,"references":[],"strValue":null,"type":"DCP"},{"datasets":[],"id":55600,"numValue":6.26,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":55601,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":5,"numValue":null,"position":118,"positionArray":null,"positionRange":null,"strValue":"Proton donor","type":"ACTIVE_SITE"},{"id":6532,"numValue":8.0,"position":85,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"},{"id":6565,"numValue":9.0,"position":118,"positionArray":null,"positi...
fireprotdb:1212
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,212
train
mutant
5,801
30
6,357
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
I87V
I87V
1
1
0
0
87
I
V
8
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
87
A
L|B
true
false
7.978055
10.35
12,519
ProTherm
7
Fluorescence
Urea
MOPS
30mM
25
9RNT_A:I61V
null
null
4.6
1.8
null
null
null
3.64
1.23
null
null
null
null
null
null
null
yes
2.0
DG|DDG|M|CM|STATE|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
519
ARTICLE
Contribution of hydrophobic interactions to protein stability.
2,011
10.1016/j.jmb.2011.02.053
21377472
J Mol Biol;408;514-28
11
Scholtz J Martin|Pace C Nick|Trevino Saul R|Fu Hailong|Landua John|Gajiwala Ketan|Shirley Bret A|Grimsley Gerald R|Fryar Katrina Lee|Hendricks Marsha McNutt|Iimura Satoshi
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30mM","type":"BUFFER_...
[{"datasets":[],"id":45391,"numValue":4.6,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":45392,"numValue":1.8,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":45393,"numValue":1.23,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":45394,"numValue":3.64,"references":[],"s...
[{"id":6534,"numValue":8.0,"position":87,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1214
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,214
train
mutant
649
30
702
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
S90A
S90A
1
1
0
0
90
S
A
6
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
90
A
T
false
false
85.737686
18.9225
7,630
ProTherm
7
Fluorescence
Thermal
MOPS
30 mM
50.9
1RN1_A:S64A
null
null
null
1.56
null
null
null
null
null
null
null
null
null
null
null
null
yes
DDG|REVERSIBILITY
capriotti_S1615_map.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
110
ARTICLE
Contribution of hydrogen bonding to the conformational stability of ribonuclease T1.
1,992
10.1021/bi00118a013
1731929
Biochemistry;31;725-32
4
Stanssens P|Hahn U|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":50.9,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUF...
[{"datasets":["capriotti_S1615_map.csv"],"id":26325,"numValue":1.56,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":26326,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":6537,"numValue":6.0,"position":90,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1215
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,215
train
mutant
649
30
702
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
S90A
S90A
1
1
0
0
90
S
A
6
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
90
A
T
false
false
85.737686
18.9225
8,900
ProTherm
7
Fluorescence
Urea
MOPS
30 mM
25
1RN1_A:S64A
null
null
null
1.44
null
null
null
4.11
1.38
null
null
null
null
null
null
null
yes
DDG|M|CM|REVERSIBILITY
capriotti_S1615_map.csv|capriotti_S388_map.csv|guerios_625_map.csv|khan_protherm_data_mapped.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
110
ARTICLE
Contribution of hydrogen bonding to the conformational stability of ribonuclease T1.
1,992
10.1021/bi00118a013
1731929
Biochemistry;31;725-32
4
Stanssens P|Hahn U|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER...
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fireprotdb:1216
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,216
train
mutant
646
30
699
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y94F
Y94F
1
1
0
0
94
Y
F
9
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
94
A
L
true
false
10.453242
13.1
1,063
ProTherm
7
Fluorescence
Thermal
MOPS
30 mM
null
1RN1_A:Y68F
46.9
-4
null
null
null
null
89
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DHVH|REVERSIBILITY
AUTOMUTE_S1749.csv|HotMuSiC_S1626.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
110
ARTICLE
Contribution of hydrogen bonding to the conformational stability of ribonuclease T1.
1,992
10.1021/bi00118a013
1731929
Biochemistry;31;725-32
4
Stanssens P|Hahn U|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"1RN1_A:Y68F","type"...
[{"datasets":[],"id":3972,"numValue":46.9,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","HotMuSiC_S1626.csv","Saraboji_S1791.csv"],"id":3973,"numValue":-4.0,"references":[],"strValue":null,"type":"DTM"},{"datasets":[],"id":3974,"numValue":89.0,"references":[],"strValue":null,"type":"DHV...
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fireprotdb:1217
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,217
train
mutant
646
30
699
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y94F
Y94F
1
1
0
0
94
Y
F
9
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
94
A
L
true
false
10.453242
13.1
7,627
ProTherm
7
Fluorescence
Thermal
MOPS
30 mM
50.9
1RN1_A:Y68F
null
null
null
1.35
null
null
null
null
null
null
null
null
null
null
null
null
yes
DDG|REVERSIBILITY
capriotti_S1615_map.csv|khan_protherm_data_mapped.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
110
ARTICLE
Contribution of hydrogen bonding to the conformational stability of ribonuclease T1.
1,992
10.1021/bi00118a013
1731929
Biochemistry;31;725-32
4
Stanssens P|Hahn U|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":50.9,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUF...
[{"datasets":["capriotti_S1615_map.csv","khan_protherm_data_mapped.csv"],"id":26319,"numValue":1.35,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":26320,"numValue":null,"references":[],"strValue":"yes","type":"REVERSIBILITY"}]
[{"id":6541,"numValue":9.0,"position":94,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1218
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,218
train
mutant
646
30
699
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
Y94F
Y94F
1
1
0
0
94
Y
F
9
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
94
A
L
true
false
10.453242
13.1
8,897
ProTherm
7
Fluorescence
Urea
MOPS
30 mM
25
1RN1_A:Y68F
null
null
null
1.36
null
null
null
4.17
1.32
null
null
null
null
null
null
null
yes
DDG|M|CM|REVERSIBILITY
capriotti_S1615_map.csv|capriotti_S388_map.csv|guerios_625_map.csv|potapov_with_uniprot_mapping.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
110
ARTICLE
Contribution of hydrogen bonding to the conformational stability of ribonuclease T1.
1,992
10.1021/bi00118a013
1731929
Biochemistry;31;725-32
4
Stanssens P|Hahn U|Shirley B A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER...
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[{"id":6541,"numValue":9.0,"position":94,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1220
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,220
train
mutant
4,803
30
5,344
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
P99V
P99V
1
1
0
0
99
P
V
9
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
99
A
L
false
false
29.73664
13.674286
11,283
ProTherm
8
Fluorescence
GdnHCl
PIPES
0.1 M
25
1RN1_A:P73V
null
null
null
-2.01
null
null
null
1.66
2.7
null
null
null
null
null
null
null
yes
DDG|M|CM|REVERSIBILITY
SAAFEC_S1262.csv
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
753
ARTICLE
The role of a trans-proline in the folding mechanism of ribonuclease T1.
1,996
10.1111/j.1432-1033.1996.00516.x
8917450
Eur J Biochem;241;516-24
5
Hahn U|Schindler T|Landt O|Schmid F X|Mayr L M
[{"numValue":8.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"GdnHCl","type":"METHOD"},{"numValue":null,"strValue":"PIPES","type":"BUFFER"},{"numValue":null,"strValue":"0.1 M","type":"BUF...
[{"datasets":["SAAFEC_S1262.csv"],"id":38866,"numValue":-2.01,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":38867,"numValue":2.7,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":38868,"numValue":1.66,"references":[],"strValue":null,"type":"CM"},{"datasets":[],"id":38869,"numValue":nul...
[{"id":6546,"numValue":9.0,"position":99,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1221
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,221
train
mutant
4,803
30
5,344
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
P99V
P99V
1
1
0
0
99
P
V
9
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
99
A
L
false
false
29.73664
13.674286
14,097
ProTherm
5
Fluorescence
GdnHCl
Sodium acetate
0.1 M
10
1RN1_A:P73V
null
null
null
-1.53
null
null
null
3.43
3.01
null
null
null
null
null
null
null
yes
DDG|M|CM|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
753
ARTICLE
The role of a trans-proline in the folding mechanism of ribonuclease T1.
1,996
10.1111/j.1432-1033.1996.00516.x
8917450
Eur J Biochem;241;516-24
5
Hahn U|Schindler T|Landt O|Schmid F X|Mayr L M
[{"numValue":5.0,"strValue":null,"type":"PH"},{"numValue":10.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"GdnHCl","type":"METHOD"},{"numValue":null,"strValue":"Sodium acetate","type":"BUFFER"},{"numValue":null,"strValue":"0.1 M","t...
[{"datasets":[],"id":52146,"numValue":-1.53,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":52147,"numValue":3.01,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":52148,"numValue":3.43,"references":[],"strValue":null,"type":"CM"},{"datasets":[],"id":52149,"numValue":null,"references":[]...
[{"id":6546,"numValue":9.0,"position":99,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1222
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,222
train
mutant
4,803
30
5,344
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
P99V
P99V
1
1
0
0
99
P
V
9
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
99
A
L
false
false
29.73664
13.674286
14,098
ProTherm
8
Fluorescence
GdnHCl
PIPES
0.1 M
10
1RN1_A:P73V
null
null
null
-2.44
null
null
null
2.44
3.18
null
null
null
null
null
null
null
yes
DDG|M|CM|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
753
ARTICLE
The role of a trans-proline in the folding mechanism of ribonuclease T1.
1,996
10.1111/j.1432-1033.1996.00516.x
8917450
Eur J Biochem;241;516-24
5
Hahn U|Schindler T|Landt O|Schmid F X|Mayr L M
[{"numValue":8.0,"strValue":null,"type":"PH"},{"numValue":10.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"Fluorescence","type":"MEASURE"},{"numValue":null,"strValue":"GdnHCl","type":"METHOD"},{"numValue":null,"strValue":"PIPES","type":"BUFFER"},{"numValue":null,"strValue":"0.1 M","type":"BUF...
[{"datasets":[],"id":52150,"numValue":-2.44,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":52151,"numValue":3.18,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":52152,"numValue":2.44,"references":[],"strValue":null,"type":"CM"},{"datasets":[],"id":52153,"numValue":null,"references":[]...
[{"id":6546,"numValue":9.0,"position":99,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1223
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,223
train
mutant
1,885
30
2,114
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
D102N
D102N
1
1
0
0
102
D
N
9
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
102
A
L|E
false
false
10.063041
9.579375
3,633
ProTherm
7
DSC
Thermal
MOPS
30 mM
null
1RN1_A:D76N
37
-13.8
null
null
76
null
null
null
null
null
null
null
null
null
null
null
yes
TM|DTM|DH|REVERSIBILITY
AUTOMUTE_S1962.csv|Broom_S605.csv|Saraboji_S2204.csv|STRUM_Q3421.csv|AUTOMUTE_S1749.csv|Saraboji_S1791.csv
PH|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
342
ARTICLE
Buried, charged, non-ion-paired aspartic acid 76 contributes favorably to the conformational stability of ribonuclease T1.
1,999
10.1021/bi991422s
10529213
Biochemistry;38;13379-84
2
Giletto A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Thermal","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{"numValue":null,"strValue":"1RN1_A:D76N","type":"_PDB_CH...
[{"datasets":["AUTOMUTE_S1962.csv","Broom_S605.csv","Saraboji_S2204.csv","STRUM_Q3421.csv"],"id":13347,"numValue":37.0,"references":[],"strValue":null,"type":"TM"},{"datasets":["AUTOMUTE_S1749.csv","AUTOMUTE_S1962.csv","Saraboji_S1791.csv","Saraboji_S2204.csv","STRUM_Q3421.csv"],"id":13348,"numValue":-13.8,"references"...
[{"id":6549,"numValue":9.0,"position":102,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]
fireprotdb:1224
fireprotdb
LiteFold/FireProtDB
labeled/fireprotdb/fireprotdb_search_all.jsonl
tables/labeled_fireprotdb_fireprotdb_search_all.jsonl.jsonl
79354b4f8754e21c3eb41aaf3dd63ba34ae750cd
1,224
train
mutant
1,885
30
2,114
130
130
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
2
Guanyl-specific ribonuclease T1
Aspergillus oryzae (strain ATCC 42149 / RIB 40)
1
P00651
IPR000026|IPR016191|IPR051386|IPR048269
4.6.1.24
D102N
D102N
1
1
0
0
102
D
N
9
CONSERVATION
1YGW|1RN1|9RNT
135|350|420
null
102
A
L|E
false
false
10.063041
9.579375
10,906
ProTherm
7
DSC
Urea
MOPS
30 mM
25
1RN1_A:D76N
null
null
2.58
3.51
null
null
null
1.8
1.44
null
null
null
null
null
null
null
yes
DG|DDG|M|CM|REVERSIBILITY
PH|EXP_TEMPERATURE|MEASURE|METHOD|BUFFER|BUFFER_CONC|_PDB_CHAIN_MUTATION
342
ARTICLE
Buried, charged, non-ion-paired aspartic acid 76 contributes favorably to the conformational stability of ribonuclease T1.
1,999
10.1021/bi991422s
10529213
Biochemistry;38;13379-84
2
Giletto A|Pace C N
[{"numValue":7.0,"strValue":null,"type":"PH"},{"numValue":25.0,"strValue":null,"type":"EXP_TEMPERATURE"},{"numValue":null,"strValue":"DSC","type":"MEASURE"},{"numValue":null,"strValue":"Urea","type":"METHOD"},{"numValue":null,"strValue":"MOPS","type":"BUFFER"},{"numValue":null,"strValue":"30 mM","type":"BUFFER_CONC"},{...
[{"datasets":[],"id":37560,"numValue":2.58,"references":[],"strValue":null,"type":"DG"},{"datasets":[],"id":37561,"numValue":3.51,"references":[],"strValue":null,"type":"DDG"},{"datasets":[],"id":37562,"numValue":1.44,"references":[],"strValue":null,"type":"M"},{"datasets":[],"id":37563,"numValue":1.8,"references":[],"...
[{"id":6549,"numValue":9.0,"position":102,"positionArray":null,"positionRange":null,"strValue":null,"type":"CONSERVATION"}]