Biological Process
stringlengths 7
1.01k
| Cellular Component
stringlengths 6
867
| Molecular Function
stringlengths 11
871
| Organism
stringlengths 8
73
| Keywords
stringlengths 1
810
| Sequence 10
stringlengths 5
10
| Sequence
stringlengths 5
1.02k
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stringlengths 136
3.91k
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proteolysis involved in protein catabolic process
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cytosol; nucleus; proteasome complex; proteasome core complex, beta-subunit complex
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threonine-type endopeptidase activity
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Arabidopsis thaliana
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Alternative splicing Cytoplasm Hydrolase Nucleus Protease Proteasome Reference proteome Threonine protease Zymogen
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MSQSTVDVPP
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MSQSTVDVPPKGGFSFDLCKRNDMLTQKGLKAPSFLKTGTTIVGLIFKDGVILGADTRATEGPIVADKNCEKIHYMAPNIYCCGAGTAADTEAVTDMVSSQLRLHRYQTGRDSRVITALTLLKKHLFSYQGHVSAALVLGGVDITGPHLHTIYPHGSTDTLPFATMGSGSLAAMSVFEAKYKEGLTRDEGIKLVAESICSGIFNDLGSGSNVDICVITKGNKEYLRNYMEPNPRTYVSSKGYSFTKKTEVLLTKITPLLERVEITEVGEAMEE
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proteolysis involved in protein catabolic process cytosol; nucleus; proteasome complex; proteasome core complex, beta-subunit complex threonine-type endopeptidase activity Arabidopsis thaliana Alternative splicing Cytoplasm Hydrolase Nucleus Protease Proteasome Reference proteome Threonine protease Zymogen MSQSTVDVPP MSQSTVDVPPKGGFSFDLCKRNDMLTQKGLKAPSFLKTGTTIVGLIFKDGVILGADTRATEGPIVADKNCEKIHYMAPNIYCCGAGTAADTEAVTDMVSSQLRLHRYQTGRDSRVITALTLLKKHLFSYQGHVSAALVLGGVDITGPHLHTIYPHGSTDTLPFATMGSGSLAAMSVFEAKYKEGLTRDEGIKLVAESICSGIFNDLGSGSNVDICVITKGNKEYLRNYMEPNPRTYVSSKGYSFTKKTEVLLTKITPLLERVEITEVGEAMEE
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isopentenyl diphosphate biosynthetic process, mevalonate pathway sterol biosynthetic process
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cytosol; peroxisome
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ATP binding diphosphomevalonate decarboxylase activity identical protein binding
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Arabidopsis thaliana
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3D-structure ATP-binding Lipid biosynthesis Lipid metabolism Lyase Nucleotide-binding Peroxisome Reference proteome Steroid biosynthesis Steroid metabolism Sterol biosynthesis Sterol metabolism
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MAEEKWVVMV
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MAEEKWVVMVTAQTPTNIAVIKYWGKRDEVRILPINDSISVTLDPDHLCTLTTVAVSPSFDRDRMWLNGKEISLSGSRYQNCLREIRSRADDVEDKEKGIKIAKKDWEKLHLHIASHNNFPTAAGLASSAAGFACLVFALAKLMNVNEDPSQLSAIARQGSGSACRSLFGGFVKWNMGNKEDGSDSVAVQLVDDKHWDDLVIIIAVVSSRQKETSSTSGMRESVETSLLLQHRAKEVVPVRILQMEEAIKNRDFTSFTKLTCSDSNQFHAVCMDTSPPIFYMNDTSHRIISLVEKWNRSAGTPEIAYTFDAGPNAVMIARNRKVAVELLQGLLYCFPPKPDTDMKSYVLGDTSIVKEAGLEGELPQGIKDKIGSQDQKGEVSYFICSRPGRGPVVLQDQTQALLHPQTGLPK
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isopentenyl diphosphate biosynthetic process, mevalonate pathway sterol biosynthetic process cytosol; peroxisome ATP binding diphosphomevalonate decarboxylase activity identical protein binding Arabidopsis thaliana 3D-structure ATP-binding Lipid biosynthesis Lipid metabolism Lyase Nucleotide-binding Peroxisome Reference proteome Steroid biosynthesis Steroid metabolism Sterol biosynthesis Sterol metabolism MAEEKWVVMV MAEEKWVVMVTAQTPTNIAVIKYWGKRDEVRILPINDSISVTLDPDHLCTLTTVAVSPSFDRDRMWLNGKEISLSGSRYQNCLREIRSRADDVEDKEKGIKIAKKDWEKLHLHIASHNNFPTAAGLASSAAGFACLVFALAKLMNVNEDPSQLSAIARQGSGSACRSLFGGFVKWNMGNKEDGSDSVAVQLVDDKHWDDLVIIIAVVSSRQKETSSTSGMRESVETSLLLQHRAKEVVPVRILQMEEAIKNRDFTSFTKLTCSDSNQFHAVCMDTSPPIFYMNDTSHRIISLVEKWNRSAGTPEIAYTFDAGPNAVMIARNRKVAVELLQGLLYCFPPKPDTDMKSYVLGDTSIVKEAGLEGELPQGIKDKIGSQDQKGEVSYFICSRPGRGPVVLQDQTQALLHPQTGLPK
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cellular modified amino acid biosynthetic process glutathione biosynthetic process oxoacid metabolic process
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chloroplast
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ATP binding glutamate-cysteine ligase activity
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Brassica juncea
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3D-structure ATP-binding Chloroplast Disulfide bond Glutathione biosynthesis Ligase Nucleotide-binding Plastid Transit peptide
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MALLSQAGGA
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MALLSQAGGAYTVPSGHVSSRTGTKTVSGCVNVLRMKETYVSSYSRTLSTKSMLKRSKRGHQLIVAASPPTEEAVVATEPLTREDLIAYLASGCKSKEKWRIGTEHEKFGFEVNTLRPMKYDQIAELLNSIAERFEWEKVMEGDKIIGLKQGKQSISLEPGGQFELSGAPLETLHQTCAEVNSHLYQVKAVAEEMGIGFLGMGFQPKWRREDIPTMPKGRYDIMRNYMPKVGSLGLDMMLRTCTVQVNLDFSSEADMIRKFRAGLALQPIATALFANSPFTEGKPNGFLSMRSHIWTDTDKDRTGMLPFVFDDSFGFEQYVDYALDVPMYFAYRNGKYVDCTGMTFRQFLAGKLPCLPGELPTYNDWENHLTTIFPEVRLKRYMEMRGADGGPWRRLCALPAFWVGLLYDEDVLQSVLDLTADWTPAEREMLRNKVPVTGLKTPFRDGLLKHVAEDVLKLAKDGLERRGYKEVGFLNAVTEVVRTGVTPAENLLEMYNGEWGQSVDPVFQELLY
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cellular modified amino acid biosynthetic process glutathione biosynthetic process oxoacid metabolic process chloroplast ATP binding glutamate-cysteine ligase activity Brassica juncea 3D-structure ATP-binding Chloroplast Disulfide bond Glutathione biosynthesis Ligase Nucleotide-binding Plastid Transit peptide MALLSQAGGA MALLSQAGGAYTVPSGHVSSRTGTKTVSGCVNVLRMKETYVSSYSRTLSTKSMLKRSKRGHQLIVAASPPTEEAVVATEPLTREDLIAYLASGCKSKEKWRIGTEHEKFGFEVNTLRPMKYDQIAELLNSIAERFEWEKVMEGDKIIGLKQGKQSISLEPGGQFELSGAPLETLHQTCAEVNSHLYQVKAVAEEMGIGFLGMGFQPKWRREDIPTMPKGRYDIMRNYMPKVGSLGLDMMLRTCTVQVNLDFSSEADMIRKFRAGLALQPIATALFANSPFTEGKPNGFLSMRSHIWTDTDKDRTGMLPFVFDDSFGFEQYVDYALDVPMYFAYRNGKYVDCTGMTFRQFLAGKLPCLPGELPTYNDWENHLTTIFPEVRLKRYMEMRGADGGPWRRLCALPAFWVGLLYDEDVLQSVLDLTADWTPAEREMLRNKVPVTGLKTPFRDGLLKHVAEDVLKLAKDGLERRGYKEVGFLNAVTEVVRTGVTPAENLLEMYNGEWGQSVDPVFQELLY
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negative regulation of DNA-templated transcription plastid chromosome packaging response to cold sulfate assimilation sulfide oxidation, using siroheme sulfite reductase
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chloroplast nucleoid; chloroplast stroma; stromule; sulfite reductase complex (NADPH)
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4 iron, 4 sulfur cluster binding DNA binding double-stranded DNA binding heme binding metal ion binding sulfite reductase (ferredoxin) activity sulfite reductase activity
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Zea mays
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3D-structure 4Fe-4S Chloroplast DNA-binding Heme Iron Iron-sulfur Metal-binding Oxidoreductase Plastid Reference proteome Thioether bond Transit peptide
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MSGAIGGAEV
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MSGAIGGAEVHGFRGAAAQLPRSRVLGRPIRVAPPAAARPGGASAGSIRAVSAPAKKDASEVKRSKVEIIKEKSNFLRYPLNEELVSEAPNINESAVQLIKFHGSYQQTDRDVRGQKNYSFMLRTKNPCGKVPNQLYLAMDTLADEFGIGTLRLTTRQTFQLHGVLKKNLKTVLSTVIKNMGSTLGACGDLNRNVLAPAAPYVKKDILFAQQTAENIAALLTPQSGAYYDLWVDGEKIMSAEEPPEVTKARNDNSHGTNFPDSPEPIYGTQYLPRKFKVAVTAAGDNSVDILTNDIGVVVVSDDAGEPIGFNIYVGGGMGRTHRVETTFPRLADPLGYVPKEDILYAIKAIVVTQRENGRRDDRKYSRMKYMIDRWGIDRFRAEVEKYYGKKFESFRPLPEWQFNSYLGWQEQGDGKLFYGVHVDNGRVGGQAKKTLREIIEKYNLDVSITPNQNLILCGIDQAWREPITTALAQAGLLEPKDVDPLNLTAMACPALPLCPLAQTEAERGILPILKRIRAVFNKVGIKDSESVVVRITGCPNGCARPYMAELGFVGDGPKSYQIWLGGTPNQSTLAESFMDKVKLDDIEKVLEPLFTYWNGTRQEGESFGSFTNRTGFDKLKEVVNKWAESPSAA
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negative regulation of DNA-templated transcription plastid chromosome packaging response to cold sulfate assimilation sulfide oxidation, using siroheme sulfite reductase chloroplast nucleoid; chloroplast stroma; stromule; sulfite reductase complex (NADPH) 4 iron, 4 sulfur cluster binding DNA binding double-stranded DNA binding heme binding metal ion binding sulfite reductase (ferredoxin) activity sulfite reductase activity Zea mays 3D-structure 4Fe-4S Chloroplast DNA-binding Heme Iron Iron-sulfur Metal-binding Oxidoreductase Plastid Reference proteome Thioether bond Transit peptide MSGAIGGAEV MSGAIGGAEVHGFRGAAAQLPRSRVLGRPIRVAPPAAARPGGASAGSIRAVSAPAKKDASEVKRSKVEIIKEKSNFLRYPLNEELVSEAPNINESAVQLIKFHGSYQQTDRDVRGQKNYSFMLRTKNPCGKVPNQLYLAMDTLADEFGIGTLRLTTRQTFQLHGVLKKNLKTVLSTVIKNMGSTLGACGDLNRNVLAPAAPYVKKDILFAQQTAENIAALLTPQSGAYYDLWVDGEKIMSAEEPPEVTKARNDNSHGTNFPDSPEPIYGTQYLPRKFKVAVTAAGDNSVDILTNDIGVVVVSDDAGEPIGFNIYVGGGMGRTHRVETTFPRLADPLGYVPKEDILYAIKAIVVTQRENGRRDDRKYSRMKYMIDRWGIDRFRAEVEKYYGKKFESFRPLPEWQFNSYLGWQEQGDGKLFYGVHVDNGRVGGQAKKTLREIIEKYNLDVSITPNQNLILCGIDQAWREPITTALAQAGLLEPKDVDPLNLTAMACPALPLCPLAQTEAERGILPILKRIRAVFNKVGIKDSESVVVRITGCPNGCARPYMAELGFVGDGPKSYQIWLGGTPNQSTLAESFMDKVKLDDIEKVLEPLFTYWNGTRQEGESFGSFTNRTGFDKLKEVVNKWAESPSAA
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abscisic acid biosynthetic process abscisic acid-activated signaling pathway anther development beta-carotene biosynthetic process carotene catabolic process fruit ripening lycopene biosynthetic process pollen development pollination response to abscisic acid response to auxin response to gibberellin response to salicylic acid response to salt stress response to water deprivation xanthophyll biosynthetic process
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chloroplast stroma
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9-cis-epoxycarotenoid dioxygenase activity carotenoid dioxygenase activity metal ion binding
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Solanum lycopersicum
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Abscisic acid biosynthesis Abscisic acid signaling pathway Chloroplast Developmental protein Dioxygenase Fruit ripening Iron Metal-binding Oxidoreductase Plastid Reference proteome Transit peptide
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MATTTSHATN
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MATTTSHATNTWIKTKLSMPSSKEFGFASNSISLLKNQHNRQSLNINSSLQAPPILHFPKQSSNYQTPKNNTISHPKQENNNSSSSSTSKWNLVQKAAAMALDAVESALTKHELEHPLPKTADPRVQISGNFAPVPENPVCQSLPVTGKIPKCVQGVYVRNGANPLFEPTAGHHFFDGDGMVHAVQFKNGSASYACRFTETERLVQEKALGRPVFPKAIGELHGHSGIARLMLFYARGLFGLVDHSKGTGVANAGLVYFNNRLLAMSEDDLPYHVKVTPTGDLKTEGRFDFDGQLKSTMIAHPKLDPVSGELFALSYDVIQKPYLKYFRFSKNGEKSNDVEIPVEDPTMMHDFAITENFVVIPDQQVVFKMSEMIRGGSPVVYDKNKVSRFGILDKYAKDGSDLKWVEVPDCFCFHLWNAWEEAETDEIVVIGSCMTPPDSIFNECDEGLKSVLSEIRLNLKTGKSTRKSIIENPDEQVNLEAGMVNRNKLGRKTEYAYLAIAEPWPKVSGFAKVNLFTGEVEKFIYGDNKYGGEPLFLPRDPNSKEEDDGYILAFVHDEKEWKSELQIVNAMSLKLEATVKLPSRVPYGFHGTFINANDLANQA
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abscisic acid biosynthetic process abscisic acid-activated signaling pathway anther development beta-carotene biosynthetic process carotene catabolic process fruit ripening lycopene biosynthetic process pollen development pollination response to abscisic acid response to auxin response to gibberellin response to salicylic acid response to salt stress response to water deprivation xanthophyll biosynthetic process chloroplast stroma 9-cis-epoxycarotenoid dioxygenase activity carotenoid dioxygenase activity metal ion binding Solanum lycopersicum Abscisic acid biosynthesis Abscisic acid signaling pathway Chloroplast Developmental protein Dioxygenase Fruit ripening Iron Metal-binding Oxidoreductase Plastid Reference proteome Transit peptide MATTTSHATN MATTTSHATNTWIKTKLSMPSSKEFGFASNSISLLKNQHNRQSLNINSSLQAPPILHFPKQSSNYQTPKNNTISHPKQENNNSSSSSTSKWNLVQKAAAMALDAVESALTKHELEHPLPKTADPRVQISGNFAPVPENPVCQSLPVTGKIPKCVQGVYVRNGANPLFEPTAGHHFFDGDGMVHAVQFKNGSASYACRFTETERLVQEKALGRPVFPKAIGELHGHSGIARLMLFYARGLFGLVDHSKGTGVANAGLVYFNNRLLAMSEDDLPYHVKVTPTGDLKTEGRFDFDGQLKSTMIAHPKLDPVSGELFALSYDVIQKPYLKYFRFSKNGEKSNDVEIPVEDPTMMHDFAITENFVVIPDQQVVFKMSEMIRGGSPVVYDKNKVSRFGILDKYAKDGSDLKWVEVPDCFCFHLWNAWEEAETDEIVVIGSCMTPPDSIFNECDEGLKSVLSEIRLNLKTGKSTRKSIIENPDEQVNLEAGMVNRNKLGRKTEYAYLAIAEPWPKVSGFAKVNLFTGEVEKFIYGDNKYGGEPLFLPRDPNSKEEDDGYILAFVHDEKEWKSELQIVNAMSLKLEATVKLPSRVPYGFHGTFINANDLANQA
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heme biosynthetic process protoporphyrinogen IX biosynthetic process
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mitochondrion
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oxygen-dependent protoporphyrinogen oxidase activity
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Nicotiana tabacum
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3D-structure FAD Flavoprotein Heme biosynthesis Mitochondrion Oxidoreductase Porphyrin biosynthesis Reference proteome
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MAPSAGEDKH
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MAPSAGEDKHSSAKRVAVIGAGVSGLAAAYKLKIHGLNVTVFEAEGKAGGKLRSVSQDGLIWDEGANTMTESEGDVTFLIDSLGLREKQQFPLSQNKRYIARNGTPVLLPSNPIDLIKSNFLSTGSKLQMLLEPILWKNKKLSQVSDSHESVSGFFQRHFGKEVVDYLIDPFVAGTCGGDPDSLSMHHSFPELWNLEKRFGSVILGAIRSKLSPKNEKKQGPPKTSANKKRQRGSFSFLGGMQTLTDAICKDLREDELRLNSRVLELSCSCTEDSAIDSWSIISASPHKRQSEEESFDAVIMTAPLCDVKSMKIAKRGNPFLLNFIPEVDYVPLSVVITTFKRENVKYPLEGFGVLVPSKEQQHGLKTLGTLFSSMMFPDRAPNNVYLYTTFVGGSRNRELAKASRTELKEIVTSDLKQLLGAEGEPTYVNHLYWSKAFPLYGHNYDSVLDAIDKMEKNLPGLFYAGNHRGGLSVGKALSSGCNAADLVISYLESVSTDSKRHC
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heme biosynthetic process protoporphyrinogen IX biosynthetic process mitochondrion oxygen-dependent protoporphyrinogen oxidase activity Nicotiana tabacum 3D-structure FAD Flavoprotein Heme biosynthesis Mitochondrion Oxidoreductase Porphyrin biosynthesis Reference proteome MAPSAGEDKH MAPSAGEDKHSSAKRVAVIGAGVSGLAAAYKLKIHGLNVTVFEAEGKAGGKLRSVSQDGLIWDEGANTMTESEGDVTFLIDSLGLREKQQFPLSQNKRYIARNGTPVLLPSNPIDLIKSNFLSTGSKLQMLLEPILWKNKKLSQVSDSHESVSGFFQRHFGKEVVDYLIDPFVAGTCGGDPDSLSMHHSFPELWNLEKRFGSVILGAIRSKLSPKNEKKQGPPKTSANKKRQRGSFSFLGGMQTLTDAICKDLREDELRLNSRVLELSCSCTEDSAIDSWSIISASPHKRQSEEESFDAVIMTAPLCDVKSMKIAKRGNPFLLNFIPEVDYVPLSVVITTFKRENVKYPLEGFGVLVPSKEQQHGLKTLGTLFSSMMFPDRAPNNVYLYTTFVGGSRNRELAKASRTELKEIVTSDLKQLLGAEGEPTYVNHLYWSKAFPLYGHNYDSVLDAIDKMEKNLPGLFYAGNHRGGLSVGKALSSGCNAADLVISYLESVSTDSKRHC
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cellular response to anoxia glycine betaine biosynthetic process from choline
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peroxisome
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betaine-aldehyde dehydrogenase activity
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Oryza sativa subsp. japonica
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NAD Oxidoreductase Peroxisome Reference proteome
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MAAPSAIPRR
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MAAPSAIPRRGLFIGGGWREPSLGRRLPVVNPATEATIGDIPAATAEDVELAVSAARDAFGRDGGRHWSRAPGAVRAKYLKAIAAKIKDKKSYLALLETLDSGKPLDEAAGDMEDVAACFEYYADLAEALDGKQRAPISLPMENFESYVLKEPIGVVGLITPWNYPLLMATWKVAPALAAGCTAVLKPSELASLTCLELGGICAEIGLPPGVLNIITGLGTEAGAPLASHPHVDKIAFTGSTETGKRIMITASQMVKPVSLELGGKSPLIVFDDVDIDKAVEWAMFGCFANAGQVCSATSRLLLHEKIAKRFLDRLVAWAKSIKISDPLEEGCRLGSVVSEGQYQKIMKFISTARCEGATILYGGARPQHLKRGFFIEPTIITNVSTSMQIWREEVFGPVICVKEFRTEREAVELANDTHYGLAGAVISNDLERCERISKAIQSGIVWINCSQPCFVQAPWGGNKRSGFGRELGQWGLDNYLSVKQVTKYCSDEPYGWYRPPSKL
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cellular response to anoxia glycine betaine biosynthetic process from choline peroxisome betaine-aldehyde dehydrogenase activity Oryza sativa subsp. japonica NAD Oxidoreductase Peroxisome Reference proteome MAAPSAIPRR MAAPSAIPRRGLFIGGGWREPSLGRRLPVVNPATEATIGDIPAATAEDVELAVSAARDAFGRDGGRHWSRAPGAVRAKYLKAIAAKIKDKKSYLALLETLDSGKPLDEAAGDMEDVAACFEYYADLAEALDGKQRAPISLPMENFESYVLKEPIGVVGLITPWNYPLLMATWKVAPALAAGCTAVLKPSELASLTCLELGGICAEIGLPPGVLNIITGLGTEAGAPLASHPHVDKIAFTGSTETGKRIMITASQMVKPVSLELGGKSPLIVFDDVDIDKAVEWAMFGCFANAGQVCSATSRLLLHEKIAKRFLDRLVAWAKSIKISDPLEEGCRLGSVVSEGQYQKIMKFISTARCEGATILYGGARPQHLKRGFFIEPTIITNVSTSMQIWREEVFGPVICVKEFRTEREAVELANDTHYGLAGAVISNDLERCERISKAIQSGIVWINCSQPCFVQAPWGGNKRSGFGRELGQWGLDNYLSVKQVTKYCSDEPYGWYRPPSKL
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fatty acid biosynthetic process green leaf volatile biosynthetic process lipid oxidation oxylipin biosynthetic process
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chloroplast stroma; chloroplast thylakoid
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linoleate 13S-lipoxygenase activity metal ion binding oxidoreductase activity, acting on single donors with incorporation of molecular oxygen, incorporation of two atoms of oxygen
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Solanum tuberosum
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Chloroplast Dioxygenase Fatty acid biosynthesis Fatty acid metabolism Iron Lipid biosynthesis Lipid metabolism Metal-binding Oxidoreductase Oxylipin biosynthesis Plastid Reference proteome Thylakoid Transit peptide
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MLKPQLQQSS
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MLKPQLQQSSQSTKALIPSWNTNPLFLASFPINILNKNFRLKKKNNFRVHHNYNGASTTKAVLSSTEKATGVKAVVTVQKQVNLNLSRGLDDIGDLLGKSLLLWIVAAELDHKTGIEKPGIRAYAHRGRDVDGDTHYEADFVIPQDFGEVGAILIENEHHKEMYVKNIVIDGFVHGKVEITCNSWVHSKFDNPDKRIFFTNKSYLPSQTPSGVSRLREEELVTLRGDGIGERKVFERIYDYDVYNDLGEADSNNDDAKRPVLGGKELPYPRRCKTGRPRSKKDPLSETRSTFVYVPRDEAFSEVKSVAFSGNTVYSVLHAVVPALESVVTDPNLGFPHFPAIDSLFNVGVDLPGLGDKKSGLFNVVPRLIKAISDTRKDVLLFESPQLVQRDKFSWFRDVEFARQTLAGLNPYSIRLVTEWPLRSKLDPKVYGPPESEITKELIEKEIGNYMTVEQAVQQKKLFILDYHDLLLPYVNKVNELKGSMLYGSRTIFFLTPQGTLKPLAIELTRPPVDDKPQWKEVYSPNDWNATGAWLWKLAKAHVLSHDSGYHQLVSHWLRTHCCTEPYIIASNRQLSAMHPIYRLLHPHFRYTMEINALAREALINANGVIESSFFPGKYAIELSSIAYGAEWRFDQEALPQNLISRGLAVEDPNEPHGLKLAIEDYPFANDGLVLWDILKQWVTNYVNHYYPQTNLIESDKELQAWWSEIKNVGHGDKRDEPWWPELKTPNDLIGIITTIVWVTSGHHAAVNFGQYSYAGYFPNRPTVARSKMPTEDPTAEEWEWFMNKPEEALLRCFPSQIQATKVMAILDVLSNHSPDEEYIGEKIEPYWAEDPVINAAFEVFSGKLKELEGIIDARNNDSKLSNRNGAGVMPYELLKPYSEPGVTGKGVPYSISI
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fatty acid biosynthetic process green leaf volatile biosynthetic process lipid oxidation oxylipin biosynthetic process chloroplast stroma; chloroplast thylakoid linoleate 13S-lipoxygenase activity metal ion binding oxidoreductase activity, acting on single donors with incorporation of molecular oxygen, incorporation of two atoms of oxygen Solanum tuberosum Chloroplast Dioxygenase Fatty acid biosynthesis Fatty acid metabolism Iron Lipid biosynthesis Lipid metabolism Metal-binding Oxidoreductase Oxylipin biosynthesis Plastid Reference proteome Thylakoid Transit peptide MLKPQLQQSS MLKPQLQQSSQSTKALIPSWNTNPLFLASFPINILNKNFRLKKKNNFRVHHNYNGASTTKAVLSSTEKATGVKAVVTVQKQVNLNLSRGLDDIGDLLGKSLLLWIVAAELDHKTGIEKPGIRAYAHRGRDVDGDTHYEADFVIPQDFGEVGAILIENEHHKEMYVKNIVIDGFVHGKVEITCNSWVHSKFDNPDKRIFFTNKSYLPSQTPSGVSRLREEELVTLRGDGIGERKVFERIYDYDVYNDLGEADSNNDDAKRPVLGGKELPYPRRCKTGRPRSKKDPLSETRSTFVYVPRDEAFSEVKSVAFSGNTVYSVLHAVVPALESVVTDPNLGFPHFPAIDSLFNVGVDLPGLGDKKSGLFNVVPRLIKAISDTRKDVLLFESPQLVQRDKFSWFRDVEFARQTLAGLNPYSIRLVTEWPLRSKLDPKVYGPPESEITKELIEKEIGNYMTVEQAVQQKKLFILDYHDLLLPYVNKVNELKGSMLYGSRTIFFLTPQGTLKPLAIELTRPPVDDKPQWKEVYSPNDWNATGAWLWKLAKAHVLSHDSGYHQLVSHWLRTHCCTEPYIIASNRQLSAMHPIYRLLHPHFRYTMEINALAREALINANGVIESSFFPGKYAIELSSIAYGAEWRFDQEALPQNLISRGLAVEDPNEPHGLKLAIEDYPFANDGLVLWDILKQWVTNYVNHYYPQTNLIESDKELQAWWSEIKNVGHGDKRDEPWWPELKTPNDLIGIITTIVWVTSGHHAAVNFGQYSYAGYFPNRPTVARSKMPTEDPTAEEWEWFMNKPEEALLRCFPSQIQATKVMAILDVLSNHSPDEEYIGEKIEPYWAEDPVINAAFEVFSGKLKELEGIIDARNNDSKLSNRNGAGVMPYELLKPYSEPGVTGKGVPYSISI
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fatty acid biosynthetic process lipid oxidation oxylipin biosynthetic process
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chloroplast stroma; chloroplast thylakoid
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linoleate 13S-lipoxygenase activity metal ion binding oxidoreductase activity, acting on single donors with incorporation of molecular oxygen, incorporation of two atoms of oxygen
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Solanum tuberosum
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Chloroplast Dioxygenase Fatty acid biosynthesis Fatty acid metabolism Iron Lipid biosynthesis Lipid metabolism Metal-binding Oxidoreductase Oxylipin biosynthesis Plastid Reference proteome Thylakoid Transit peptide
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MALAKEIMGI
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MALAKEIMGISLLEKSSSFMNSSSMALFNPNNYHKENHLWFNQQFQGRRNLSRRKAFRQSTMAAISENLIKVVPEKAVRFKVRAVVTVRNKNKEDLKETIVKHLDAFTDKIGRNVTLELISTDMDPNTKGPKKSNQAVLKDWSKKSNLKTERVNYTAEFIVDSNFGNPGAITVTNKHQQEFFLESITIEGFACGPVHFPCNSWVQPKKDHPGKRIFFSNQPYLPDETPAGLKSLRERELRDLRGDGKGVRKLSDRIYDYDIYNDLGNPDKGIDFARPKLGGDDNVPYPRRCRSGRVPTDTDISAESRVEKPNPTYVPRDEQFEESKMNTFSTSRLKAVLHNLIPSLMASISSNNHDFKGFSDIDNLYSKGLLLKLGLQDEVLKKLPLPKVVSSIKEGDLLKYDTPKILSKDKFAWLRDDEFARQAIAGVNPVSIEKLQFFPPVSKLDPEIYGPQESALKEEHILGHLNGMTVQEALDANKLFIVDHHDVYLPFLDRINALDGRKAYATRTIFFLSDVGTLKPIAIELSLPQTGPSSRSKRVVTPPVCATGNWTWQIAKAHVCANDAGVHQLVNHWLRTHASLEPFILAAHRQLSAMHPIYKLLDPHMRYTLEINGLARQSLINADGVIEACFTPGRYCMEISAAAYKNWRFDLEGLPADLIRRGMAVPDSTQPHGLKLLIEDYPYAADGLMIWGAIESWVRDYVNHYYPSSAQVCSDRELQAWYAETINVGHVDLRNEEWWPTLATPEDLISILTTLIWLASAQHAALNFGQYPYGGYVPNRPPLMRRLIPDENDPEYAVFLADPQKYFFSALPSLLQATKFMAVVDTLSTHSPDEEYLGERHQPSTWTGDAEIVEAFYKFSAEIGRIEKEIDERNANTKLKNRCGAGVLPYELLAPSSGPGVTCRGVPNSVSI
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fatty acid biosynthetic process lipid oxidation oxylipin biosynthetic process chloroplast stroma; chloroplast thylakoid linoleate 13S-lipoxygenase activity metal ion binding oxidoreductase activity, acting on single donors with incorporation of molecular oxygen, incorporation of two atoms of oxygen Solanum tuberosum Chloroplast Dioxygenase Fatty acid biosynthesis Fatty acid metabolism Iron Lipid biosynthesis Lipid metabolism Metal-binding Oxidoreductase Oxylipin biosynthesis Plastid Reference proteome Thylakoid Transit peptide MALAKEIMGI MALAKEIMGISLLEKSSSFMNSSSMALFNPNNYHKENHLWFNQQFQGRRNLSRRKAFRQSTMAAISENLIKVVPEKAVRFKVRAVVTVRNKNKEDLKETIVKHLDAFTDKIGRNVTLELISTDMDPNTKGPKKSNQAVLKDWSKKSNLKTERVNYTAEFIVDSNFGNPGAITVTNKHQQEFFLESITIEGFACGPVHFPCNSWVQPKKDHPGKRIFFSNQPYLPDETPAGLKSLRERELRDLRGDGKGVRKLSDRIYDYDIYNDLGNPDKGIDFARPKLGGDDNVPYPRRCRSGRVPTDTDISAESRVEKPNPTYVPRDEQFEESKMNTFSTSRLKAVLHNLIPSLMASISSNNHDFKGFSDIDNLYSKGLLLKLGLQDEVLKKLPLPKVVSSIKEGDLLKYDTPKILSKDKFAWLRDDEFARQAIAGVNPVSIEKLQFFPPVSKLDPEIYGPQESALKEEHILGHLNGMTVQEALDANKLFIVDHHDVYLPFLDRINALDGRKAYATRTIFFLSDVGTLKPIAIELSLPQTGPSSRSKRVVTPPVCATGNWTWQIAKAHVCANDAGVHQLVNHWLRTHASLEPFILAAHRQLSAMHPIYKLLDPHMRYTLEINGLARQSLINADGVIEACFTPGRYCMEISAAAYKNWRFDLEGLPADLIRRGMAVPDSTQPHGLKLLIEDYPYAADGLMIWGAIESWVRDYVNHYYPSSAQVCSDRELQAWYAETINVGHVDLRNEEWWPTLATPEDLISILTTLIWLASAQHAALNFGQYPYGGYVPNRPPLMRRLIPDENDPEYAVFLADPQKYFFSALPSLLQATKFMAVVDTLSTHSPDEEYLGERHQPSTWTGDAEIVEAFYKFSAEIGRIEKEIDERNANTKLKNRCGAGVLPYELLAPSSGPGVTCRGVPNSVSI
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fatty acid biosynthetic process lipid oxidation oxylipin biosynthetic process
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cytoplasm
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linoleate 13S-lipoxygenase activity linoleate 9S-lipoxygenase activity metal ion binding oxidoreductase activity, acting on single donors with incorporation of molecular oxygen, incorporation of two atoms of oxygen
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Solanum tuberosum
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Cytoplasm Dioxygenase Fatty acid biosynthesis Fatty acid metabolism Iron Lipid biosynthesis Lipid metabolism Metal-binding Oxidoreductase Oxylipin biosynthesis Reference proteome
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MIGQITSGLF
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MIGQITSGLFGGPDDSKKLKGTVVMMNKNALDFTDLAGSLTDKAFEFLGQTVSFQLISSVQGDPTNGLQGKHSNPAYLENSLFTLTPLTAGSETAFGVTFDWNEEFGVPGAFIIKNTHINEFFLKSLTLEDVPNHGKVHFVCNSWVYPSFRYKSDRIFFVNQPYLPSKTPELLRKYRENELLTLRGDGTGKREAWDRIYDYDIYNDLGNPDEGKENVRTTLGGSAEYPYPRRGRTGRPPTRTDPKSESRIPLILSLDIYVPRDERFGHLKMSDFLTYALKSIVQFILPELHALFDGTPNEFDSFEDVLRLYEGGIKLPQGPLFKALTAAIPLEMIRELLRTDGEGILRFPTPLVIKDSKTAWRTDEEFAREMLAGVNPVIISRLQEFPPKSKLDPEAYGNQNSTITAEHIEDKLDGLTVDEAMNNNKLFILNHHDVLIPYLRRINTTTTKTYASRTLLFLQDNGSLKPLAIELSLPHPDGDQFGVTSKVYTPSDQGVESSIWQLAKAYVAVNDSGVHQLISHWLNTHAVIEPFVIATNRQLSVLHPIHKLLYPHFRDTMNINAMARQILINAGGVLESTVFQSKFAMEMSAVVYKDWVFPDQALPADLVKRGVAVEDSSSPHGVRLLIEDYPYAVDGLEIWSAIKSWVSDYCSFYYGSDEEILKDNELQAWWKELREVGHGDKKNEPWWPEMERPQELIDSCTTIIWIASALHAAVNFGQYPYAGYLPNRPTVSRRFMPEPGTPEYEELKKNPDKAFLKTITAQLQTLLGVSLIEILSRHTTDEIYLGQRESPEWTKDKEPLAAFDKFGKKLTDIEKQIIQRNGDNILTNRSGPVNAPYTLLFPTSEGGLTGKGIPNSVSI
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fatty acid biosynthetic process lipid oxidation oxylipin biosynthetic process cytoplasm linoleate 13S-lipoxygenase activity linoleate 9S-lipoxygenase activity metal ion binding oxidoreductase activity, acting on single donors with incorporation of molecular oxygen, incorporation of two atoms of oxygen Solanum tuberosum Cytoplasm Dioxygenase Fatty acid biosynthesis Fatty acid metabolism Iron Lipid biosynthesis Lipid metabolism Metal-binding Oxidoreductase Oxylipin biosynthesis Reference proteome MIGQITSGLF MIGQITSGLFGGPDDSKKLKGTVVMMNKNALDFTDLAGSLTDKAFEFLGQTVSFQLISSVQGDPTNGLQGKHSNPAYLENSLFTLTPLTAGSETAFGVTFDWNEEFGVPGAFIIKNTHINEFFLKSLTLEDVPNHGKVHFVCNSWVYPSFRYKSDRIFFVNQPYLPSKTPELLRKYRENELLTLRGDGTGKREAWDRIYDYDIYNDLGNPDEGKENVRTTLGGSAEYPYPRRGRTGRPPTRTDPKSESRIPLILSLDIYVPRDERFGHLKMSDFLTYALKSIVQFILPELHALFDGTPNEFDSFEDVLRLYEGGIKLPQGPLFKALTAAIPLEMIRELLRTDGEGILRFPTPLVIKDSKTAWRTDEEFAREMLAGVNPVIISRLQEFPPKSKLDPEAYGNQNSTITAEHIEDKLDGLTVDEAMNNNKLFILNHHDVLIPYLRRINTTTTKTYASRTLLFLQDNGSLKPLAIELSLPHPDGDQFGVTSKVYTPSDQGVESSIWQLAKAYVAVNDSGVHQLISHWLNTHAVIEPFVIATNRQLSVLHPIHKLLYPHFRDTMNINAMARQILINAGGVLESTVFQSKFAMEMSAVVYKDWVFPDQALPADLVKRGVAVEDSSSPHGVRLLIEDYPYAVDGLEIWSAIKSWVSDYCSFYYGSDEEILKDNELQAWWKELREVGHGDKKNEPWWPEMERPQELIDSCTTIIWIASALHAAVNFGQYPYAGYLPNRPTVSRRFMPEPGTPEYEELKKNPDKAFLKTITAQLQTLLGVSLIEILSRHTTDEIYLGQRESPEWTKDKEPLAAFDKFGKKLTDIEKQIIQRNGDNILTNRSGPVNAPYTLLFPTSEGGLTGKGIPNSVSI
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auxin-activated signaling pathway response to auxin
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nucleus
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DNA-binding transcription factor activity identical protein binding transcription cis-regulatory region binding
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Arabidopsis thaliana
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Auxin signaling pathway Nucleus Reference proteome Repressor Transcription Transcription regulation
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MINFEATELR
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MINFEATELRLGLPGGNHGGEMAGKNNGKRGFSETVDLKLNLSSTAMDSVSKVDLENMKEKVVKPPAKAQVVGWPPVRSFRKNVMSGQKPTTGDATEGNDKTSGSSGATSSASACATVAYVKVSMDGAPYLRKIDLKLYKTYQDLSNALSKMFSSFTIGNYGPQGMKDFMNESKLIDLLNGSDYVPTYEDKDGDWMLVGDVPWEMFVDSCKRIRIMKGSEAIGLAPRALEKCKNRS
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auxin-activated signaling pathway response to auxin nucleus DNA-binding transcription factor activity identical protein binding transcription cis-regulatory region binding Arabidopsis thaliana Auxin signaling pathway Nucleus Reference proteome Repressor Transcription Transcription regulation MINFEATELR MINFEATELRLGLPGGNHGGEMAGKNNGKRGFSETVDLKLNLSSTAMDSVSKVDLENMKEKVVKPPAKAQVVGWPPVRSFRKNVMSGQKPTTGDATEGNDKTSGSSGATSSASACATVAYVKVSMDGAPYLRKIDLKLYKTYQDLSNALSKMFSSFTIGNYGPQGMKDFMNESKLIDLLNGSDYVPTYEDKDGDWMLVGDVPWEMFVDSCKRIRIMKGSEAIGLAPRALEKCKNRS
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auxin-activated signaling pathway response to auxin
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nucleus
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DNA-binding transcription factor activity
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Arabidopsis thaliana
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Auxin signaling pathway Nucleus Reference proteome Repressor Transcription Transcription regulation
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MEGYSRNGEI
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MEGYSRNGEISPKLLDLMIPQERRNWFHDEKNSVFKTEEKKLELKLGPPGEEDDDESMIRHMKKEPKDKSILSLAGKYFSPSSTKTTSHKRTAPGPVVGWPPVRSFRKNLASGSSSKLGNDSTTSNGVTLKNQKCDAAAKTTEPKRQGGMFVKINMYGVPIGRKVDLSAHNSYEQLSFTVDKLFRGLLAAQRDFPSSIEDEKPITGLLDGNGEYTLTYEDNEGDKMLVGDVPWQMFVSSVKRLRVIKTSEISSALTYGNGKQEKMRR
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auxin-activated signaling pathway response to auxin nucleus DNA-binding transcription factor activity Arabidopsis thaliana Auxin signaling pathway Nucleus Reference proteome Repressor Transcription Transcription regulation MEGYSRNGEI MEGYSRNGEISPKLLDLMIPQERRNWFHDEKNSVFKTEEKKLELKLGPPGEEDDDESMIRHMKKEPKDKSILSLAGKYFSPSSTKTTSHKRTAPGPVVGWPPVRSFRKNLASGSSSKLGNDSTTSNGVTLKNQKCDAAAKTTEPKRQGGMFVKINMYGVPIGRKVDLSAHNSYEQLSFTVDKLFRGLLAAQRDFPSSIEDEKPITGLLDGNGEYTLTYEDNEGDKMLVGDVPWQMFVSSVKRLRVIKTSEISSALTYGNGKQEKMRR
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auxin-activated signaling pathway response to auxin stamen filament development
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nucleus
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DNA-binding transcription factor activity identical protein binding
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Arabidopsis thaliana
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Auxin signaling pathway Nucleus Reference proteome Repressor Transcription Transcription regulation
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MEKEGLGLEI
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MEKEGLGLEITELRLGLPGRDVAEKMMKKRAFTEMNMTSSGSNSDQCESGVVSSGGDAEKVNDSPAAKSQVVGWPPVCSYRKKNSCKEASTTKVGLGYVKVSMDGVPYLRKMDLGSSQGYDDLAFALDKLFGFRGIGVALKDGDNCEYVTIYEDKDGDWMLAGDVPWGMFLESCKRLRIMKRSDATGFGLQPRGVDE
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auxin-activated signaling pathway response to auxin stamen filament development nucleus DNA-binding transcription factor activity identical protein binding Arabidopsis thaliana Auxin signaling pathway Nucleus Reference proteome Repressor Transcription Transcription regulation MEKEGLGLEI MEKEGLGLEITELRLGLPGRDVAEKMMKKRAFTEMNMTSSGSNSDQCESGVVSSGGDAEKVNDSPAAKSQVVGWPPVCSYRKKNSCKEASTTKVGLGYVKVSMDGVPYLRKMDLGSSQGYDDLAFALDKLFGFRGIGVALKDGDNCEYVTIYEDKDGDWMLAGDVPWGMFLESCKRLRIMKRSDATGFGLQPRGVDE
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auxin-activated signaling pathway cotyledon vascular tissue pattern formation gravitropism response to auxin root development skotomorphogenesis
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nucleus
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DNA-binding transcription factor activity identical protein binding
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Arabidopsis thaliana
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Auxin signaling pathway Nucleus Reference proteome Repressor Transcription Transcription regulation
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MGRGRSSSSS
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MGRGRSSSSSSIESSSKSNPFGASSSTRNLSTDLRLGLSFGTSSGTQYFNGGYGYSVAAPAVEDAEYVAAVEEEEENECNSVGSFYVKVNMEGVPIGRKIDLMSLNGYRDLIRTLDFMFNASILWAEEEDMCNEKSHVLTYADKEGDWMMVGDVPWEMFLSTVRRLKISRANYHY
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auxin-activated signaling pathway cotyledon vascular tissue pattern formation gravitropism response to auxin root development skotomorphogenesis nucleus DNA-binding transcription factor activity identical protein binding Arabidopsis thaliana Auxin signaling pathway Nucleus Reference proteome Repressor Transcription Transcription regulation MGRGRSSSSS MGRGRSSSSSSIESSSKSNPFGASSSTRNLSTDLRLGLSFGTSSGTQYFNGGYGYSVAAPAVEDAEYVAAVEEEEENECNSVGSFYVKVNMEGVPIGRKIDLMSLNGYRDLIRTLDFMFNASILWAEEEDMCNEKSHVLTYADKEGDWMMVGDVPWEMFLSTVRRLKISRANYHY
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innate immune response leaf morphogenesis
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plasma membrane; proteasome complex; proteasome regulatory particle
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metallopeptidase activity
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Arabidopsis thaliana
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Acetylation Alternative splicing Immunity Innate immunity Proteasome Reference proteome
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MDVIKTQQIS
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MDVIKTQQISARTIEKVVVHPLVLLSIVDHYNRVAKDSSKRVVGVLLGSSSRGVVDVTNSYAVPFEEDDKDPSIWFLDHNYHESMFHMFKRINAKEHVVGWYSTGPKLRENDLDVHALFNGYVPNPVLVIIDVQPKELGIPTKAYYAVEEVKENATQKSQKVFVHVSTEIAAHEVEEIGVEHLLRDVKDTTISTLATEVTAKLTALKGLDARLREIRSYLDLVIEGKLPLNHEILYHLQDVFNLLPNLNVNELVKAFSVKTNDMMLVIYLSSLIRSVIALHNLINNKLLNKEHEKAEDSKPVAIPATS
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innate immune response leaf morphogenesis plasma membrane; proteasome complex; proteasome regulatory particle metallopeptidase activity Arabidopsis thaliana Acetylation Alternative splicing Immunity Innate immunity Proteasome Reference proteome MDVIKTQQIS MDVIKTQQISARTIEKVVVHPLVLLSIVDHYNRVAKDSSKRVVGVLLGSSSRGVVDVTNSYAVPFEEDDKDPSIWFLDHNYHESMFHMFKRINAKEHVVGWYSTGPKLRENDLDVHALFNGYVPNPVLVIIDVQPKELGIPTKAYYAVEEVKENATQKSQKVFVHVSTEIAAHEVEEIGVEHLLRDVKDTTISTLATEVTAKLTALKGLDARLREIRSYLDLVIEGKLPLNHEILYHLQDVFNLLPNLNVNELVKAFSVKTNDMMLVIYLSSLIRSVIALHNLINNKLLNKEHEKAEDSKPVAIPATS
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cellular response to abscisic acid stimulus gibberellin mediated signaling pathway positive regulation of signal transduction regulation of translation response to gibberellin response to glucose ribosome biogenesis seed germination vegetative to reproductive phase transition of meristem
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chloroplast; cytoplasm; cytosol; cytosolic ribosome; nucleus; polysomal ribosome
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MAP-kinase scaffold activity molecular adaptor activity mRNA binding ribosome binding structural constituent of ribosome translation regulator activity
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Arabidopsis thaliana
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3D-structure Alternative splicing Cytoplasm Nucleus Reference proteome Repeat Ribonucleoprotein Ribosomal protein Transducer WD repeat
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MAEGLVLKGT
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MAEGLVLKGTMRAHTDMVTAIATPIDNADIIVSASRDKSIILWKLTKDDKAYGVAQRRLTGHSHFVEDVVLSSDGQFALSGSWDGELRLWDLAAGVSTRRFVGHTKDVLSVAFSLDNRQIVSASRDRTIKLWNTLGECKYTISEGGEGHRDWVSCVRFSPNTLQPTIVSASWDKTVKVWNLSNCKLRSTLAGHTGYVSTVAVSPDGSLCASGGKDGVVLLWDLAEGKKLYSLEANSVIHALCFSPNRYWLCAATEHGIKIWDLESKSIVEDLKVDLKAEAEKADNSGPAATKRKVIYCTSLNWSADGSTLFSGYTDGVIRVWGIGRY
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cellular response to abscisic acid stimulus gibberellin mediated signaling pathway positive regulation of signal transduction regulation of translation response to gibberellin response to glucose ribosome biogenesis seed germination vegetative to reproductive phase transition of meristem chloroplast; cytoplasm; cytosol; cytosolic ribosome; nucleus; polysomal ribosome MAP-kinase scaffold activity molecular adaptor activity mRNA binding ribosome binding structural constituent of ribosome translation regulator activity Arabidopsis thaliana 3D-structure Alternative splicing Cytoplasm Nucleus Reference proteome Repeat Ribonucleoprotein Ribosomal protein Transducer WD repeat MAEGLVLKGT MAEGLVLKGTMRAHTDMVTAIATPIDNADIIVSASRDKSIILWKLTKDDKAYGVAQRRLTGHSHFVEDVVLSSDGQFALSGSWDGELRLWDLAAGVSTRRFVGHTKDVLSVAFSLDNRQIVSASRDRTIKLWNTLGECKYTISEGGEGHRDWVSCVRFSPNTLQPTIVSASWDKTVKVWNLSNCKLRSTLAGHTGYVSTVAVSPDGSLCASGGKDGVVLLWDLAEGKKLYSLEANSVIHALCFSPNRYWLCAATEHGIKIWDLESKSIVEDLKVDLKAEAEKADNSGPAATKRKVIYCTSLNWSADGSTLFSGYTDGVIRVWGIGRY
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antibiotic catabolic process methylglyoxal catabolic process to D-lactate via S-lactoyl-glutathione response to amino acid response to anoxia response to salt stress
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mitochondrion
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beta-lactamase activity hydroxyacylglutathione hydrolase activity metal ion binding zinc ion binding
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Arabidopsis thaliana
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Alternative splicing Hydrolase Iron Metal-binding Mitochondrion Reference proteome Transit peptide Zinc
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MPVISKASST
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MPVISKASSTTTNSSIPSCSRIGGQLCVWPGLRQLCLRKSLLYGVMWLLSMPLKTLRGARKTLKITHFCSISNMPSSLKIELVPCSKDNYAYLLHDEDTGTVGVVDPSEAAPVIEALSRKNWNLTYILNTHHHDDHIGGNAELKERYGAKVIGSAVDKDRIPGIDILLKDSDKWMFAGHEVRILDTPGHTQGHISFYFPGSATIFTGDLIYSLSCGTLSEGTPEQMLSSLQKIVSLPDDTNIYCGRENTAGNLKFALSVEPKNETLQSYATRVAHLRSQGLPSIPTTVKVEKACNPFLRISSKDIRKSLSIPDSATEAEALRRIQRARDRF
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antibiotic catabolic process methylglyoxal catabolic process to D-lactate via S-lactoyl-glutathione response to amino acid response to anoxia response to salt stress mitochondrion beta-lactamase activity hydroxyacylglutathione hydrolase activity metal ion binding zinc ion binding Arabidopsis thaliana Alternative splicing Hydrolase Iron Metal-binding Mitochondrion Reference proteome Transit peptide Zinc MPVISKASST MPVISKASSTTTNSSIPSCSRIGGQLCVWPGLRQLCLRKSLLYGVMWLLSMPLKTLRGARKTLKITHFCSISNMPSSLKIELVPCSKDNYAYLLHDEDTGTVGVVDPSEAAPVIEALSRKNWNLTYILNTHHHDDHIGGNAELKERYGAKVIGSAVDKDRIPGIDILLKDSDKWMFAGHEVRILDTPGHTQGHISFYFPGSATIFTGDLIYSLSCGTLSEGTPEQMLSSLQKIVSLPDDTNIYCGRENTAGNLKFALSVEPKNETLQSYATRVAHLRSQGLPSIPTTVKVEKACNPFLRISSKDIRKSLSIPDSATEAEALRRIQRARDRF
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methylglyoxal catabolic process to D-lactate via S-lactoyl-glutathione
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cytosol; secretory vesicle
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hydroxyacylglutathione hydrolase activity metal ion binding
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Arabidopsis thaliana
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Cytoplasm Hydrolase Iron Metal-binding Reference proteome Zinc
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MKIFHVPCLQ
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MKIFHVPCLQDNYSYLIIDESTGDAAVVDPVDPEKVIASAEKHQAKIKFVLTTHHHWDHAGGNEKIKQLVPDIKVYGGSLDKVKGCTDAVDNGDKLTLGQDINILALHTPCHTKGHISYYVNGKEGENPAVFTGDTLFVAGCGKFFEGTAEQMYQSLCVTLAALPKPTQVYCGHEYTVKNLEFALTVEPNNGKIQQKLAWARQQRQADLPTIPSTLEEELETNPFMRVDKPEIQEKLGCKSPIDTMREVRNKKDQWRG
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methylglyoxal catabolic process to D-lactate via S-lactoyl-glutathione cytosol; secretory vesicle hydroxyacylglutathione hydrolase activity metal ion binding Arabidopsis thaliana Cytoplasm Hydrolase Iron Metal-binding Reference proteome Zinc MKIFHVPCLQ MKIFHVPCLQDNYSYLIIDESTGDAAVVDPVDPEKVIASAEKHQAKIKFVLTTHHHWDHAGGNEKIKQLVPDIKVYGGSLDKVKGCTDAVDNGDKLTLGQDINILALHTPCHTKGHISYYVNGKEGENPAVFTGDTLFVAGCGKFFEGTAEQMYQSLCVTLAALPKPTQVYCGHEYTVKNLEFALTVEPNNGKIQQKLAWARQQRQADLPTIPSTLEEELETNPFMRVDKPEIQEKLGCKSPIDTMREVRNKKDQWRG
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defense response to bacterium intracellular signal transduction protein autophosphorylation protein phosphorylation regulation of cell growth regulation of cell population proliferation regulation of reactive oxygen species biosynthetic process response to molecule of bacterial origin
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chromosome; chromosome, centromeric region; early endosome; mitochondrion; nucleus; plasma membrane; trans-Golgi network
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ATP binding protein serine/threonine kinase activity
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Arabidopsis thaliana
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Alternative splicing ATP-binding Cell membrane Developmental protein Endosome Golgi apparatus Kinase Membrane Nucleotide-binding Nucleus Phosphoprotein Plant defense Reference proteome Serine/threonine-protein kinase Transferase
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MDHNSPKSRR
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MDHNSPKSRRSRKPEPKPDIYSTFVVHSDSDSDQGRDRDKRKAKPEEDENVDLYATMVYKGDSDGEGEEDDDDDSMLPPLLKRLPKDFGGGASLDYDDDDGDESGDFGTMIVKTDRSSHSKKNSPYSSKPRMGVSPRRRARGGDEESSDEEDEEEDDDDDDGDYGTFVVKSKDKKGKKKDKEIDMTTMGRAVASMQKSNFGGKTRKLDPSSSSSKLHGEDNRKMQQQNSKMSTTSLPDSITREDPTTKYEFLNELGKGSYGSVYKARDLKTSEIVAVKVISLTEGEEGYEEIRGEIEMLQQCNHPNVVRYLGSYQGEDYLWIVMEYCGGGSVADLMNVTEEALEEYQIAYICREALKGLAYLHSIYKVHRDIKGGNILLTEQGEVKLGDFGVAAQLTRTMSKRNTFIGTPHWMAPEVIQENRYDGKVDVWALGVSAIEMAEGLPPRSSVHPMRVLFMISIEPAPMLEDKEKWSLVFHDFVAKCLTKEPRLRPTAAEMLKHKFVERCKTGASAMSPKIEKSRQIRATMALQAQSVVAPSLEDTSTLGPKSSEELGITVPSKPPQNSTEAPLTSTLNRQHITGNTVLAGEGGDFGTMIVHGEDETEESDSRSQLVREKESSSSQFEGVPREFPGEELPDSWIHDKKKPPAIDLPVEASISQSMQASSSHEHRTKLHNIAGTQMEGGSDASGSTLKNETVGRKAFALQDKLWSIYAAGNTVPIPFLRATDISPIALLSENMIGGMQQDGNGTVAVEALQELFTSSDPQSKKGRRGQNEMPLPPSVYQRLTTSSSLMNLAQVLAYHRACYEEMPLQELQATQEQQTIQNLCDTLRTILRL
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defense response to bacterium intracellular signal transduction protein autophosphorylation protein phosphorylation regulation of cell growth regulation of cell population proliferation regulation of reactive oxygen species biosynthetic process response to molecule of bacterial origin chromosome; chromosome, centromeric region; early endosome; mitochondrion; nucleus; plasma membrane; trans-Golgi network ATP binding protein serine/threonine kinase activity Arabidopsis thaliana Alternative splicing ATP-binding Cell membrane Developmental protein Endosome Golgi apparatus Kinase Membrane Nucleotide-binding Nucleus Phosphoprotein Plant defense Reference proteome Serine/threonine-protein kinase Transferase MDHNSPKSRR MDHNSPKSRRSRKPEPKPDIYSTFVVHSDSDSDQGRDRDKRKAKPEEDENVDLYATMVYKGDSDGEGEEDDDDDSMLPPLLKRLPKDFGGGASLDYDDDDGDESGDFGTMIVKTDRSSHSKKNSPYSSKPRMGVSPRRRARGGDEESSDEEDEEEDDDDDDGDYGTFVVKSKDKKGKKKDKEIDMTTMGRAVASMQKSNFGGKTRKLDPSSSSSKLHGEDNRKMQQQNSKMSTTSLPDSITREDPTTKYEFLNELGKGSYGSVYKARDLKTSEIVAVKVISLTEGEEGYEEIRGEIEMLQQCNHPNVVRYLGSYQGEDYLWIVMEYCGGGSVADLMNVTEEALEEYQIAYICREALKGLAYLHSIYKVHRDIKGGNILLTEQGEVKLGDFGVAAQLTRTMSKRNTFIGTPHWMAPEVIQENRYDGKVDVWALGVSAIEMAEGLPPRSSVHPMRVLFMISIEPAPMLEDKEKWSLVFHDFVAKCLTKEPRLRPTAAEMLKHKFVERCKTGASAMSPKIEKSRQIRATMALQAQSVVAPSLEDTSTLGPKSSEELGITVPSKPPQNSTEAPLTSTLNRQHITGNTVLAGEGGDFGTMIVHGEDETEESDSRSQLVREKESSSSQFEGVPREFPGEELPDSWIHDKKKPPAIDLPVEASISQSMQASSSHEHRTKLHNIAGTQMEGGSDASGSTLKNETVGRKAFALQDKLWSIYAAGNTVPIPFLRATDISPIALLSENMIGGMQQDGNGTVAVEALQELFTSSDPQSKKGRRGQNEMPLPPSVYQRLTTSSSLMNLAQVLAYHRACYEEMPLQELQATQEQQTIQNLCDTLRTILRL
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embryo development ending in seed dormancy flower morphogenesis lateral root formation phosphorylation positive regulation of DNA endoreduplication regulation of asymmetric cell division root cap development sepal giant cell differentiation
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cell surface; endocytic vesicle; multivesicular body membrane; plasma membrane
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ATP binding protein homodimerization activity protein serine kinase activity protein serine/threonine kinase activity
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Zea mays
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ATP-binding Cell membrane Developmental protein Disulfide bond Endosome Glycoprotein Kinase Membrane Nucleotide-binding Receptor Reference proteome Repeat Serine/threonine-protein kinase Signal Transferase Transmembrane Transmembrane helix
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MDHVPALVLA
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MDHVPALVLAGCCFLALLPGWACGLGSMSSIAVSYGEDGPVFCGLNSDGSHLVACFGADASVLYGAPPNIPFLGLTAGDGFVCGLLLDTRQPYCWGSNSYVKSGVPQPMVEGARYSELSAGDNHLCALRAAQDGGRGSSAATSLIDCWGYNMTATHAVDEAVSTVSAGSVFNCGLFARNRTVFCWGDETVSGVVGLAPRDLHFQSIGAGGYHVCGVLENAQVFCWGRSLEMQQVVPSSAIGDGDVNIVPMDAMSTVVGGRFHACGIRSLDHQVACWGFTLHNSTSPPKGLKMYALVAGDYFTCGVPAETSLMPRCWGNSGPLALPMAVPPGICVPTACSHGYYEYVNHGEVGSIKVCKPANSRLCLPCSTGCPEGLYESSPCNATADRVCQFDCLKCVTDECLSFCLSQKRTKSRKLMAFQMRIFVAEIVFAVVLVLSVSVTTCLYVRHKLRHCQCSNRELRLAKSTAYSFRKDNMKIQPDMEDLKIRRAQEFSYEELEQATGGFSEDSQVGKGSFSCVFKGILRDGTVVAVKRAIKASDVKKSSKEFHNELDLLSRLNHAHLLNLLGYCEDGSERLLVYEFMAHGSLYQHLHGKDPNLKKRLNWARRVTIAVQAARGIEYLHGYACPPVIHRDIKSSNILIDEDHNARVADFGLSILGPADSGTPLSELPAGTLGYLDPEYYRLHYLTTKSDVYSFGVVLLEILSGRKAIDMQFEEGNIVEWAVPLIKAGDIFAILDPVLSPPSDLEALKKIASVACKCVRMRGKDRPSMDKVTTALEHALALLMGSPCIEQPILPTEVVLGSSRMHKVSQMSSNHSCSENELADGEDQGIGYRAPSWITFPSVTSSQRRKSSASEADIVGRRATDGRNVGSSIGDGLRSLEEEIAPASPQENLYLQHNF
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embryo development ending in seed dormancy flower morphogenesis lateral root formation phosphorylation positive regulation of DNA endoreduplication regulation of asymmetric cell division root cap development sepal giant cell differentiation cell surface; endocytic vesicle; multivesicular body membrane; plasma membrane ATP binding protein homodimerization activity protein serine kinase activity protein serine/threonine kinase activity Zea mays ATP-binding Cell membrane Developmental protein Disulfide bond Endosome Glycoprotein Kinase Membrane Nucleotide-binding Receptor Reference proteome Repeat Serine/threonine-protein kinase Signal Transferase Transmembrane Transmembrane helix MDHVPALVLA MDHVPALVLAGCCFLALLPGWACGLGSMSSIAVSYGEDGPVFCGLNSDGSHLVACFGADASVLYGAPPNIPFLGLTAGDGFVCGLLLDTRQPYCWGSNSYVKSGVPQPMVEGARYSELSAGDNHLCALRAAQDGGRGSSAATSLIDCWGYNMTATHAVDEAVSTVSAGSVFNCGLFARNRTVFCWGDETVSGVVGLAPRDLHFQSIGAGGYHVCGVLENAQVFCWGRSLEMQQVVPSSAIGDGDVNIVPMDAMSTVVGGRFHACGIRSLDHQVACWGFTLHNSTSPPKGLKMYALVAGDYFTCGVPAETSLMPRCWGNSGPLALPMAVPPGICVPTACSHGYYEYVNHGEVGSIKVCKPANSRLCLPCSTGCPEGLYESSPCNATADRVCQFDCLKCVTDECLSFCLSQKRTKSRKLMAFQMRIFVAEIVFAVVLVLSVSVTTCLYVRHKLRHCQCSNRELRLAKSTAYSFRKDNMKIQPDMEDLKIRRAQEFSYEELEQATGGFSEDSQVGKGSFSCVFKGILRDGTVVAVKRAIKASDVKKSSKEFHNELDLLSRLNHAHLLNLLGYCEDGSERLLVYEFMAHGSLYQHLHGKDPNLKKRLNWARRVTIAVQAARGIEYLHGYACPPVIHRDIKSSNILIDEDHNARVADFGLSILGPADSGTPLSELPAGTLGYLDPEYYRLHYLTTKSDVYSFGVVLLEILSGRKAIDMQFEEGNIVEWAVPLIKAGDIFAILDPVLSPPSDLEALKKIASVACKCVRMRGKDRPSMDKVTTALEHALALLMGSPCIEQPILPTEVVLGSSRMHKVSQMSSNHSCSENELADGEDQGIGYRAPSWITFPSVTSSQRRKSSASEADIVGRRATDGRNVGSSIGDGLRSLEEEIAPASPQENLYLQHNF
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chromatin organization
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nucleolus
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hydrolase activity metal ion binding
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Zea mays
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Chromatin regulator Direct protein sequencing Hydrolase Metal-binding Nucleus Phosphoprotein Reference proteome Repressor Transcription Transcription regulation Zinc Zinc-finger
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MEFWGLEVKP
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MEFWGLEVKPGSTVKCEPGYGFVLHLSQAALGESKKSDNALMYVKIDDQKLAIGTLSVDKNPHIQFDLIFDKEFELSHTSKTTSVFFTGYKVEQPFEEDEMDLDSEDEDEELNVPVVKENGKADEKKQKSQEKAVAAPSKSSPDSKKSKDDDDSDEDETDDSDEDETDDSDEGLSSEEGDDDSSDEDDTSDDEEEDTPTPKKPEVGKKRPAESSVLKTPLSDKKAKVATPSSQKTGGKKGAAVHVATPHPAKGKTIVNNDKSVKSPKSAPKSGGSVPCKPCSKSFISETALQAHSRAKMGASESQVQ
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chromatin organization nucleolus hydrolase activity metal ion binding Zea mays Chromatin regulator Direct protein sequencing Hydrolase Metal-binding Nucleus Phosphoprotein Reference proteome Repressor Transcription Transcription regulation Zinc Zinc-finger MEFWGLEVKP MEFWGLEVKPGSTVKCEPGYGFVLHLSQAALGESKKSDNALMYVKIDDQKLAIGTLSVDKNPHIQFDLIFDKEFELSHTSKTTSVFFTGYKVEQPFEEDEMDLDSEDEDEELNVPVVKENGKADEKKQKSQEKAVAAPSKSSPDSKKSKDDDDSDEDETDDSDEDETDDSDEGLSSEEGDDDSSDEDDTSDDEEEDTPTPKKPEVGKKRPAESSVLKTPLSDKKAKVATPSSQKTGGKKGAAVHVATPHPAKGKTIVNNDKSVKSPKSAPKSGGSVPCKPCSKSFISETALQAHSRAKMGASESQVQ
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abscisic acid biosynthetic process carotene catabolic process
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chloroplast stroma
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9-cis-epoxycarotenoid dioxygenase activity carotenoid dioxygenase activity metal ion binding
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Zea mays
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3D-structure Abscisic acid biosynthesis Chloroplast Dioxygenase Iron Metal-binding Oxidoreductase Plastid Reference proteome Stress response Transit peptide
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MQGLAPPTSV
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MQGLAPPTSVSIHRHLPARSRARASNSVRFSPRAVSSVPPAECLQAPFHKPVADLPAPSRKPAAIAVPGHAAAPRKAEGGKKQLNLFQRAAAAALDAFEEGFVANVLERPHGLPSTADPAVQIAGNFAPVGERPPVHELPVSGRIPPFIDGVYARNGANPCFDPVAGHHLFDGDGMVHALRIRNGAAESYACRFTETARLRQERAIGRPVFPKAIGELHGHSGIARLALFYARAACGLVDPSAGTGVANAGLVYFNGRLLAMSEDDLPYHVRVADDGDLETVGRYDFDGQLGCAMIAHPKLDPATGELHALSYDVIKRPYLKYFYFRPDGTKSDDVEIPLEQPTMIHDFAITENLVVVPDHQVVFKLQEMLRGGSPVVLDKEKTSRFGVLPKHAADASEMAWVDVPDCFCFHLWNAWEDEATGEVVVIGSCMTPADSIFNESDERLESVLTEIRLDARTGRSTRRAVLPPSQQVNLEVGMVNRNLLGRETRYAYLAVAEPWPKVSGFAKVDLSTGELTKFEYGEGRFGGEPCFVPMDPAAAHPRGEDDGYVLTFVHDERAGTSELLVVNAADMRLEATVQLPSRVPFGFHGTFITGQELEAQAA
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abscisic acid biosynthetic process carotene catabolic process chloroplast stroma 9-cis-epoxycarotenoid dioxygenase activity carotenoid dioxygenase activity metal ion binding Zea mays 3D-structure Abscisic acid biosynthesis Chloroplast Dioxygenase Iron Metal-binding Oxidoreductase Plastid Reference proteome Stress response Transit peptide MQGLAPPTSV MQGLAPPTSVSIHRHLPARSRARASNSVRFSPRAVSSVPPAECLQAPFHKPVADLPAPSRKPAAIAVPGHAAAPRKAEGGKKQLNLFQRAAAAALDAFEEGFVANVLERPHGLPSTADPAVQIAGNFAPVGERPPVHELPVSGRIPPFIDGVYARNGANPCFDPVAGHHLFDGDGMVHALRIRNGAAESYACRFTETARLRQERAIGRPVFPKAIGELHGHSGIARLALFYARAACGLVDPSAGTGVANAGLVYFNGRLLAMSEDDLPYHVRVADDGDLETVGRYDFDGQLGCAMIAHPKLDPATGELHALSYDVIKRPYLKYFYFRPDGTKSDDVEIPLEQPTMIHDFAITENLVVVPDHQVVFKLQEMLRGGSPVVLDKEKTSRFGVLPKHAADASEMAWVDVPDCFCFHLWNAWEDEATGEVVVIGSCMTPADSIFNESDERLESVLTEIRLDARTGRSTRRAVLPPSQQVNLEVGMVNRNLLGRETRYAYLAVAEPWPKVSGFAKVDLSTGELTKFEYGEGRFGGEPCFVPMDPAAAHPRGEDDGYVLTFVHDERAGTSELLVVNAADMRLEATVQLPSRVPFGFHGTFITGQELEAQAA
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defense response to bacterium epigenetic regulation of gene expression ethylene-activated signaling pathway regulation of DNA-templated transcription regulation of L-ascorbic acid biosynthetic process response to ethylene response to hypoxia sugar mediated signaling pathway
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nucleus
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chromatin binding DNA binding DNA-binding transcription factor activity histone binding kinase binding transcription cis-regulatory region binding
|
Arabidopsis thaliana
|
3D-structure Activator Chromatin regulator Coiled coil DNA-binding Ethylene signaling pathway Nucleus Reference proteome Transcription Transcription regulation
|
MMFNEMGMCG
|
MMFNEMGMCGNMDFFSSGSLGEVDFCPVPQAEPDSIVEDDYTDDEIDVDELERRMWRDKMRLKRLKEQDKGKEGVDAAKQRQSQEQARRKKMSRAQDGILKYMLKMMEVCKAQGFVYGIIPENGKPVTGASDNLREWWKDKVRFDRNGPAAITKYQAENNIPGIHEGNNPIGPTPHTLQELQDTTLGSLLSALMQHCDPPQRRFPLEKGVPPPWWPNGKEDWWPQLGLPKDQGPAPYKKPHDLKKAWKVGVLTAVIKHMFPDIAKIRKLVRQSKCLQDKMTAKESATWLAIINQEESLARELYPESCPPLSLSGGSCSLLMNDCSQYDVEGFEKESHYEVEELKPEKVMNSSNFGMVAKMHDFPVKEEVPAGNSEFMRKRKPNRDLNTIMDRTVFTCENLGCAHSEISRGFLDRNSRDNHQLACPHRDSRLPYGAAPSRFHVNEVKPVVGFPQPRPVNSVAQPIDLTGIVPEDGQKMISELMSMYDRNVQSNQTSMVMENQSVSLLQPTVHNHQEHLQFPGNMVEGSFFEDLNIPNRANNNNSSNNQTFFQGNNNNNNVFKFDTADHNNFEAAHNNNNNSSGNRFQLVFDSTPFDMASFDYRDDMSMPGVVGTMDGMQQKQQDVSIWF
|
defense response to bacterium epigenetic regulation of gene expression ethylene-activated signaling pathway regulation of DNA-templated transcription regulation of L-ascorbic acid biosynthetic process response to ethylene response to hypoxia sugar mediated signaling pathway nucleus chromatin binding DNA binding DNA-binding transcription factor activity histone binding kinase binding transcription cis-regulatory region binding Arabidopsis thaliana 3D-structure Activator Chromatin regulator Coiled coil DNA-binding Ethylene signaling pathway Nucleus Reference proteome Transcription Transcription regulation MMFNEMGMCG MMFNEMGMCGNMDFFSSGSLGEVDFCPVPQAEPDSIVEDDYTDDEIDVDELERRMWRDKMRLKRLKEQDKGKEGVDAAKQRQSQEQARRKKMSRAQDGILKYMLKMMEVCKAQGFVYGIIPENGKPVTGASDNLREWWKDKVRFDRNGPAAITKYQAENNIPGIHEGNNPIGPTPHTLQELQDTTLGSLLSALMQHCDPPQRRFPLEKGVPPPWWPNGKEDWWPQLGLPKDQGPAPYKKPHDLKKAWKVGVLTAVIKHMFPDIAKIRKLVRQSKCLQDKMTAKESATWLAIINQEESLARELYPESCPPLSLSGGSCSLLMNDCSQYDVEGFEKESHYEVEELKPEKVMNSSNFGMVAKMHDFPVKEEVPAGNSEFMRKRKPNRDLNTIMDRTVFTCENLGCAHSEISRGFLDRNSRDNHQLACPHRDSRLPYGAAPSRFHVNEVKPVVGFPQPRPVNSVAQPIDLTGIVPEDGQKMISELMSMYDRNVQSNQTSMVMENQSVSLLQPTVHNHQEHLQFPGNMVEGSFFEDLNIPNRANNNNSSNNQTFFQGNNNNNNVFKFDTADHNNFEAAHNNNNNSSGNRFQLVFDSTPFDMASFDYRDDMSMPGVVGTMDGMQQKQQDVSIWF
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mismatch repair negative regulation of reciprocal meiotic recombination pyrimidine dimer repair
|
nucleus; plasma membrane
|
ATP binding ATP-dependent DNA damage sensor activity damaged DNA binding mismatched DNA binding
|
Arabidopsis thaliana
|
ATP-binding DNA damage DNA repair DNA-binding Nucleotide-binding Nucleus Reference proteome
|
MEGNFEEQNK
|
MEGNFEEQNKLPELKLDAKQAQGFLSFYKTLPNDTRAVRFFDRKDYYTAHGENSVFIAKTYYHTTTALRQLGSGSNALSSVSISRNMFETIARDLLLERNDHTVELYEGSGSNWRLVKTGSPGNIGSFEDVLFANNEMQDTPVVVSIFPSFHDGRCVIGMAYVDLTRRVLGLAEFLDDSRFTNLESSLIALGAKECIFPAESGKSNECKSLYDSLERCAVMITERKKHEFKGRDLDSDLKRLVKGNIEPVRDLVSGFDLATPALGALLSFSELLSNEDNYGNFTIRRYDIGGFMRLDSAAMRALNVMESKTDANKNFSLFGLMNRTCTAGMGKRLLHMWLKQPLVDLNEIKTRLDIVQCFVEEAGLRQDLRQHLKRISDVERLLRSLERRRGGLQHIIKLYQSTIRLPFIKTAMQQYTGEFASLISERYLKKLEALSDQDHLGKFIDLVECSVDLDQLENGEYMISSSYDTKLASLKDQKELLEQQIHELHKKTAIELDLQVDKALKLDKAAQFGHVFRITKKEEPKIRKKLTTQFIVLETRKDGVKFTNTKLKKLGDQYQSVVDDYRSCQKELVDRVVETVTSFSEVFEDLAGLLSEMDVLLSFADLAASCPTPYCRPEITSSDAGDIVLEGSRHPCVEAQDWVNFIPNDCRLMRGKSWFQIVTGPNMGGKSTFIRQVGVIVLMAQVGSFVPCDKASISIRDCIFARVGAGDCQLRGVSTFMQEMLETASILKGASDKSLIIIDELGRGTSTYDGFGLAWAICEHLVQVKRAPTLFATHFHELTALAQANSEVSGNTVGVANFHVSAHIDTESRKLTMLYKVEPGACDQSFGIHVAEFANFPESVVALAREKAAELEDFSPSSMIINNEESGKRKSREDDPDEVSRGAERAHKFLKEFAAIPLDKMELKDSLQRVREMKDELEKDAADCHWLRQFL
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mismatch repair negative regulation of reciprocal meiotic recombination pyrimidine dimer repair nucleus; plasma membrane ATP binding ATP-dependent DNA damage sensor activity damaged DNA binding mismatched DNA binding Arabidopsis thaliana ATP-binding DNA damage DNA repair DNA-binding Nucleotide-binding Nucleus Reference proteome MEGNFEEQNK MEGNFEEQNKLPELKLDAKQAQGFLSFYKTLPNDTRAVRFFDRKDYYTAHGENSVFIAKTYYHTTTALRQLGSGSNALSSVSISRNMFETIARDLLLERNDHTVELYEGSGSNWRLVKTGSPGNIGSFEDVLFANNEMQDTPVVVSIFPSFHDGRCVIGMAYVDLTRRVLGLAEFLDDSRFTNLESSLIALGAKECIFPAESGKSNECKSLYDSLERCAVMITERKKHEFKGRDLDSDLKRLVKGNIEPVRDLVSGFDLATPALGALLSFSELLSNEDNYGNFTIRRYDIGGFMRLDSAAMRALNVMESKTDANKNFSLFGLMNRTCTAGMGKRLLHMWLKQPLVDLNEIKTRLDIVQCFVEEAGLRQDLRQHLKRISDVERLLRSLERRRGGLQHIIKLYQSTIRLPFIKTAMQQYTGEFASLISERYLKKLEALSDQDHLGKFIDLVECSVDLDQLENGEYMISSSYDTKLASLKDQKELLEQQIHELHKKTAIELDLQVDKALKLDKAAQFGHVFRITKKEEPKIRKKLTTQFIVLETRKDGVKFTNTKLKKLGDQYQSVVDDYRSCQKELVDRVVETVTSFSEVFEDLAGLLSEMDVLLSFADLAASCPTPYCRPEITSSDAGDIVLEGSRHPCVEAQDWVNFIPNDCRLMRGKSWFQIVTGPNMGGKSTFIRQVGVIVLMAQVGSFVPCDKASISIRDCIFARVGAGDCQLRGVSTFMQEMLETASILKGASDKSLIIIDELGRGTSTYDGFGLAWAICEHLVQVKRAPTLFATHFHELTALAQANSEVSGNTVGVANFHVSAHIDTESRKLTMLYKVEPGACDQSFGIHVAEFANFPESVVALAREKAAELEDFSPSSMIINNEESGKRKSREDDPDEVSRGAERAHKFLKEFAAIPLDKMELKDSLQRVREMKDELEKDAADCHWLRQFL
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cellular response to light stimulus DNA-templated transcription initiation regulation of RNA biosynthetic process
|
chloroplast
|
DNA-directed 5'-3' RNA polymerase activity sigma factor activity transcription cis-regulatory region binding
|
Arabidopsis thaliana
|
Chloroplast DNA-binding Plastid Reference proteome Sigma factor Transcription Transcription regulation Transit peptide
|
MASFNSFPIP
|
MASFNSFPIPKQIVGSSSSSSSSTSRPRILVRSSLTSSMTSTNSMLVFVHPHPLIKHWLSLLRSDQTSFPIFVRIPMTSVVATRWSFLSSVKEESRIYQNDSLKACGCASVSPYTAQNNVYVELKDPKENIGVGSAERSYSSRSMLQYNLLAKNLLALEETFVALDSVRMERDIMLQMGKLGAAELFKTCLSRYRGSSITSCLSDTTELVDTTPNQQVFVSSRRKVKKKARRSSVTAENGDQSSLPIGLRTTWNNIDVPRVRRPPKYRKKRERISRNETEMSTGVKIVADMERIRTQLEEESGKVASLSCWAAAAGMNEKLLMRNLHYGWYCRDELVKSTRSLVLFLARNYRGLGIAHEDLIQAGYVGVLQGAERFDHTRGYKFSTYVQYWIRKSMSTMVSRHARGVHIPSSIIRTINHIQKARKTLKTSHGIKYAADEEIAKLTGHSVKKIRAANQCLKVVGSIDKKVGDCFTTKFLEFTPDTTMESPEEAVMRQSARRDIHDLLEGLEPREKQVMVLRYGLQDYRPKSLEEIGKLLKVSKEWIRKIERRAMAKLRDQPNAEDLRYYLNQ
|
cellular response to light stimulus DNA-templated transcription initiation regulation of RNA biosynthetic process chloroplast DNA-directed 5'-3' RNA polymerase activity sigma factor activity transcription cis-regulatory region binding Arabidopsis thaliana Chloroplast DNA-binding Plastid Reference proteome Sigma factor Transcription Transcription regulation Transit peptide MASFNSFPIP MASFNSFPIPKQIVGSSSSSSSSTSRPRILVRSSLTSSMTSTNSMLVFVHPHPLIKHWLSLLRSDQTSFPIFVRIPMTSVVATRWSFLSSVKEESRIYQNDSLKACGCASVSPYTAQNNVYVELKDPKENIGVGSAERSYSSRSMLQYNLLAKNLLALEETFVALDSVRMERDIMLQMGKLGAAELFKTCLSRYRGSSITSCLSDTTELVDTTPNQQVFVSSRRKVKKKARRSSVTAENGDQSSLPIGLRTTWNNIDVPRVRRPPKYRKKRERISRNETEMSTGVKIVADMERIRTQLEEESGKVASLSCWAAAAGMNEKLLMRNLHYGWYCRDELVKSTRSLVLFLARNYRGLGIAHEDLIQAGYVGVLQGAERFDHTRGYKFSTYVQYWIRKSMSTMVSRHARGVHIPSSIIRTINHIQKARKTLKTSHGIKYAADEEIAKLTGHSVKKIRAANQCLKVVGSIDKKVGDCFTTKFLEFTPDTTMESPEEAVMRQSARRDIHDLLEGLEPREKQVMVLRYGLQDYRPKSLEEIGKLLKVSKEWIRKIERRAMAKLRDQPNAEDLRYYLNQ
|
cellular response to light stimulus cellular response to redox state DNA-templated transcription initiation photosystem stoichiometry adjustment regulation of DNA-templated transcription regulation of RNA biosynthetic process
|
chloroplast
|
DNA binding sigma factor activity
|
Arabidopsis thaliana
|
Alternative splicing Chloroplast DNA-binding Phosphoprotein Plastid Reference proteome Sigma factor Transcription Transcription regulation Transit peptide
|
MATAAVIGLN
|
MATAAVIGLNTGKRLLSSSFYHSDVTEKFLSVNDHCSSQYHIASTKSGITAKKASNYSPSFPSSNRHTQSAKALKESVDVASTEKPWLPNGTDKELEEECYDDDDLISHSVEAILLLQKSMLEKSWNLSFEKAVSSEYPGKGTIRKKKIPVITCSGISARQRRIGAKKKTNMTHVKAVSDVSSGKQVRGYVKGVISEDVLSHVEVVRLSKKIKSGLRLDDHKSRLKDRLGCEPSDEQLAVSLKISRAELQAWLMECHLAREKLAMSNVRLVMSIAQRYDNLGAEMSDLVQGGLIGLLRGIEKFDSSKGFRISTYVYWWIRQGVSRALVDNSRTLRLPTHLHERLGLIRNAKLRLQEKGITPSIDRIAESLNMSQKKVRNATEAVSKVFSLDRDAFPSLNGLPGETHHSYIADTRLENNPWHGYDDLALKEEVSKLISATLGEREKEIIRLYYGLDKECLTWEDISKRIGLSRERVRQVGLVALEKLKHAARKRKMEAMILKN
|
cellular response to light stimulus cellular response to redox state DNA-templated transcription initiation photosystem stoichiometry adjustment regulation of DNA-templated transcription regulation of RNA biosynthetic process chloroplast DNA binding sigma factor activity Arabidopsis thaliana Alternative splicing Chloroplast DNA-binding Phosphoprotein Plastid Reference proteome Sigma factor Transcription Transcription regulation Transit peptide MATAAVIGLN MATAAVIGLNTGKRLLSSSFYHSDVTEKFLSVNDHCSSQYHIASTKSGITAKKASNYSPSFPSSNRHTQSAKALKESVDVASTEKPWLPNGTDKELEEECYDDDDLISHSVEAILLLQKSMLEKSWNLSFEKAVSSEYPGKGTIRKKKIPVITCSGISARQRRIGAKKKTNMTHVKAVSDVSSGKQVRGYVKGVISEDVLSHVEVVRLSKKIKSGLRLDDHKSRLKDRLGCEPSDEQLAVSLKISRAELQAWLMECHLAREKLAMSNVRLVMSIAQRYDNLGAEMSDLVQGGLIGLLRGIEKFDSSKGFRISTYVYWWIRQGVSRALVDNSRTLRLPTHLHERLGLIRNAKLRLQEKGITPSIDRIAESLNMSQKKVRNATEAVSKVFSLDRDAFPSLNGLPGETHHSYIADTRLENNPWHGYDDLALKEEVSKLISATLGEREKEIIRLYYGLDKECLTWEDISKRIGLSRERVRQVGLVALEKLKHAARKRKMEAMILKN
|
abscisic acid-activated signaling pathway gibberellic acid mediated signaling pathway positive gravitropism positive regulation of anthocyanin metabolic process positive regulation of circadian rhythm positive regulation of flavonoid biosynthetic process positive regulation of transcription by RNA polymerase II red or far-red light signaling pathway red, far-red light phototransduction regulation of abscisic acid-activated signaling pathway regulation of photomorphogenesis response to abscisic acid response to cold response to far red light response to red light response to UV-B
|
nucleus; protein-DNA complex
|
DNA binding DNA-binding transcription factor activity DNA-binding transcription factor activity, RNA polymerase II-specific double-stranded DNA binding transcription cis-regulatory region binding
|
Arabidopsis thaliana
|
3D-structure Abscisic acid signaling pathway Activator DNA-binding Nucleus Phosphoprotein Phytochrome signaling pathway Reference proteome Transcription Transcription regulation Ubl conjugation
|
MQEQATSSLA
|
MQEQATSSLAASSLPSSSERSSSSAPHLEIKEGIESDEEIRRVPEFGGEAVGKETSGRESGSATGQERTQATVGESQRKRGRTPAEKENKRLKRLLRNRVSAQQARERKKAYLSELENRVKDLENKNSELEERLSTLQNENQMLRHILKNTTGNKRGGGGGSNADASL
|
abscisic acid-activated signaling pathway gibberellic acid mediated signaling pathway positive gravitropism positive regulation of anthocyanin metabolic process positive regulation of circadian rhythm positive regulation of flavonoid biosynthetic process positive regulation of transcription by RNA polymerase II red or far-red light signaling pathway red, far-red light phototransduction regulation of abscisic acid-activated signaling pathway regulation of photomorphogenesis response to abscisic acid response to cold response to far red light response to red light response to UV-B nucleus; protein-DNA complex DNA binding DNA-binding transcription factor activity DNA-binding transcription factor activity, RNA polymerase II-specific double-stranded DNA binding transcription cis-regulatory region binding Arabidopsis thaliana 3D-structure Abscisic acid signaling pathway Activator DNA-binding Nucleus Phosphoprotein Phytochrome signaling pathway Reference proteome Transcription Transcription regulation Ubl conjugation MQEQATSSLA MQEQATSSLAASSLPSSSERSSSSAPHLEIKEGIESDEEIRRVPEFGGEAVGKETSGRESGSATGQERTQATVGESQRKRGRTPAEKENKRLKRLLRNRVSAQQARERKKAYLSELENRVKDLENKNSELEERLSTLQNENQMLRHILKNTTGNKRGGGGGSNADASL
|
response to antibiotic
|
extracellular region
|
beta-lactamase activity
|
Helicobacter pylori
|
Antibiotic resistance Disulfide bond Hydrolase Reference proteome Repeat Secreted Signal TPR repeat
|
MLGNVKKTLF
|
MLGNVKKTLFGVLCLGTLCLRGLMAEPDAKELVNLGIESAKKQDFAQAKTHFEKACELKNGFGCVFLGAFYEEGKGVGKDLKKAIQFYTKGCELNDGYGCNLLGNLYYNGQGVSKDAKKASQYYSKACDLNHAEGCMVLGSLHHYGVGTPKDLRKALDLYEKACDLKDSPGCINAGYIYSVTKNFKEAIVRYSKACELKDGRGCYNLGVMQYNAQGTAKDEKQAVENFKKGCKSSVKEACDALKELKIEL
|
response to antibiotic extracellular region beta-lactamase activity Helicobacter pylori Antibiotic resistance Disulfide bond Hydrolase Reference proteome Repeat Secreted Signal TPR repeat MLGNVKKTLF MLGNVKKTLFGVLCLGTLCLRGLMAEPDAKELVNLGIESAKKQDFAQAKTHFEKACELKNGFGCVFLGAFYEEGKGVGKDLKKAIQFYTKGCELNDGYGCNLLGNLYYNGQGVSKDAKKASQYYSKACDLNHAEGCMVLGSLHHYGVGTPKDLRKALDLYEKACDLKDSPGCINAGYIYSVTKNFKEAIVRYSKACELKDGRGCYNLGVMQYNAQGTAKDEKQAVENFKKGCKSSVKEACDALKELKIEL
|
bacterial-type flagellum-dependent cell motility bacterial-type flagellum-dependent swarming motility chemotaxis
|
bacterial-type flagellum; bacterial-type flagellum basal body; plasma membrane
|
cytoskeletal motor activity
|
Helicobacter pylori
|
3D-structure Bacterial flagellum Cell inner membrane Cell membrane Chemotaxis Flagellar rotation Membrane Reference proteome
|
MATKLTPKQK
|
MATKLTPKQKAQLDELSMSEKIAILLIQVGEDTTGEILRHLDIDSITEISKQIVQLNGTDKQIGAAVLEEFFAIFQSNQYINTGGLEYARELLTRTLGSEEAKKVMDKLTKSLQTQKNFAYLGKIKPQQLADFIINEHPQTIALILAHMEAPNAAETLSYFPDEMKAEISIRMANLGEISPQVVKRVSTVLENKLESLTSYKIEVGGLRAVAEIFNRLGQKSAKTTLARIESVDNKLAGAIKEMMFTFEDIVKLDNFAIREILKVADKKDLSLALKTSTKDLTDKFLNNMSSRAAEQFVEEMQYLGAVKIKDVDVAQRKIIEIVQSLQEKGVIQTGEEEDVIE
|
bacterial-type flagellum-dependent cell motility bacterial-type flagellum-dependent swarming motility chemotaxis bacterial-type flagellum; bacterial-type flagellum basal body; plasma membrane cytoskeletal motor activity Helicobacter pylori 3D-structure Bacterial flagellum Cell inner membrane Cell membrane Chemotaxis Flagellar rotation Membrane Reference proteome MATKLTPKQK MATKLTPKQKAQLDELSMSEKIAILLIQVGEDTTGEILRHLDIDSITEISKQIVQLNGTDKQIGAAVLEEFFAIFQSNQYINTGGLEYARELLTRTLGSEEAKKVMDKLTKSLQTQKNFAYLGKIKPQQLADFIINEHPQTIALILAHMEAPNAAETLSYFPDEMKAEISIRMANLGEISPQVVKRVSTVLENKLESLTSYKIEVGGLRAVAEIFNRLGQKSAKTTLARIESVDNKLAGAIKEMMFTFEDIVKLDNFAIREILKVADKKDLSLALKTSTKDLTDKFLNNMSSRAAEQFVEEMQYLGAVKIKDVDVAQRKIIEIVQSLQEKGVIQTGEEEDVIE
|
polyamine biosynthetic process spermidine biosynthetic process
|
cytosol
|
spermidine synthase activity
|
Helicobacter pylori
|
3D-structure Cytoplasm Polyamine biosynthesis Reference proteome Spermidine biosynthesis Transferase
|
MWITQEITPY
|
MWITQEITPYLRKEYTIEAKLLDVRSEHNILEIFKSKDFGEIAMLNRQLLFKNFLHIESELLAHMGGCTKKELKEVLIVDGFDLELAHQLFKYDTHIDFVQADEKILDSFISFFPHFHEVKNNKNFTHAKQLLDLDIKKYDLIFCLQEPDIHRIDGLKRMLKEDGVFISVAKHPLLEHVSMQNALKNMGGVFSVAMPFVAPLRILSNKGYIYASFKTHPLKDLMTPKIEALTSVRYYNEDIHRAAFALPKNLQEVFKDNIKS
|
polyamine biosynthetic process spermidine biosynthetic process cytosol spermidine synthase activity Helicobacter pylori 3D-structure Cytoplasm Polyamine biosynthesis Reference proteome Spermidine biosynthesis Transferase MWITQEITPY MWITQEITPYLRKEYTIEAKLLDVRSEHNILEIFKSKDFGEIAMLNRQLLFKNFLHIESELLAHMGGCTKKELKEVLIVDGFDLELAHQLFKYDTHIDFVQADEKILDSFISFFPHFHEVKNNKNFTHAKQLLDLDIKKYDLIFCLQEPDIHRIDGLKRMLKEDGVFISVAKHPLLEHVSMQNALKNMGGVFSVAMPFVAPLRILSNKGYIYASFKTHPLKDLMTPKIEALTSVRYYNEDIHRAAFALPKNLQEVFKDNIKS
|
coenzyme A biosynthetic process phosphorylation
|
cytoplasm
|
ATP binding metal ion binding pantothenate kinase activity
|
Helicobacter pylori
|
ATP-binding Coenzyme A biosynthesis Cytoplasm Kinase Metal-binding Nucleotide-binding Potassium Reference proteome Transferase
|
MPARQSFTDL
|
MPARQSFTDLKNLVLCDIGNTRIHFAQNYQLFSSAKEDLKRLGIQKEIFYISVNEENEKALLNCYPNAKNIAGFFHLETDYVGLGIDRQMACLAVNNGVVVDAGSAITIDLIKEGKHLGGCILPGLAQYIHAYKKSAKILEQPFKALDSLEVLPKSTRDAVNYGMVLSVIACIQHLAKNQKIYLCGGDAKYLSAFLPHSVCKERLVFDGMEIALKKAGILECK
|
coenzyme A biosynthetic process phosphorylation cytoplasm ATP binding metal ion binding pantothenate kinase activity Helicobacter pylori ATP-binding Coenzyme A biosynthesis Cytoplasm Kinase Metal-binding Nucleotide-binding Potassium Reference proteome Transferase MPARQSFTDL MPARQSFTDLKNLVLCDIGNTRIHFAQNYQLFSSAKEDLKRLGIQKEIFYISVNEENEKALLNCYPNAKNIAGFFHLETDYVGLGIDRQMACLAVNNGVVVDAGSAITIDLIKEGKHLGGCILPGLAQYIHAYKKSAKILEQPFKALDSLEVLPKSTRDAVNYGMVLSVIACIQHLAKNQKIYLCGGDAKYLSAFLPHSVCKERLVFDGMEIALKKAGILECK
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folic acid biosynthetic process tetrahydrofolate biosynthetic process
|
cytosol
|
dihydropteroate synthase activity metal ion binding oxidoreductase activity
|
Helicobacter pylori
|
FAD Flavoprotein FMN Folate biosynthesis Magnesium Metal-binding Multifunctional enzyme NAD Oxidoreductase Reference proteome Transferase
|
MIVKRLNPDA
|
MIVKRLNPDALKNALQKIGPEKIAQDRMHQKGVSFVFEIQHLPLSATLILKQEAISVGGDFATPRDCILAKEPFYDGVLIASAKQLERLIVKCHSQPFGLKHLAQELKSHLKAPKPNTPQIMAVLNLTPDSFYEKSRFDSKKALEEIYQWLEKGITLIDIGAASSRPESEIIDPKIEQDRLKEILLEIKSQKLYQCAKFSIDTYHATTAQMALEHYFSILNDVSGFNSAEMLEVAKDYKPTCILMHTQKTPKDMQENVFYHNLFDEMDRFFKEKLEVLEKYVLQDIILDIGFGFAKLKEHNLALIKHLSHFLKFKKPLLVGASRKNTIGLITGREVQDRLAGTLSLHLMALQNGASVLRVHDIDEHIDLIKVFKSLEETD
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folic acid biosynthetic process tetrahydrofolate biosynthetic process cytosol dihydropteroate synthase activity metal ion binding oxidoreductase activity Helicobacter pylori FAD Flavoprotein FMN Folate biosynthesis Magnesium Metal-binding Multifunctional enzyme NAD Oxidoreductase Reference proteome Transferase MIVKRLNPDA MIVKRLNPDALKNALQKIGPEKIAQDRMHQKGVSFVFEIQHLPLSATLILKQEAISVGGDFATPRDCILAKEPFYDGVLIASAKQLERLIVKCHSQPFGLKHLAQELKSHLKAPKPNTPQIMAVLNLTPDSFYEKSRFDSKKALEEIYQWLEKGITLIDIGAASSRPESEIIDPKIEQDRLKEILLEIKSQKLYQCAKFSIDTYHATTAQMALEHYFSILNDVSGFNSAEMLEVAKDYKPTCILMHTQKTPKDMQENVFYHNLFDEMDRFFKEKLEVLEKYVLQDIILDIGFGFAKLKEHNLALIKHLSHFLKFKKPLLVGASRKNTIGLITGREVQDRLAGTLSLHLMALQNGASVLRVHDIDEHIDLIKVFKSLEETD
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potassium ion transport
|
plasma membrane
|
identical protein binding metal ion binding monoatomic cation transmembrane transporter activity
|
Methanothermobacter thermautotrophicus
|
3D-structure Alternative initiation Calcium Cell membrane Ion channel Ion transport Membrane Metal-binding Potassium Potassium transport Reference proteome Transmembrane Transmembrane helix Transport
|
MVLVIEIIRK
|
MVLVIEIIRKHLPRVLKVPATRILLLVLAVIIYGTAGFHFIEGESWTVSLYWTFVTIATVGYGDYSPSTPLGMYFTVTLIVLGIGTFAVAVERLLEFLINREQMKLMGLIDVAKSRHVVICGWSESTLECLRELRGSEVFVLAEDENVRKKVLRSGANFVHGDPTRVSDLEKANVRGARAVIVDLESDSETIHCILGIRKIDESVRIIAEAERYENIEQLRMAGADQVISPFVISGRLMSRSIDDGYEAMFVQDVLAEESTRRMVEVPIPEGSKLEGVSVLDADIHDVTGVIIIGVGRGDELIIDPPRDYSFRAGDIILGIGKPEEIERLKNYISA
|
potassium ion transport plasma membrane identical protein binding metal ion binding monoatomic cation transmembrane transporter activity Methanothermobacter thermautotrophicus 3D-structure Alternative initiation Calcium Cell membrane Ion channel Ion transport Membrane Metal-binding Potassium Potassium transport Reference proteome Transmembrane Transmembrane helix Transport MVLVIEIIRK MVLVIEIIRKHLPRVLKVPATRILLLVLAVIIYGTAGFHFIEGESWTVSLYWTFVTIATVGYGDYSPSTPLGMYFTVTLIVLGIGTFAVAVERLLEFLINREQMKLMGLIDVAKSRHVVICGWSESTLECLRELRGSEVFVLAEDENVRKKVLRSGANFVHGDPTRVSDLEKANVRGARAVIVDLESDSETIHCILGIRKIDESVRIIAEAERYENIEQLRMAGADQVISPFVISGRLMSRSIDDGYEAMFVQDVLAEESTRRMVEVPIPEGSKLEGVSVLDADIHDVTGVIIIGVGRGDELIIDPPRDYSFRAGDIILGIGKPEEIERLKNYISA
|
tRNA wobble cytosine modification
|
cytoplasm
|
ATP binding ligase activity, forming carbon-nitrogen bonds nucleic acid binding
|
Archaeoglobus fulgidus
|
3D-structure ATP-binding Cytoplasm Ligase Nucleotide-binding Reference proteome tRNA processing
|
MRVWVGIDDT
|
MRVWVGIDDTDSSRGMCTTYLAVLAMERVERELGKVIGFPRLIRLNPTIPYKTRGNGAVSFLVEVDDVGELVDVVNEVIIEHAMLDDEKTNPGAVFVDEELAVKLKPFADKAIKDVLQIDEALFVIGKYFIPHLRHKKGRGLIGALAAVGAELEDFTLELIAYRYPERFGTEREYDEESFFDMDYELYPQTFDNVDWCNDVVVCIPNTPCPVLYGIRGESVEALYKAMESVKTEPVDRRMIFVTNHATDMHLIGEEEVHRLENYRSYRLRGRVTLEPYDIEGGHVFFEIDTKFGSVKCAAFEPTKQFRNVIRLLRKGDVVEVYGSMKKDTINLEKIQIVELAEIWVEKNPICPSCGRRMESAGRGQGFRCKKCRTKADEKLREKVERELQPGFYEVPPSARRHLSKPLIRMNVEGRHIFR
|
tRNA wobble cytosine modification cytoplasm ATP binding ligase activity, forming carbon-nitrogen bonds nucleic acid binding Archaeoglobus fulgidus 3D-structure ATP-binding Cytoplasm Ligase Nucleotide-binding Reference proteome tRNA processing MRVWVGIDDT MRVWVGIDDTDSSRGMCTTYLAVLAMERVERELGKVIGFPRLIRLNPTIPYKTRGNGAVSFLVEVDDVGELVDVVNEVIIEHAMLDDEKTNPGAVFVDEELAVKLKPFADKAIKDVLQIDEALFVIGKYFIPHLRHKKGRGLIGALAAVGAELEDFTLELIAYRYPERFGTEREYDEESFFDMDYELYPQTFDNVDWCNDVVVCIPNTPCPVLYGIRGESVEALYKAMESVKTEPVDRRMIFVTNHATDMHLIGEEEVHRLENYRSYRLRGRVTLEPYDIEGGHVFFEIDTKFGSVKCAAFEPTKQFRNVIRLLRKGDVVEVYGSMKKDTINLEKIQIVELAEIWVEKNPICPSCGRRMESAGRGQGFRCKKCRTKADEKLREKVERELQPGFYEVPPSARRHLSKPLIRMNVEGRHIFR
|
alanyl-tRNA aminoacylation
|
cytoplasm
|
alanine-tRNA ligase activity aminoacyl-tRNA editing activity ATP binding identical protein binding tRNA binding zinc ion binding
|
Archaeoglobus fulgidus
|
3D-structure Aminoacyl-tRNA synthetase ATP-binding Cytoplasm Ligase Metal-binding Nucleotide-binding Protein biosynthesis Reference proteome RNA-binding tRNA-binding Zinc
|
MTLDEEYLDI
|
MTLDEEYLDITFLTENGFVRKRCPKCGKHFWTADPEREICGDPPCESYSFIGNPVFKKPFELDEMREYYLNFFERRGHGRIERYPVVARWRTDIYLTIASIADFQPFVTSGVAPPPANPLTISQPCIRLDDLDSVGRTGRHLTLFEMMAHHAFNYPGKEIYWKNETVAYCTELLNELGVKKEDIVYKEEPWAGGGNAGPCLEAIVGGLEVATLVFMNLEEHPEGDIEIKGARYRKMDNYIVDTGYGLERFVWASKGTPTVYDAIFPEVVDTIIDNSNVSFNREDERVRRIVAESSKLAGIMGELRGERLNQLRKSVADTVGVSVEELEGIVVPLEKVYSLADHTRCILFMLGDGLVPSNAGAGYLARLMIRRSLRLAEELELGLDLYDLVEMHKKILGFEFDVPLSTVQEILELEKERYRTTVSKGTRLVERLVERKKKLEKDDLIELYDSHGIPVELAVGIAAEKGAEVEMPKDIYAELAKRHSKAEKVQEKKITLQNEYPATEKLYYDDPTLLEFEAEVIGVEGDFVILNRSAFYPESGGQDNDVGYLIANGGKFEVVDVLEADGVVLHVVKGAKPEVGTKVKGVIDSDVRWRHMRHHSATHVLLYSLQKVLGNHVWQAGARKEFSKARLDVTHFRRPSEEEIKEIEMLANREILANKPIKWEWMDRIEAERKFGFRLYQGGVPPGRKIRVVQVGDDVQACGGTHCRSTGEIGMLKILKVESIQDGVIRFEFAAGEAAIEAVEEMERLLREASSILRVEPAKLPKTVERFFEEWKDQRKEIERLKSVIADLWADILMERAEEFDSMKVVAEVVDADMQALQKLAERLAEKGAVGCLMAKGEGKVFVVTFSGQKYDARELLREIGRVAKGSGGGRKDVAQGAVQQLLDREEMLDVIFRFLSEHEG
|
alanyl-tRNA aminoacylation cytoplasm alanine-tRNA ligase activity aminoacyl-tRNA editing activity ATP binding identical protein binding tRNA binding zinc ion binding Archaeoglobus fulgidus 3D-structure Aminoacyl-tRNA synthetase ATP-binding Cytoplasm Ligase Metal-binding Nucleotide-binding Protein biosynthesis Reference proteome RNA-binding tRNA-binding Zinc MTLDEEYLDI MTLDEEYLDITFLTENGFVRKRCPKCGKHFWTADPEREICGDPPCESYSFIGNPVFKKPFELDEMREYYLNFFERRGHGRIERYPVVARWRTDIYLTIASIADFQPFVTSGVAPPPANPLTISQPCIRLDDLDSVGRTGRHLTLFEMMAHHAFNYPGKEIYWKNETVAYCTELLNELGVKKEDIVYKEEPWAGGGNAGPCLEAIVGGLEVATLVFMNLEEHPEGDIEIKGARYRKMDNYIVDTGYGLERFVWASKGTPTVYDAIFPEVVDTIIDNSNVSFNREDERVRRIVAESSKLAGIMGELRGERLNQLRKSVADTVGVSVEELEGIVVPLEKVYSLADHTRCILFMLGDGLVPSNAGAGYLARLMIRRSLRLAEELELGLDLYDLVEMHKKILGFEFDVPLSTVQEILELEKERYRTTVSKGTRLVERLVERKKKLEKDDLIELYDSHGIPVELAVGIAAEKGAEVEMPKDIYAELAKRHSKAEKVQEKKITLQNEYPATEKLYYDDPTLLEFEAEVIGVEGDFVILNRSAFYPESGGQDNDVGYLIANGGKFEVVDVLEADGVVLHVVKGAKPEVGTKVKGVIDSDVRWRHMRHHSATHVLLYSLQKVLGNHVWQAGARKEFSKARLDVTHFRRPSEEEIKEIEMLANREILANKPIKWEWMDRIEAERKFGFRLYQGGVPPGRKIRVVQVGDDVQACGGTHCRSTGEIGMLKILKVESIQDGVIRFEFAAGEAAIEAVEEMERLLREASSILRVEPAKLPKTVERFFEEWKDQRKEIERLKSVIADLWADILMERAEEFDSMKVVAEVVDADMQALQKLAERLAEKGAVGCLMAKGEGKVFVVTFSGQKYDARELLREIGRVAKGSGGGRKDVAQGAVQQLLDREEMLDVIFRFLSEHEG
|
protein glycosylation
|
plasma membrane
|
metal ion binding oligosaccharyl transferase activity
|
Archaeoglobus fulgidus
|
3D-structure Cell membrane Glycosyltransferase Magnesium Manganese Membrane Metal-binding Reference proteome Transferase Transmembrane Transmembrane helix
|
MQNAESWFKK
|
MQNAESWFKKYWHLSVLVIAALISVKLRILNPWNSVFTWTVRLGGNDPWYYYRLIENTIHNFPHRIWFDPFTYYPYGSYTHFGPFLVYLGSIAGIIFSATSGESLRAVLAFIPAIGGVLAILPVYLLTREVFDKRAAVIAAFLIAIVPGQFLQRSILGFNDHHIWEAFWQVSALGTFLLAYNRWKGHDLSHNLTARQMAYPVIAGITIGLYVLSWGAGFIIAPIILAFMFFAFVLAGFVNADRKNLSLVAVVTFAVSALIYLPFAFNYPGFSTIFYSPFQLLVLLGSAVIAAAFYQIEKWNDVGFFERVGLGRKGMPLAVIVLTALIMGLFFVISPDFARNLLSVVRVVQPKGGALTIAEVYPFFFTHNGEFTLTNAVLHFGALFFFGMAGILYSAYRFLKRRSFPEMALLIWAIAMFIALWGQNRFAYYFAAVSAVYSALALSVVFDKLHLYRALENAIGARNKLSYFRVAFALLIALAAIYPTYILADAQSSYAGGPNKQWYDALTWMRENTPDGEKYDEYYLQLYPTPQSNKEPFSYPFETYGVISWWDYGHWIEAVAHRMPIANPFQAGIGNKYNNVPGASSFFTAENESYAEFVAEKLNVKYVVSDIEMETGKYYAMAVWAEGDLPLAEKYYGGYFYYSPTGTFGYANSQWDIPLNSIIIPLRIPSELYYSTMEAKLHLFDGSGLSHYRMIYESDYPAEWKSYSSQVNLNNESQVLQTALYEAVMRARYGVSPTMGTQEVLYKYAYTQLYEKKMGIPVKIAPSGYVKIFERVKGAVVTGKVSANVTEVSVNATIKTNQNRTFEYWQTVEVKNGTYTVVLPYSHNSDYPVKPITPYHIKAGNVVKEITIYESQVQNGEIIQLDL
|
protein glycosylation plasma membrane metal ion binding oligosaccharyl transferase activity Archaeoglobus fulgidus 3D-structure Cell membrane Glycosyltransferase Magnesium Manganese Membrane Metal-binding Reference proteome Transferase Transmembrane Transmembrane helix MQNAESWFKK MQNAESWFKKYWHLSVLVIAALISVKLRILNPWNSVFTWTVRLGGNDPWYYYRLIENTIHNFPHRIWFDPFTYYPYGSYTHFGPFLVYLGSIAGIIFSATSGESLRAVLAFIPAIGGVLAILPVYLLTREVFDKRAAVIAAFLIAIVPGQFLQRSILGFNDHHIWEAFWQVSALGTFLLAYNRWKGHDLSHNLTARQMAYPVIAGITIGLYVLSWGAGFIIAPIILAFMFFAFVLAGFVNADRKNLSLVAVVTFAVSALIYLPFAFNYPGFSTIFYSPFQLLVLLGSAVIAAAFYQIEKWNDVGFFERVGLGRKGMPLAVIVLTALIMGLFFVISPDFARNLLSVVRVVQPKGGALTIAEVYPFFFTHNGEFTLTNAVLHFGALFFFGMAGILYSAYRFLKRRSFPEMALLIWAIAMFIALWGQNRFAYYFAAVSAVYSALALSVVFDKLHLYRALENAIGARNKLSYFRVAFALLIALAAIYPTYILADAQSSYAGGPNKQWYDALTWMRENTPDGEKYDEYYLQLYPTPQSNKEPFSYPFETYGVISWWDYGHWIEAVAHRMPIANPFQAGIGNKYNNVPGASSFFTAENESYAEFVAEKLNVKYVVSDIEMETGKYYAMAVWAEGDLPLAEKYYGGYFYYSPTGTFGYANSQWDIPLNSIIIPLRIPSELYYSTMEAKLHLFDGSGLSHYRMIYESDYPAEWKSYSSQVNLNNESQVLQTALYEAVMRARYGVSPTMGTQEVLYKYAYTQLYEKKMGIPVKIAPSGYVKIFERVKGAVVTGKVSANVTEVSVNATIKTNQNRTFEYWQTVEVKNGTYTVVLPYSHNSDYPVKPITPYHIKAGNVVKEITIYESQVQNGEIIQLDL
|
phospholipid biosynthetic process
|
membrane
|
metal ion binding nucleotidyltransferase activity phosphotransferase activity, for other substituted phosphate groups
|
Archaeoglobus fulgidus
|
3D-structure Magnesium Membrane Metal-binding Multifunctional enzyme Reference proteome Transferase Transmembrane Transmembrane helix
|
MILPCESFNG
|
MILPCESFNGVPSGCLIIEMNWYSVLKASTAIFFPEKYSSSTSSLSKRSPISAPMINVDGEYLKIFAGRIKLMKAVILAAGLGTRLGGVPKPLVRVGGCEIILRTMKLLSPHVSEFIIVASRYADDIDAFLKDKGFNYKIVRHDRPEKGNGYSLLVAKNHVEDRFILTMGDHVYSQQFIEKAVRGEGVIADREPRFVDIGEATKIRVEDGRVAKIGKDLREFDCVDTGFFVLDDSIFEHAEKLRDREEIPLSEIVKLARLPVTYVDGELWMDVDTKEDVRRANRALVSAAVKGSGDGFISRKINRKISTRISAAIVNKVNPNQMTLISFLVGAFSALASFFSIPLAGLLYQFSSILDGCDGEIARASLKMSKKGGYVDSILDRFVDFLFLAIIALLYPKTATVAMFAIFGSVMVSYTSEKYKAEFGESIFGKFRVLNYIPGKRDERIFLIMIFCLLSAISLQWIFWMFLFVAAISLTRVVVTLLAVLVSK
|
phospholipid biosynthetic process membrane metal ion binding nucleotidyltransferase activity phosphotransferase activity, for other substituted phosphate groups Archaeoglobus fulgidus 3D-structure Magnesium Membrane Metal-binding Multifunctional enzyme Reference proteome Transferase Transmembrane Transmembrane helix MILPCESFNG MILPCESFNGVPSGCLIIEMNWYSVLKASTAIFFPEKYSSSTSSLSKRSPISAPMINVDGEYLKIFAGRIKLMKAVILAAGLGTRLGGVPKPLVRVGGCEIILRTMKLLSPHVSEFIIVASRYADDIDAFLKDKGFNYKIVRHDRPEKGNGYSLLVAKNHVEDRFILTMGDHVYSQQFIEKAVRGEGVIADREPRFVDIGEATKIRVEDGRVAKIGKDLREFDCVDTGFFVLDDSIFEHAEKLRDREEIPLSEIVKLARLPVTYVDGELWMDVDTKEDVRRANRALVSAAVKGSGDGFISRKINRKISTRISAAIVNKVNPNQMTLISFLVGAFSALASFFSIPLAGLLYQFSSILDGCDGEIARASLKMSKKGGYVDSILDRFVDFLFLAIIALLYPKTATVAMFAIFGSVMVSYTSEKYKAEFGESIFGKFRVLNYIPGKRDERIFLIMIFCLLSAISLQWIFWMFLFVAAISLTRVVVTLLAVLVSK
|
arginine biosynthetic process arginine catabolic process arginine catabolic process to succinate
|
cytoplasm
|
identical protein binding N2-acetyl-L-ornithine:2-oxoglutarate 5-aminotransferase activity pyridoxal phosphate binding succinylornithine transaminase activity
|
Pseudomonas aeruginosa
|
Amino-acid biosynthesis Aminotransferase Arginine biosynthesis Arginine metabolism Cytoplasm Pyridoxal phosphate Reference proteome Transferase
|
MSAPHAQVER
|
MSAPHAQVERADFDRYMVPNYAPAAFIPVRGEGSRVWDQSGRELIDFAGGIAVTSLGHAHPALVKALTEQAQRIWHVSNVFTNEPALRLARKLVDATFAERVFLANSGAEANEAAFKLARRYANDVYGPQKYEIIAASNSFHGRTLFTVNVGGQPKYSDGFGPKFEGITHVPYNDLEALKAAISDKTCAVVLEPIQGEGGVLPAQQAYLEGARKLCDEHNALLVFDEVQSGMGRVGELFAYMHYGVVPDILSSAKSLGGGFPIGAMLTTGEIAKHLSVGTHGTTYGGNPLASAVAEAALDVINTPEVLDGVKAKHERFKSRLQKIGQEYGIFDEIRGMGLLIGAALTDEWKGKARDVLNAAEKEAVMVLQASPDVVRFAPSLVIDDAEIDEGLERFERAVAKLVRG
|
arginine biosynthetic process arginine catabolic process arginine catabolic process to succinate cytoplasm identical protein binding N2-acetyl-L-ornithine:2-oxoglutarate 5-aminotransferase activity pyridoxal phosphate binding succinylornithine transaminase activity Pseudomonas aeruginosa Amino-acid biosynthesis Aminotransferase Arginine biosynthesis Arginine metabolism Cytoplasm Pyridoxal phosphate Reference proteome Transferase MSAPHAQVER MSAPHAQVERADFDRYMVPNYAPAAFIPVRGEGSRVWDQSGRELIDFAGGIAVTSLGHAHPALVKALTEQAQRIWHVSNVFTNEPALRLARKLVDATFAERVFLANSGAEANEAAFKLARRYANDVYGPQKYEIIAASNSFHGRTLFTVNVGGQPKYSDGFGPKFEGITHVPYNDLEALKAAISDKTCAVVLEPIQGEGGVLPAQQAYLEGARKLCDEHNALLVFDEVQSGMGRVGELFAYMHYGVVPDILSSAKSLGGGFPIGAMLTTGEIAKHLSVGTHGTTYGGNPLASAVAEAALDVINTPEVLDGVKAKHERFKSRLQKIGQEYGIFDEIRGMGLLIGAALTDEWKGKARDVLNAAEKEAVMVLQASPDVVRFAPSLVIDDAEIDEGLERFERAVAKLVRG
|
fucosylation lipopolysaccharide biosynthetic process protein glycosylation
|
cytoplasm; membrane
|
4-galactosyl-N-acetylglucosaminide 3-alpha-L-fucosyltransferase activity fucose binding identical protein binding
|
Helicobacter pylori
|
3D-structure Cytoplasm Glycosyltransferase Lipopolysaccharide biosynthesis Membrane Repeat Transferase
|
MFQPLLDAYV
|
MFQPLLDAYVESASIEKMASKSPPPLKIAVANWWGDEEIKEFKNSVLYFILSQRYTITLHQNPNEFSDLVFGNPLGSARKILSYQNAKRVFYTGENESPNFNLFDYAIGFDELDFNDRYLRMPLYYDRLHHKAESVNDTTAPYKLKDNSLYALKKPSHCFKEKHPNLCAVVNDESDPLKRGFASFVASNPNAPIRNAFYDALNSIEPVTGGGSVRNTLGYNVKNKNEFLSQYKFNLCFENTQGYGYVTEKIIDAYFSHTIPIYWGSPSVAKDFNPKSFVNVHDFKNFDEAIDYIKYLHTHKNAYLDMLYENPLNTLDGKAYFYQNLSFKKILAFFKTILENDTIYHDNPFIFCRDLNEPLVTIDDLRVNYDDLRVNYDDLRINYDDLRVNYDDLRINYDDLRVNYDDLRVNYDDLRINYDDLRVNYDDLRVNYERLLSKATPLLELSQNTTSKIYRKAYQKSLPLLRAIRRWVKKLGL
|
fucosylation lipopolysaccharide biosynthetic process protein glycosylation cytoplasm; membrane 4-galactosyl-N-acetylglucosaminide 3-alpha-L-fucosyltransferase activity fucose binding identical protein binding Helicobacter pylori 3D-structure Cytoplasm Glycosyltransferase Lipopolysaccharide biosynthesis Membrane Repeat Transferase MFQPLLDAYV MFQPLLDAYVESASIEKMASKSPPPLKIAVANWWGDEEIKEFKNSVLYFILSQRYTITLHQNPNEFSDLVFGNPLGSARKILSYQNAKRVFYTGENESPNFNLFDYAIGFDELDFNDRYLRMPLYYDRLHHKAESVNDTTAPYKLKDNSLYALKKPSHCFKEKHPNLCAVVNDESDPLKRGFASFVASNPNAPIRNAFYDALNSIEPVTGGGSVRNTLGYNVKNKNEFLSQYKFNLCFENTQGYGYVTEKIIDAYFSHTIPIYWGSPSVAKDFNPKSFVNVHDFKNFDEAIDYIKYLHTHKNAYLDMLYENPLNTLDGKAYFYQNLSFKKILAFFKTILENDTIYHDNPFIFCRDLNEPLVTIDDLRVNYDDLRVNYDDLRINYDDLRVNYDDLRINYDDLRVNYDDLRVNYDDLRINYDDLRVNYDDLRVNYERLLSKATPLLELSQNTTSKIYRKAYQKSLPLLRAIRRWVKKLGL
|
negative regulation of cell growth negative regulation of signaling positive regulation of DNA replication regulation of protein kinase activity
|
cell periphery; symbiont-containing vacuole
|
lipid phosphatase activity molecular function activator activity
|
Salmonella typhimurium
|
3D-structure Hydrolase Reference proteome Secreted Virulence
|
MQIQSFYHSA
|
MQIQSFYHSASLKTQEAFKSLQKTLYNGMQILSGQGKAPAKAPDARPEIIVLREPGATWGNYLQHQKASNHSLHNLYNLQRDLLTVAATVLGKQDPVLTSMANQMELAKVKADRPATKQEEAAAKALKKNLIELIAARTQQQDGLPAKEAHRFAAVAFRDAQVKQLNNQPWQTIKNTLTHNGHHYTNTQLPAAEMKIGAKDIFPSAYEGKGVCSWDTKNIHHANNLWMSTVSVHEDGKDKTLFCGIRHGVLSPYHEKDPLLRHVGAENKAKEVLTAALFSKPELLNKALAGEAVSLKLVSVGLLTASNIFGKEGTMVEDQMRAWQSLTQPGKMIHLKIRNKDGDLQTVKIKPDVAAFNVGVNELALKLGFGLKASDSYNAEALHQLLGNDLRPEARPGGWVGEWLAQYPDNYEVVNTLARQIKDIWKNNQHHKDGGEPYKLAQRLAMLAHEIDAVPAWNCKSGKDRTGMMDSEIKREIISLHQTHMLSAPGSLPDSGGQKIFQKVLLNSGNLEIQKQNTGGAGNKVMKNLSPEVLNLSYQKRVGDENIWQSVKGISSLITS
|
negative regulation of cell growth negative regulation of signaling positive regulation of DNA replication regulation of protein kinase activity cell periphery; symbiont-containing vacuole lipid phosphatase activity molecular function activator activity Salmonella typhimurium 3D-structure Hydrolase Reference proteome Secreted Virulence MQIQSFYHSA MQIQSFYHSASLKTQEAFKSLQKTLYNGMQILSGQGKAPAKAPDARPEIIVLREPGATWGNYLQHQKASNHSLHNLYNLQRDLLTVAATVLGKQDPVLTSMANQMELAKVKADRPATKQEEAAAKALKKNLIELIAARTQQQDGLPAKEAHRFAAVAFRDAQVKQLNNQPWQTIKNTLTHNGHHYTNTQLPAAEMKIGAKDIFPSAYEGKGVCSWDTKNIHHANNLWMSTVSVHEDGKDKTLFCGIRHGVLSPYHEKDPLLRHVGAENKAKEVLTAALFSKPELLNKALAGEAVSLKLVSVGLLTASNIFGKEGTMVEDQMRAWQSLTQPGKMIHLKIRNKDGDLQTVKIKPDVAAFNVGVNELALKLGFGLKASDSYNAEALHQLLGNDLRPEARPGGWVGEWLAQYPDNYEVVNTLARQIKDIWKNNQHHKDGGEPYKLAQRLAMLAHEIDAVPAWNCKSGKDRTGMMDSEIKREIISLHQTHMLSAPGSLPDSGGQKIFQKVLLNSGNLEIQKQNTGGAGNKVMKNLSPEVLNLSYQKRVGDENIWQSVKGISSLITS
|
propanediol catabolic process
|
propanediol degradation polyhedral organelle
|
cobalamin binding propanediol dehydratase activity
|
Salmonella typhimurium
|
Bacterial microcompartment Cobalamin Cobalt Lyase Reference proteome
|
MEINEKLLRQ
|
MEINEKLLRQIIEDVLRDMKGSDKPVSFNAPAASTAPQTAAPAGDGFLTEVGEARQGTQQDEVIIAVGPAFGLAQTVNIVGLPHKSILREVIAGIEEEGIKARVIRCFKSSDVAFVAVEGNRLSGSGISIGIQSKGTTVIHQQGLPPLSNLELFPQAPLLTLETYRQIGKNAARYAKRESPQPVPTLNDQMARPKYQAKSAILHIKETKYVVTGKNPQELRVAL
|
propanediol catabolic process propanediol degradation polyhedral organelle cobalamin binding propanediol dehydratase activity Salmonella typhimurium Bacterial microcompartment Cobalamin Cobalt Lyase Reference proteome MEINEKLLRQ MEINEKLLRQIIEDVLRDMKGSDKPVSFNAPAASTAPQTAAPAGDGFLTEVGEARQGTQQDEVIIAVGPAFGLAQTVNIVGLPHKSILREVIAGIEEEGIKARVIRCFKSSDVAFVAVEGNRLSGSGISIGIQSKGTTVIHQQGLPPLSNLELFPQAPLLTLETYRQIGKNAARYAKRESPQPVPTLNDQMARPKYQAKSAILHIKETKYVVTGKNPQELRVAL
|
propanediol catabolic process
|
propanediol degradation polyhedral organelle
|
cobalamin binding propanediol dehydratase activity
|
Salmonella typhimurium
|
Bacterial microcompartment Cobalamin Cobalt Direct protein sequencing Lyase Reference proteome
|
MNTDAIESMV
|
MNTDAIESMVRDVLSRMNSLQGDAPAAAPAAGGTSRSAKVSDYPLANKHPEWVKTATNKTLDDFTLENVLSNKVTAQDMRITPETLRLQASIAKDAGRDRLAMNFERAAELTAVPDDRILEIYNALRPYRSTKEELLAIADDLENRYQAKICAAFVREAAGLYVERKKLKGDD
|
propanediol catabolic process propanediol degradation polyhedral organelle cobalamin binding propanediol dehydratase activity Salmonella typhimurium Bacterial microcompartment Cobalamin Cobalt Direct protein sequencing Lyase Reference proteome MNTDAIESMV MNTDAIESMVRDVLSRMNSLQGDAPAAAPAAGGTSRSAKVSDYPLANKHPEWVKTATNKTLDDFTLENVLSNKVTAQDMRITPETLRLQASIAKDAGRDRLAMNFERAAELTAVPDDRILEIYNALRPYRSTKEELLAIADDLENRYQAKICAAFVREAAGLYVERKKLKGDD
|
cellular response to heat protein quality control for misfolded or incompletely synthesized proteins
|
cytoplasm
|
ATP binding ATP hydrolysis activity ATP-dependent peptidase activity sequence-specific DNA binding serine-type endopeptidase activity
|
Mycolicibacterium smegmatis
|
ATP-binding Cytoplasm Hydrolase Nucleotide-binding Protease Serine protease Stress response
|
MAEAKTVPVL
|
MAEAKTVPVLFLNDSIVLPGMVVPIELDDAARAAVDAARASESGELLIAPRLEDRYPAYGVLASIVQIGRLPNGDAAAVVRGERRAHIGSGTSGPGAALWVQVEEVTDPEPTDETKKLAGEYKKLLLAMLQRRDAWQIVDMVNKITDPSALADTAGYASYLTGTQKRELLETTDVDRRLSLLIGWTGDHLAETEVNDKIAEDVRTGMEKQQKEFLLRQQLAAIRKELGELDDNGDGSSDDYRARIEQADLPEKVREAALREVGKLERASDQSPEGGWIRTWLDTVLDLPWNVRTEDSTDLARAREILDTDHHGLSDVKDRIVEYLAVRGAAPQRGMAVVGGRGSGAVMVLAGPPGVGKTSLGESVARALDRKFVRVALGGVRDEAEIRGHRRTYVGALPGRIVRAIGEAGSMNPVVLLDEIDKVGSDYRGDPAAALLEVLDPAQNHTFRDHYLDLDLDLSDVVFLVTANVIENIPSALLDRMELVEIDGYTADDKLAIAQGFLLPRQRERGGLTSDEVTVTEAALRKIAADYTREPGVRQFERLLAKAMRKAATKLADHPQAAPITIDEPDLVEYLGRPRFLPESAERTAVPGVATGLAVTGLGGDVLYIEANSTEGEPGLQLTGQLGDVMKESAQIAMSYVRAHAKQLGVDPEALNRRIHIHVPAGAVPKDGPSAGVTMVTALVSMATGRKVRGDVGMTGEVTLNGRVLPIGGVKQKLLAAQRAGLSTVFIPQRNQPDLDDVPADVLDALDVRPMTDVADIIAAALEPAHEASTAAAA
|
cellular response to heat protein quality control for misfolded or incompletely synthesized proteins cytoplasm ATP binding ATP hydrolysis activity ATP-dependent peptidase activity sequence-specific DNA binding serine-type endopeptidase activity Mycolicibacterium smegmatis ATP-binding Cytoplasm Hydrolase Nucleotide-binding Protease Serine protease Stress response MAEAKTVPVL MAEAKTVPVLFLNDSIVLPGMVVPIELDDAARAAVDAARASESGELLIAPRLEDRYPAYGVLASIVQIGRLPNGDAAAVVRGERRAHIGSGTSGPGAALWVQVEEVTDPEPTDETKKLAGEYKKLLLAMLQRRDAWQIVDMVNKITDPSALADTAGYASYLTGTQKRELLETTDVDRRLSLLIGWTGDHLAETEVNDKIAEDVRTGMEKQQKEFLLRQQLAAIRKELGELDDNGDGSSDDYRARIEQADLPEKVREAALREVGKLERASDQSPEGGWIRTWLDTVLDLPWNVRTEDSTDLARAREILDTDHHGLSDVKDRIVEYLAVRGAAPQRGMAVVGGRGSGAVMVLAGPPGVGKTSLGESVARALDRKFVRVALGGVRDEAEIRGHRRTYVGALPGRIVRAIGEAGSMNPVVLLDEIDKVGSDYRGDPAAALLEVLDPAQNHTFRDHYLDLDLDLSDVVFLVTANVIENIPSALLDRMELVEIDGYTADDKLAIAQGFLLPRQRERGGLTSDEVTVTEAALRKIAADYTREPGVRQFERLLAKAMRKAATKLADHPQAAPITIDEPDLVEYLGRPRFLPESAERTAVPGVATGLAVTGLGGDVLYIEANSTEGEPGLQLTGQLGDVMKESAQIAMSYVRAHAKQLGVDPEALNRRIHIHVPAGAVPKDGPSAGVTMVTALVSMATGRKVRGDVGMTGEVTLNGRVLPIGGVKQKLLAAQRAGLSTVFIPQRNQPDLDDVPADVLDALDVRPMTDVADIIAAALEPAHEASTAAAA
|
cluster assembly tRNA processing
|
cytoplasm
|
2 iron, 2 sulfur cluster binding cysteine desulfurase activity metal ion binding pyridoxal phosphate binding
|
Azotobacter vinelandii
|
2Fe-2S Cytoplasm Direct protein sequencing Iron Iron-sulfur Metal-binding Pyridoxal phosphate Transferase tRNA processing
|
MKLPIYLDYS
|
MKLPIYLDYSATTPVDPRVAQKMCECLTMEGNFGNPASRSHVFGWKAEEAVENARRQVAELVNADPREIVWTSGATESDNLAIKGVAHFNASKGKHIITSKIEHKAVLDTTRQLEREGFEVTYLEPGEDGLITPAMVAAALREDTILVSVMHVNNEIGTVNDIAAIGELTRSRGVLYHVDAAQSTGKVAIDLERMKVDLMSFSAHKTYGPKGIGALYVRRKPRVRLEAQMHGGGHERGMRSGTLATHQIVGMGEAFRIAREEMAAESRRIAGLSHRFHEQVSTLEEVYLNGSATARVPHNLNLSFNYVEGESLIMSLRDLAVSSGSACTSASLEPSYVLRALGRNDELAHSSIRFTFGRFTTEEEVDYAARKVCEAVGKLRELSPLWDMYKDGVDLSKIEWQAH
|
cluster assembly tRNA processing cytoplasm 2 iron, 2 sulfur cluster binding cysteine desulfurase activity metal ion binding pyridoxal phosphate binding Azotobacter vinelandii2Fe-2S Cytoplasm Direct protein sequencing Iron Iron-sulfur Metal-binding Pyridoxal phosphate Transferase tRNA processing MKLPIYLDYS MKLPIYLDYSATTPVDPRVAQKMCECLTMEGNFGNPASRSHVFGWKAEEAVENARRQVAELVNADPREIVWTSGATESDNLAIKGVAHFNASKGKHIITSKIEHKAVLDTTRQLEREGFEVTYLEPGEDGLITPAMVAAALREDTILVSVMHVNNEIGTVNDIAAIGELTRSRGVLYHVDAAQSTGKVAIDLERMKVDLMSFSAHKTYGPKGIGALYVRRKPRVRLEAQMHGGGHERGMRSGTLATHQIVGMGEAFRIAREEMAAESRRIAGLSHRFHEQVSTLEEVYLNGSATARVPHNLNLSFNYVEGESLIMSLRDLAVSSGSACTSASLEPSYVLRALGRNDELAHSSIRFTFGRFTTEEEVDYAARKVCEAVGKLRELSPLWDMYKDGVDLSKIEWQAH
|
cell wall organization
|
extracellular region
|
metal ion binding rhamnogalacturonan endolyase activity
|
Bacillus subtilis
|
3D-structure Calcium Cell wall biogenesis/degradation Direct protein sequencing Lyase Metal-binding Reference proteome Secreted Signal
|
MRRSCLMIRR
|
MRRSCLMIRRRKRMFTAVTLLVLLVMGTSVCPVKAEGAARQMEALNRGLVAVKTDGGIFVSWRFLGTENASVLFNVYRDGQKLNAAPVKTTNYVDKNGSAGSTYTVRAVVNGTEQPASEKASVWAQPYHSVPLDKPAGGTTPKGESYTYSANDASVGDVDGDGQYELILKWDPSNSKDNSQDGYTGDVLIDAYKLDGTKLWRINLGKNIRAGAHYTQFMVYDLDGDGKAEVAMKTADGTKDGTGKVIGNANADYRNEQGRVLSGPEYLTVFQGSTGKELVTANFEPARGNVSDWGDSYGNRVDRFLAGIAYLDGQRPSLIMTRGYYAKTMLVAYNFRDGKLSKLWTLDSSKSGNEAFAGQGNHNLSIADVDGDGKDEIIFGSMAVDHDGKGMYSTGLGHGDALHTGDLDPGRPGLEVFQVHEDKNAKYGLSFRDAATGKILWGVYAGKDVGRGMAADIDPRYPGQEVWANGSLYSAKGVKIGSGVPSSTNFGIWWDGDLLREQLDSNRIDKWDYQNGVSKNMLTASGAAANNGTKATPTLQADLLGDWREEVVWRTEDSSALRIYTTTIPTEHRLYTLMHDPVYRLGIAWQNIAYNQPPHTSFFLGDGMAEQPKPNMYTP
|
cell wall organization extracellular region metal ion binding rhamnogalacturonan endolyase activity Bacillus subtilis 3D-structure Calcium Cell wall biogenesis/degradation Direct protein sequencing Lyase Metal-binding Reference proteome Secreted Signal MRRSCLMIRR MRRSCLMIRRRKRMFTAVTLLVLLVMGTSVCPVKAEGAARQMEALNRGLVAVKTDGGIFVSWRFLGTENASVLFNVYRDGQKLNAAPVKTTNYVDKNGSAGSTYTVRAVVNGTEQPASEKASVWAQPYHSVPLDKPAGGTTPKGESYTYSANDASVGDVDGDGQYELILKWDPSNSKDNSQDGYTGDVLIDAYKLDGTKLWRINLGKNIRAGAHYTQFMVYDLDGDGKAEVAMKTADGTKDGTGKVIGNANADYRNEQGRVLSGPEYLTVFQGSTGKELVTANFEPARGNVSDWGDSYGNRVDRFLAGIAYLDGQRPSLIMTRGYYAKTMLVAYNFRDGKLSKLWTLDSSKSGNEAFAGQGNHNLSIADVDGDGKDEIIFGSMAVDHDGKGMYSTGLGHGDALHTGDLDPGRPGLEVFQVHEDKNAKYGLSFRDAATGKILWGVYAGKDVGRGMAADIDPRYPGQEVWANGSLYSAKGVKIGSGVPSSTNFGIWWDGDLLREQLDSNRIDKWDYQNGVSKNMLTASGAAANNGTKATPTLQADLLGDWREEVVWRTEDSSALRIYTTTIPTEHRLYTLMHDPVYRLGIAWQNIAYNQPPHTSFFLGDGMAEQPKPNMYTP
|
cell wall organization
|
extracellular region
|
lyase activity metal ion binding
|
Bacillus subtilis
|
3D-structure Calcium Cell wall biogenesis/degradation Direct protein sequencing Lyase Metal-binding Reference proteome Repeat Secreted
|
MKPKKRQMEY
|
MKPKKRQMEYLTRGLIAVQTEQGVFVSWRFLGTDHETTAFHLYRDGKRITRDPIAESTNFLDQNGTADSVYQVAAVNKGREEKLSKKARVWQENVLEVPLAKPEGGVTPDGKPYTYSANDASVGDIDGDGEYEMILKWDPSNSKDNAHDGYTGEVLIDAYKLDGTFLWRINLGRNIRAGAHYTQFMVYDLDGDGKAEIAMKTADGTTDGKGHIIGDEQADFRNEQGRILSGPEYLTVFKGETGEALTTVEYEPPRGKLEDWGDGYGNRMDRFLAGTAYLDGERPSLVMARGYYTRTVLVAYDFRNGRLKKRWVFDSNQPGHEAYAGQGNHSLSVADVDGDGKDEIIYGAMAVDHDGTGLYSTGLGHGDAMHVGDLDPSRKGLEVFQVHEDATKPYGLSLRDAGTGEILWGVHAGTDVGRGMAAHIDPSYKGSLVWGIDPPGNDGMSYGLFTSKGEKISDKAPSSANFAIWWDGDLVRELLDHDWDGTIGRPKIEKWDAENGCLKTIFQPAGVLSNNGTKGNPVLQANLFGDWREEVIWRTEDSSALRIYTTTHLTRHCFYTLMHDPVYRLGIAWQNTAYNQPPHTSFYLGTGMKKPPKPALYIAGSKAEAPL
|
cell wall organization extracellular region lyase activity metal ion binding Bacillus subtilis 3D-structure Calcium Cell wall biogenesis/degradation Direct protein sequencing Lyase Metal-binding Reference proteome Repeat Secreted MKPKKRQMEY MKPKKRQMEYLTRGLIAVQTEQGVFVSWRFLGTDHETTAFHLYRDGKRITRDPIAESTNFLDQNGTADSVYQVAAVNKGREEKLSKKARVWQENVLEVPLAKPEGGVTPDGKPYTYSANDASVGDIDGDGEYEMILKWDPSNSKDNAHDGYTGEVLIDAYKLDGTFLWRINLGRNIRAGAHYTQFMVYDLDGDGKAEIAMKTADGTTDGKGHIIGDEQADFRNEQGRILSGPEYLTVFKGETGEALTTVEYEPPRGKLEDWGDGYGNRMDRFLAGTAYLDGERPSLVMARGYYTRTVLVAYDFRNGRLKKRWVFDSNQPGHEAYAGQGNHSLSVADVDGDGKDEIIYGAMAVDHDGTGLYSTGLGHGDAMHVGDLDPSRKGLEVFQVHEDATKPYGLSLRDAGTGEILWGVHAGTDVGRGMAAHIDPSYKGSLVWGIDPPGNDGMSYGLFTSKGEKISDKAPSSANFAIWWDGDLVRELLDHDWDGTIGRPKIEKWDAENGCLKTIFQPAGVLSNNGTKGNPVLQANLFGDWREEVIWRTEDSSALRIYTTTHLTRHCFYTLMHDPVYRLGIAWQNTAYNQPPHTSFYLGTGMKKPPKPALYIAGSKAEAPL
|
NAD metabolic process NADP biosynthetic process phosphorylation
|
cytoplasm
|
ATP binding metal ion binding NAD binding NAD+ kinase activity
|
Bacillus subtilis
|
ATP-binding Cytoplasm Direct protein sequencing Kinase NAD NADP Nucleotide-binding Reference proteome Transferase
|
MKFAVSSKGD
|
MKFAVSSKGDQVSDTLKSKIQAYLLDFDMELDENEPEIVISVGGDGTLLYAFHRYSDRLDKTAFVGVHTGHLGFYADWVPHEIEKLVLAIAKTPYHTVEYPLLEVIVTYHENEREERYLALNECTIKSIEGSLVADVEIKGQLFETFRGDGLCLSTPSGSTAYNKALGGAIIHPSIRAIQLAEMASINNRVFRTVGSPLLLPSHHDCMIKPRNEVDFQVTIDHLTLLHKDVKSIRCQVASEKVRFARFRPFPFWKRVQDSFIGKGE
|
NAD metabolic process NADP biosynthetic process phosphorylation cytoplasm ATP binding metal ion binding NAD binding NAD+ kinase activity Bacillus subtilis ATP-binding Cytoplasm Direct protein sequencing Kinase NAD NADP Nucleotide-binding Reference proteome Transferase MKFAVSSKGD MKFAVSSKGDQVSDTLKSKIQAYLLDFDMELDENEPEIVISVGGDGTLLYAFHRYSDRLDKTAFVGVHTGHLGFYADWVPHEIEKLVLAIAKTPYHTVEYPLLEVIVTYHENEREERYLALNECTIKSIEGSLVADVEIKGQLFETFRGDGLCLSTPSGSTAYNKALGGAIIHPSIRAIQLAEMASINNRVFRTVGSPLLLPSHHDCMIKPRNEVDFQVTIDHLTLLHKDVKSIRCQVASEKVRFARFRPFPFWKRVQDSFIGKGE
|
amino acid metabolic process response to herbicide thiamine biosynthetic process thiamine diphosphate biosynthetic process
|
cytoplasm
|
FAD binding glycine oxidase activity oxidoreductase activity
|
Bacillus subtilis
|
3D-structure Cytoplasm FAD Flavoprotein Herbicide resistance Oxidoreductase Reference proteome Thiamine biosynthesis
|
MKRHYEAVVI
|
MKRHYEAVVIGGGIIGSAIAYYLAKENKNTALFESGTMGGRTTSAAAGMLGAHAECEERDAFFDFAMHSQRLYKGLGEELYALSGVDIRQHNGGMFKLAFSEEDVLQLRQMDDLDSVSWYSKEEVLEKEPYASGDIFGASFIQDDVHVEPYFVCKAYVKAAKMLGAEIFEHTPVLHVERDGEALFIKTPSGDVWANHVVVASGVWSGMFFKQLGLNNAFLPVKGECLSVWNDDIPLTKTLYHDHCYIVPRKSGRLVVGATMKPGDWSETPDLGGLESVMKKAKTMLPAIQNMKVDRFWAGLRPGTKDGKPYIGRHPEDSRILFAAGHFRNGILLAPATGALISDLIMNKEVNQDWLHAFRIDRKEAVQI
|
amino acid metabolic process response to herbicide thiamine biosynthetic process thiamine diphosphate biosynthetic process cytoplasm FAD binding glycine oxidase activity oxidoreductase activity Bacillus subtilis 3D-structure Cytoplasm FAD Flavoprotein Herbicide resistance Oxidoreductase Reference proteome Thiamine biosynthesis MKRHYEAVVI MKRHYEAVVIGGGIIGSAIAYYLAKENKNTALFESGTMGGRTTSAAAGMLGAHAECEERDAFFDFAMHSQRLYKGLGEELYALSGVDIRQHNGGMFKLAFSEEDVLQLRQMDDLDSVSWYSKEEVLEKEPYASGDIFGASFIQDDVHVEPYFVCKAYVKAAKMLGAEIFEHTPVLHVERDGEALFIKTPSGDVWANHVVVASGVWSGMFFKQLGLNNAFLPVKGECLSVWNDDIPLTKTLYHDHCYIVPRKSGRLVVGATMKPGDWSETPDLGGLESVMKKAKTMLPAIQNMKVDRFWAGLRPGTKDGKPYIGRHPEDSRILFAAGHFRNGILLAPATGALISDLIMNKEVNQDWLHAFRIDRKEAVQI
|
phosphoenolpyruvate-dependent sugar phosphotransferase system phosphorylation
|
plasma membrane
|
carbohydrate:proton symporter activity kinase activity protein-N(PI)-phosphohistidine-fructose phosphotransferase system transporter activity protein-phosphocysteine-sugar phosphotransferase activity
|
Bacillus subtilis
|
3D-structure Cell membrane Kinase Membrane Phosphoprotein Phosphotransferase system Reference proteome Sugar transport Transferase Transmembrane Transmembrane helix Transport
|
MKLLAITSCP
|
MKLLAITSCPNGIAHTYMAAENLQKAADRLGVSIKVETQGGIGVENKLTEEEIREADAIIIAADRSVNKDRFIGKKLLSVGVQDGIRKPEELIQKALNGDIPVYRSATKSESGNHQEKKQNPIYRHLMNGVSFMVPFIVVGGLLIAVALTLGGEKTPKGLVIPDDSFWKTIEQIGSASFSFMIPILAGYIAYSIADKPGLVPGMIGGYIAATGSFYDSASGAGFLGGIIAGFLAGYAALWIKKLKVPKAIQPIMPIIIIPVFASLIVGLAFVFLIGAPVAQIFASLTVWLAGMKGSSSILLALILGAMISFDMGGPVNKVAFLFGSAMIGEGNYEIMGPIAVAICIPPIGLGIATFLGKRKFEASQREMGKAAFTMGLFGITEGAIPFAAQDPLRVIPSIMAGSMTGSVIAMIGNVGDRVAHGGPIVAVLGAVDHVLMFFIAVIAGSLVTALFVNVLKKDITASPVLSETAPTSAPSEAAAANEIKQPIQSQKAEMSEFKKLTDIISPELIEPNLSGETSDDIIDELIQKLSRRGALLSESGFKQAILNREQQGTTAIGMNIAIPHGKSEAVREPSVAFGIKRSGVDWNSLDGSEAKLIFMIAVPKESGGNQHLKILQMLSRKLMDDNYRERLLSVQTTEEAYKLLEEIE
|
phosphoenolpyruvate-dependent sugar phosphotransferase system phosphorylation plasma membrane carbohydrate:proton symporter activity kinase activity protein-N(PI)-phosphohistidine-fructose phosphotransferase system transporter activity protein-phosphocysteine-sugar phosphotransferase activity Bacillus subtilis 3D-structure Cell membrane Kinase Membrane Phosphoprotein Phosphotransferase system Reference proteome Sugar transport Transferase Transmembrane Transmembrane helix Transport MKLLAITSCP MKLLAITSCPNGIAHTYMAAENLQKAADRLGVSIKVETQGGIGVENKLTEEEIREADAIIIAADRSVNKDRFIGKKLLSVGVQDGIRKPEELIQKALNGDIPVYRSATKSESGNHQEKKQNPIYRHLMNGVSFMVPFIVVGGLLIAVALTLGGEKTPKGLVIPDDSFWKTIEQIGSASFSFMIPILAGYIAYSIADKPGLVPGMIGGYIAATGSFYDSASGAGFLGGIIAGFLAGYAALWIKKLKVPKAIQPIMPIIIIPVFASLIVGLAFVFLIGAPVAQIFASLTVWLAGMKGSSSILLALILGAMISFDMGGPVNKVAFLFGSAMIGEGNYEIMGPIAVAICIPPIGLGIATFLGKRKFEASQREMGKAAFTMGLFGITEGAIPFAAQDPLRVIPSIMAGSMTGSVIAMIGNVGDRVAHGGPIVAVLGAVDHVLMFFIAVIAGSLVTALFVNVLKKDITASPVLSETAPTSAPSEAAAANEIKQPIQSQKAEMSEFKKLTDIISPELIEPNLSGETSDDIIDELIQKLSRRGALLSESGFKQAILNREQQGTTAIGMNIAIPHGKSEAVREPSVAFGIKRSGVDWNSLDGSEAKLIFMIAVPKESGGNQHLKILQMLSRKLMDDNYRERLLSVQTTEEAYKLLEEIE
|
queuosine biosynthetic process
|
cytoplasm
|
metal ion binding preQ1 synthase activity
|
Bacillus subtilis
|
3D-structure Calcium Cytoplasm Magnesium Metal-binding NADP Oxidoreductase Queuosine biosynthesis Reference proteome
|
MTTRKESELE
|
MTTRKESELEGVTLLGNQGTNYLFEYAPDVLESFPNKHVNRDYFVKFNCPEFTSLCPKTGQPDFATIYISYIPDEKMVESKSLKLYLFSFRNHGDFHEDCMNIIMNDLIELMDPRYIEVWGKFTPRGGISIDPYTNYGKPGTKYEKMAEYRMMNHDLYPETIDNR
|
queuosine biosynthetic process cytoplasm metal ion binding preQ1 synthase activity Bacillus subtilis 3D-structure Calcium Cytoplasm Magnesium Metal-binding NADP Oxidoreductase Queuosine biosynthesis Reference proteome MTTRKESELE MTTRKESELEGVTLLGNQGTNYLFEYAPDVLESFPNKHVNRDYFVKFNCPEFTSLCPKTGQPDFATIYISYIPDEKMVESKSLKLYLFSFRNHGDFHEDCMNIIMNDLIELMDPRYIEVWGKFTPRGGISIDPYTNYGKPGTKYEKMAEYRMMNHDLYPETIDNR
|
DNA-templated transcription
|
cytoplasm; DNA-directed RNA polymerase complex; nucleoid
|
DNA binding DNA-directed 5'-3' RNA polymerase activity
|
Bacillus subtilis
|
3D-structure Cytoplasm DNA-directed RNA polymerase Nucleotidyltransferase Reference proteome Transcription Transferase
|
MIYKVFYQEK
|
MIYKVFYQEKADEVPVREKTDSLYIEGVSERDVRTKLKEKKFNIEFITPVDGAFLEYEQQSENFKVLEL
|
DNA-templated transcription cytoplasm; DNA-directed RNA polymerase complex; nucleoid DNA binding DNA-directed 5'-3' RNA polymerase activity Bacillus subtilis 3D-structure Cytoplasm DNA-directed RNA polymerase Nucleotidyltransferase Reference proteome Transcription Transferase MIYKVFYQEK MIYKVFYQEKADEVPVREKTDSLYIEGVSERDVRTKLKEKKFNIEFITPVDGAFLEYEQQSENFKVLEL
|
de novo' CTP biosynthetic process phosphorylation UDP biosynthetic process
|
cytoplasm
|
ATP binding UMP kinase activity
|
Bacillus subtilis
|
Allosteric enzyme ATP-binding Cytoplasm Kinase Nucleotide-binding Pyrimidine biosynthesis Reference proteome Transferase
|
MEKPKYKRIV
|
MEKPKYKRIVLKLSGEALAGEQGNGINPTVIQSIAKQVKEIAELEVEVAVVVGGGNLWRGKTGSDLGMDRATADYMGMLATVMNSLALQDSLETLGIQSRVQTSIEMRQVAEPYIRRKAIRHLEKKRVVIFAAGTGNPYFSTDTTAALRAAEIEADVILMAKNNVDGVYNADPRKDESAVKYESLSYLDVLKDGLEVMDSTASSLCMDNDIPLIVFSIMEEGNIKRAVIGESIGTIVRGK
|
de novo' CTP biosynthetic process phosphorylation UDP biosynthetic process cytoplasm ATP binding UMP kinase activity Bacillus subtilis Allosteric enzyme ATP-binding Cytoplasm Kinase Nucleotide-binding Pyrimidine biosynthesis Reference proteome Transferase MEKPKYKRIV MEKPKYKRIVLKLSGEALAGEQGNGINPTVIQSIAKQVKEIAELEVEVAVVVGGGNLWRGKTGSDLGMDRATADYMGMLATVMNSLALQDSLETLGIQSRVQTSIEMRQVAEPYIRRKAIRHLEKKRVVIFAAGTGNPYFSTDTTAALRAAEIEADVILMAKNNVDGVYNADPRKDESAVKYESLSYLDVLKDGLEVMDSTASSLCMDNDIPLIVFSIMEEGNIKRAVIGESIGTIVRGK
|
mRNA processing rRNA processing
|
cytoplasm
|
5'-3' RNA exonuclease activity RNA binding RNA endonuclease activity zinc ion binding
|
Bacillus subtilis
|
Cytoplasm Endonuclease Exonuclease Hydrolase Metal-binding Nuclease Reference proteome RNA-binding rRNA processing Zinc
|
MKKKNTENVR
|
MKKKNTENVRIIALGGVGEIGKNLYVIEIDSDIFVVDAGLMHPENEMLGIDVVIPDISYLIERADRVKAIFLTHGHDENIGGVFYLLNKLSVPVYGTKLTLALLREKLKQYGHNRKTDLREIHSKSVITFESTKVSFFRTIHSIPDSVGVSFKTSLGSIVCTGDFKFDQTPALNQTCDIGEIAKIGNSGVLALLSDSANAERPGYTPSEAAVSGEISDALYNSQNRVIIAVFASNINRIQQVIHAAAQNGRKIAVAGKNLQSVLQLARKLGYIEADDELFISVQDVKKYPKREVAIITAGSQGEPLAALTRMANKAHKQLNIEEGDTVVIASTPIPGQELIYSKTVDLLARAGAQVIFAQKRVHVSGHGSQEELKLMINLLKPKYLIPVNGEYRMQKAHSKIAEETGMKRSDIFLIEKGDVVEFRGQNVKIGDKVPYGNILIDGLGVGDIGNIVLRDRRLLSQDGILIVVITLDKQKKHLVSGPEIITRGFVYVRESEGLIVQATELVRSIVTEATETSNVEWSTLKQAMRDALNQFLYEKTKRKPMIIPIIMEV
|
mRNA processing rRNA processing cytoplasm 5'-3' RNA exonuclease activity RNA binding RNA endonuclease activity zinc ion binding Bacillus subtilis Cytoplasm Endonuclease Exonuclease Hydrolase Metal-binding Nuclease Reference proteome RNA-binding rRNA processing Zinc MKKKNTENVR MKKKNTENVRIIALGGVGEIGKNLYVIEIDSDIFVVDAGLMHPENEMLGIDVVIPDISYLIERADRVKAIFLTHGHDENIGGVFYLLNKLSVPVYGTKLTLALLREKLKQYGHNRKTDLREIHSKSVITFESTKVSFFRTIHSIPDSVGVSFKTSLGSIVCTGDFKFDQTPALNQTCDIGEIAKIGNSGVLALLSDSANAERPGYTPSEAAVSGEISDALYNSQNRVIIAVFASNINRIQQVIHAAAQNGRKIAVAGKNLQSVLQLARKLGYIEADDELFISVQDVKKYPKREVAIITAGSQGEPLAALTRMANKAHKQLNIEEGDTVVIASTPIPGQELIYSKTVDLLARAGAQVIFAQKRVHVSGHGSQEELKLMINLLKPKYLIPVNGEYRMQKAHSKIAEETGMKRSDIFLIEKGDVVEFRGQNVKIGDKVPYGNILIDGLGVGDIGNIVLRDRRLLSQDGILIVVITLDKQKKHLVSGPEIITRGFVYVRESEGLIVQATELVRSIVTEATETSNVEWSTLKQAMRDALNQFLYEKTKRKPMIIPIIMEV
|
mRNA catabolic process mRNA processing
|
plasma membrane
|
identical protein binding RNA binding RNA endonuclease activity
|
Bacillus subtilis
|
3D-structure Cell membrane Coiled coil Endonuclease Hydrolase Membrane mRNA processing Nuclease Reference proteome RNA-binding Transmembrane Transmembrane helix
|
MTPIMMVLIS
|
MTPIMMVLISILLILLGLVVGYFVRKTIAEAKIAGARGAAEQILEDAKRDAEALKKEALLEAKDEIHKLRIDAEQEVRERRNELQKQENRLLQKEENLDRKHEGIDKREAMLEKKDHSLNERQQHIEEMESKVDEMIRMQQSELERISSLTRDEAKQIILERVENELSHDIAIMTKETENRAKEEADKKAKNILSLALQRCAADHVAETTVSVVNLPNDEMKGRIIGREGRNIRTLETLTGIDLIIDDTPEAVILSGFDPIRRETARIALDKLVQDGRIHPARIEEMVEKSRREVDDYIREMGEQTTFEVGVHGLHPDLIKILGRLKFRTSYGQNVLKHSMEVAFLAGLMASELGEDAKLAKRAGLLHDIGKAIDHEVEGSHVEIGVELATKYKEHPVVINSIASHHGDEEPTSIIAVLVAAADALSAARPGARSETLENYIRRLEKLEEISESYEGVEKSFAIQAGREVRIMVKPDSINDLEAHRLARDIRKRIEDELDYPGHIKVTVIRETRAVEYAK
|
mRNA catabolic process mRNA processing plasma membrane identical protein binding RNA binding RNA endonuclease activity Bacillus subtilis 3D-structure Cell membrane Coiled coil Endonuclease Hydrolase Membrane mRNA processing Nuclease Reference proteome RNA-binding Transmembrane Transmembrane helix MTPIMMVLIS MTPIMMVLISILLILLGLVVGYFVRKTIAEAKIAGARGAAEQILEDAKRDAEALKKEALLEAKDEIHKLRIDAEQEVRERRNELQKQENRLLQKEENLDRKHEGIDKREAMLEKKDHSLNERQQHIEEMESKVDEMIRMQQSELERISSLTRDEAKQIILERVENELSHDIAIMTKETENRAKEEADKKAKNILSLALQRCAADHVAETTVSVVNLPNDEMKGRIIGREGRNIRTLETLTGIDLIIDDTPEAVILSGFDPIRRETARIALDKLVQDGRIHPARIEEMVEKSRREVDDYIREMGEQTTFEVGVHGLHPDLIKILGRLKFRTSYGQNVLKHSMEVAFLAGLMASELGEDAKLAKRAGLLHDIGKAIDHEVEGSHVEIGVELATKYKEHPVVINSIASHHGDEEPTSIIAVLVAAADALSAARPGARSETLENYIRRLEKLEEISESYEGVEKSFAIQAGREVRIMVKPDSINDLEAHRLARDIRKRIEDELDYPGHIKVTVIRETRAVEYAK
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lipoate biosynthetic process protein lipoylation
|
cytoplasm
|
4 iron, 4 sulfur cluster binding lipoate synthase activity metal ion binding
|
Bacillus subtilis
|
4Fe-4S Cytoplasm Iron Iron-sulfur Metal-binding Reference proteome S-adenosyl-L-methionine Transferase
|
MAKKDEHLRK
|
MAKKDEHLRKPEWLKIKLNTNENYTGLKKLMRENNLHTVCEEAKCPNIHECWAVRRTATFMILGSVCTRACRFCAVKTGLPTELDLQEPERVADSVALMNLKHAVITAVARDDQKDGGAGIFAETVRAIRRKSPFTTIEVLPSDMGGNYDNLKTLMDTRPDILNHNIETVRRLTPRVRARATYDRSLEFLRRAKEMQPDIPTKSSIMIGLGETKEEIIEVMDDLLANNVDIMAIGQYLQPTKKHLKVQKYYHPDEFAELKEIAMQKGFSHCEAGPLVRSSYHADEQVNEASKKRQAQA
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lipoate biosynthetic process protein lipoylation cytoplasm 4 iron, 4 sulfur cluster binding lipoate synthase activity metal ion binding Bacillus subtilis 4Fe-4S Cytoplasm Iron Iron-sulfur Metal-binding Reference proteome S-adenosyl-L-methionine Transferase MAKKDEHLRK MAKKDEHLRKPEWLKIKLNTNENYTGLKKLMRENNLHTVCEEAKCPNIHECWAVRRTATFMILGSVCTRACRFCAVKTGLPTELDLQEPERVADSVALMNLKHAVITAVARDDQKDGGAGIFAETVRAIRRKSPFTTIEVLPSDMGGNYDNLKTLMDTRPDILNHNIETVRRLTPRVRARATYDRSLEFLRRAKEMQPDIPTKSSIMIGLGETKEEIIEVMDDLLANNVDIMAIGQYLQPTKKHLKVQKYYHPDEFAELKEIAMQKGFSHCEAGPLVRSSYHADEQVNEASKKRQAQA
|
allantoin metabolic process purine nucleobase metabolic process urate catabolic process
|
peroxisome
|
2-oxo-4-hydroxy-4-carboxy-5-ureidoimidazoline decarboxylase activity urate oxidase activity
|
Bacillus subtilis
|
3D-structure Decarboxylase Lyase Multifunctional enzyme Oxidoreductase Purine metabolism Reference proteome
|
MFTMDDLNQM
|
MFTMDDLNQMDTQTLTDTLGSIFEHSSWIAERSAALRPFSSLSDLHRKMTGIVKAADRETQLDLIKKHPRLGTKKTMSDDSVREQQNAGLGKLEQQEYEEFLMLNEHYYDRFGFPFILAVKGKTKQDIHQALLARLESERETEFQQALIEIYRIARFRLADIITEKGETQMKRTMSYGKGNVFAYRTYLKPLTGVKQIPESSFAGRDNTVVGVDVTCEIGGEAFLPSFTDGDNTLVVATDSMKNFIQRHLASYEGTTTEGFLHYVAHRFLDTYSHMDTITLTGEDIPFEAMPAYEEKELSTSRLVFRRSRNERSRSVLKAERSGNTITITEQYSEIMDLQLVKVSGNSFVGFIRDEYTTLPEDGNRPLFVYLNISWQYENTNDSYASDPARYVAAEQVRDLASTVFHELETPSIQNLIYHIGCRILARFPQLTDVSFQSQNHTWDTVVEEIPGSKGKVYTEPRPPYGFQHFTVTREDAEKEKQKAAEKCRSLKA
|
allantoin metabolic process purine nucleobase metabolic process urate catabolic process peroxisome 2-oxo-4-hydroxy-4-carboxy-5-ureidoimidazoline decarboxylase activity urate oxidase activity Bacillus subtilis 3D-structure Decarboxylase Lyase Multifunctional enzyme Oxidoreductase Purine metabolism Reference proteome MFTMDDLNQM MFTMDDLNQMDTQTLTDTLGSIFEHSSWIAERSAALRPFSSLSDLHRKMTGIVKAADRETQLDLIKKHPRLGTKKTMSDDSVREQQNAGLGKLEQQEYEEFLMLNEHYYDRFGFPFILAVKGKTKQDIHQALLARLESERETEFQQALIEIYRIARFRLADIITEKGETQMKRTMSYGKGNVFAYRTYLKPLTGVKQIPESSFAGRDNTVVGVDVTCEIGGEAFLPSFTDGDNTLVVATDSMKNFIQRHLASYEGTTTEGFLHYVAHRFLDTYSHMDTITLTGEDIPFEAMPAYEEKELSTSRLVFRRSRNERSRSVLKAERSGNTITITEQYSEIMDLQLVKVSGNSFVGFIRDEYTTLPEDGNRPLFVYLNISWQYENTNDSYASDPARYVAAEQVRDLASTVFHELETPSIQNLIYHIGCRILARFPQLTDVSFQSQNHTWDTVVEEIPGSKGKVYTEPRPPYGFQHFTVTREDAEKEKQKAAEKCRSLKA
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allantoin catabolic process glycine biosynthetic process, by transamination of glyoxylate purine nucleobase metabolic process
|
peroxisome
|
alanine-glyoxylate transaminase activity serine-pyruvate transaminase activity
|
Bacillus subtilis
|
3D-structure Aminotransferase Purine metabolism Pyridoxal phosphate Reference proteome Transferase
|
MSGRRELCTP
|
MSGRRELCTPLRTIMTPGPVEVDPRVLRVMSTPVVGQFDPAFTGIMNETMEMLRELFQTKNRWAYPIDGTSRAGIEAVLASVIEPEDDVLIPIYGRFGYLLTEIAERYGANVHMLECEWGTVFDPEDIIREIKKVKPKIVAMVHGETSTGRIHPLKAIGEACRTEDALFIVDAVATIGGCEVKVDEWKIDAAIGGTQKCLSVPSGMAPITYNERVADVIAARKKVERGIATQADRAALSGNRPITSNYFDLSQLEDYWSERRLNHHTEATTMLYALREGVRLVLEEGLETRFERHRHHEAALAAGIKAMGLRLFGDDSCKMPVVTCVEIPGGIDGESVRDMLLAQFGIEIASSFGPLAGKIWRIGTMGYSCRKENVLFVLAGLEAVLLRHNAGIEAGKALQAALDVYENAGRQAAV
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allantoin catabolic process glycine biosynthetic process, by transamination of glyoxylate purine nucleobase metabolic process peroxisome alanine-glyoxylate transaminase activity serine-pyruvate transaminase activity Bacillus subtilis 3D-structure Aminotransferase Purine metabolism Pyridoxal phosphate Reference proteome Transferase MSGRRELCTP MSGRRELCTPLRTIMTPGPVEVDPRVLRVMSTPVVGQFDPAFTGIMNETMEMLRELFQTKNRWAYPIDGTSRAGIEAVLASVIEPEDDVLIPIYGRFGYLLTEIAERYGANVHMLECEWGTVFDPEDIIREIKKVKPKIVAMVHGETSTGRIHPLKAIGEACRTEDALFIVDAVATIGGCEVKVDEWKIDAAIGGTQKCLSVPSGMAPITYNERVADVIAARKKVERGIATQADRAALSGNRPITSNYFDLSQLEDYWSERRLNHHTEATTMLYALREGVRLVLEEGLETRFERHRHHEAALAAGIKAMGLRLFGDDSCKMPVVTCVEIPGGIDGESVRDMLLAQFGIEIASSFGPLAGKIWRIGTMGYSCRKENVLFVLAGLEAVLLRHNAGIEAGKALQAALDVYENAGRQAAV
|
intracellular iron ion homeostasis iron-sulfur cluster assembly
|
cytoplasm
|
2 iron, 2 sulfur cluster binding ferrous iron binding transferase activity
|
Bacillus subtilis
|
3D-structure Metal-binding Reference proteome Transferase Zinc
|
MSFNANLDTL
|
MSFNANLDTLYRQVIMDHYKNPRNKGVLNDSIVVDMNNPTCGDRIRLTMKLDGDIVEDAKFEGEGCSISMASASMMTQAIKGKDIETALSMSKIFSDMMQGKEYDDSIDLGDIEALQGVSKFPARIKCATLSWKALEKGVAKEEGGN
|
intracellular iron ion homeostasis iron-sulfur cluster assembly cytoplasm 2 iron, 2 sulfur cluster binding ferrous iron binding transferase activity Bacillus subtilis 3D-structure Metal-binding Reference proteome Transferase Zinc MSFNANLDTL MSFNANLDTLYRQVIMDHYKNPRNKGVLNDSIVVDMNNPTCGDRIRLTMKLDGDIVEDAKFEGEGCSISMASASMMTQAIKGKDIETALSMSKIFSDMMQGKEYDDSIDLGDIEALQGVSKFPARIKCATLSWKALEKGVAKEEGGN
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cobalt ion transport copper ion transport metal ion transport response to cadmium ion transmembrane transport zinc ion transport
|
membrane; plasma membrane
|
ATP binding ATP hydrolysis activity cadmium ion transmembrane transporter activity metal ion binding P-type cadmium transporter activity P-type zinc transporter activity
|
Bacillus subtilis
|
ATP-binding Cadmium Cadmium resistance Cell membrane Cobalt Cobalt transport Copper Copper transport Ion transport Magnesium Membrane Metal-binding Nucleotide-binding Phosphoprotein Reference proteome Stress response Translocase Transmembrane Transmembrane helix Transport Zinc Zinc transport
|
MRLVKQEYVL
|
MRLVKQEYVLDGLDCSNCARKIENGVKGIKGINGCAVNFAASTLTVSADGKEEQWVTNKVEKKVKSIDPHVTVRQKHIKKSADDGYRNRMVNMLIRMAAAVILGAAAYLVQSGTIEFFLFLGAYLIIGGDIIIRAVKNIIRGQVFDEHFLMALATIGAFLIQQYPEGVAVMLFYQIGELFQGAAVSRSRKSISALMDIRPDYANLKTKNGIEQVSSEDVQTGDIIVVNPGESIPLDGKVVQGSAMVDTSALTGESVPRKAAEGQDVMSGFINQNGVLHIEVTKGYQESAVSKILDLVQNASSRKARTENFITKFAKYYTPAVVIIAVLLAFVPPLVLSGAALSDWVYRALIFLVISCPCALVVSIPLGFFGGIGAASKAGVLVKGSNYLEALNQVKYAVFDKTGTLTKGSFEVTEIKPAEGFTKDRLLEAAAYAELHSQHPIAESVRKAYGKMLSSDEIESYEEISGHGIFAKVNGTEILAGNKKLMEREQIEDVPDENAGTIVHVAVDQRYAGAIIIADEIKEDAAQAVADLKSLGIKQTAMLTGDSKQTGEAVGKQLGIGEVYAELLPQDKVAQVEALEAKLLPSEKLIFVGDGINDTPVLARADIGVAMGGLGSDAAVEAADIVLMTDQPSKIAEAIRIAKRTRRIVWQNIGFALGVKAIFLILGAFGIATMWEAVFSDVGVTLLAVANAMRVMRLKNK
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cobalt ion transport copper ion transport metal ion transport response to cadmium ion transmembrane transport zinc ion transport membrane; plasma membrane ATP binding ATP hydrolysis activity cadmium ion transmembrane transporter activity metal ion binding P-type cadmium transporter activity P-type zinc transporter activity Bacillus subtilis ATP-binding Cadmium Cadmium resistance Cell membrane Cobalt Cobalt transport Copper Copper transport Ion transport Magnesium Membrane Metal-binding Nucleotide-binding Phosphoprotein Reference proteome Stress response Translocase Transmembrane Transmembrane helix Transport Zinc Zinc transport MRLVKQEYVL MRLVKQEYVLDGLDCSNCARKIENGVKGIKGINGCAVNFAASTLTVSADGKEEQWVTNKVEKKVKSIDPHVTVRQKHIKKSADDGYRNRMVNMLIRMAAAVILGAAAYLVQSGTIEFFLFLGAYLIIGGDIIIRAVKNIIRGQVFDEHFLMALATIGAFLIQQYPEGVAVMLFYQIGELFQGAAVSRSRKSISALMDIRPDYANLKTKNGIEQVSSEDVQTGDIIVVNPGESIPLDGKVVQGSAMVDTSALTGESVPRKAAEGQDVMSGFINQNGVLHIEVTKGYQESAVSKILDLVQNASSRKARTENFITKFAKYYTPAVVIIAVLLAFVPPLVLSGAALSDWVYRALIFLVISCPCALVVSIPLGFFGGIGAASKAGVLVKGSNYLEALNQVKYAVFDKTGTLTKGSFEVTEIKPAEGFTKDRLLEAAAYAELHSQHPIAESVRKAYGKMLSSDEIESYEEISGHGIFAKVNGTEILAGNKKLMEREQIEDVPDENAGTIVHVAVDQRYAGAIIIADEIKEDAAQAVADLKSLGIKQTAMLTGDSKQTGEAVGKQLGIGEVYAELLPQDKVAQVEALEAKLLPSEKLIFVGDGINDTPVLARADIGVAMGGLGSDAAVEAADIVLMTDQPSKIAEAIRIAKRTRRIVWQNIGFALGVKAIFLILGAFGIATMWEAVFSDVGVTLLAVANAMRVMRLKNK
|
copper ion homeostasis
|
membrane; plasma membrane
|
ATP binding ATP hydrolysis activity copper ion binding identical protein binding P-type divalent copper transporter activity P-type monovalent copper transporter activity
|
Bacillus subtilis
|
3D-structure ATP-binding Cell membrane Copper Copper transport Ion transport Magnesium Membrane Metal-binding Nucleotide-binding Phosphoprotein Reference proteome Repeat Translocase Transmembrane Transmembrane helix Transport
|
MSEQKEIAMQ
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MSEQKEIAMQVSGMTCAACAARIEKGLKRMPGVTDANVNLATETSNVIYDPAETGTAAIQEKIEKLGYHVVTEKAEFDIEGMTCAACANRIEKRLNKIEGVANAPVNFALETVTVEYNPKEASVSDLKEAVDKLGYKLKLKGEQDSEAAAKKKEERKQTARLIFSAVLSFPLLWAMVSHFTFTSFIWVPDIFLNPWMQFALATPVQFLIGWPFYVGAYKALRNKSANMDVLVALGTTAAYAYSLYLTFQSIGSHGHTDGLYYETSAILLTLILLGKLFETKAKGRSSDAIKKLMKLQAKTATVVRDGQEQIIPIDEVLVNDIVYVKPGERIPVDGEVVEGRSAVDESMITGESLPVDKNPGDSVTGSTVNANGFLKIKAVNVGKDTALSHIIKIVEEAQGSKAPIQRLADQISGIFVPIVLGIAVLTFLIWYLWAAPGDFAEAISKFIAVLVIACPCALGLATPTSIMAGSGRAAEFGILFKGGEHLEKTHRLDTIVLDKTGTVTNGKPRLTDAIPFGRFEEKDLLQFAAAAETGSEHPLGEAIIAGVKDKGLEIPKLTRFEAKVGAGILAEAGGKSILVGTRKLMESEQVEHGALLAQMEELEAEGKTVMLVSIDGEAAGLVAVADTIKDTSRKAVARLKELGLDVIMMTGDNRRTAEAIAKEAGIANIIAEVLPEQKAAEIARLQKEGRQTAMVGDGINDAPALATADIGMAIGTGTDIAMETADITLIRGDLNSIADAIRMSRLTMKNIKQNLFWALGYNSLGIPIAALGFLAPWIAGAAMAFSSVSVVLNALRLQKVK
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copper ion homeostasis membrane; plasma membrane ATP binding ATP hydrolysis activity copper ion binding identical protein binding P-type divalent copper transporter activity P-type monovalent copper transporter activity Bacillus subtilis 3D-structure ATP-binding Cell membrane Copper Copper transport Ion transport Magnesium Membrane Metal-binding Nucleotide-binding Phosphoprotein Reference proteome Repeat Translocase Transmembrane Transmembrane helix Transport MSEQKEIAMQ MSEQKEIAMQVSGMTCAACAARIEKGLKRMPGVTDANVNLATETSNVIYDPAETGTAAIQEKIEKLGYHVVTEKAEFDIEGMTCAACANRIEKRLNKIEGVANAPVNFALETVTVEYNPKEASVSDLKEAVDKLGYKLKLKGEQDSEAAAKKKEERKQTARLIFSAVLSFPLLWAMVSHFTFTSFIWVPDIFLNPWMQFALATPVQFLIGWPFYVGAYKALRNKSANMDVLVALGTTAAYAYSLYLTFQSIGSHGHTDGLYYETSAILLTLILLGKLFETKAKGRSSDAIKKLMKLQAKTATVVRDGQEQIIPIDEVLVNDIVYVKPGERIPVDGEVVEGRSAVDESMITGESLPVDKNPGDSVTGSTVNANGFLKIKAVNVGKDTALSHIIKIVEEAQGSKAPIQRLADQISGIFVPIVLGIAVLTFLIWYLWAAPGDFAEAISKFIAVLVIACPCALGLATPTSIMAGSGRAAEFGILFKGGEHLEKTHRLDTIVLDKTGTVTNGKPRLTDAIPFGRFEEKDLLQFAAAAETGSEHPLGEAIIAGVKDKGLEIPKLTRFEAKVGAGILAEAGGKSILVGTRKLMESEQVEHGALLAQMEELEAEGKTVMLVSIDGEAAGLVAVADTIKDTSRKAVARLKELGLDVIMMTGDNRRTAEAIAKEAGIANIIAEVLPEQKAAEIARLQKEGRQTAMVGDGINDAPALATADIGMAIGTGTDIAMETADITLIRGDLNSIADAIRMSRLTMKNIKQNLFWALGYNSLGIPIAALGFLAPWIAGAAMAFSSVSVVLNALRLQKVK
|
fatty acid biosynthetic process
|
fatty acid synthase complex
|
fatty acid synthase activity hydro-lyase activity
|
Aeromonas caviae
|
3D-structure Direct protein sequencing Fatty acid metabolism Lipid metabolism Lyase
|
MSAQSLEVGQ
|
MSAQSLEVGQKARLSKRFGAAEVAAFAALSEDFNPLHLDPAFAATTAFERPIVHGMLLASLFSGLLGQQLPGKGSIYLGQSLSFKLPVFVGDEVTAEVEVTALREDKPIATLTTRIFTQGGALAVTGEAVVKLP
|
fatty acid biosynthetic process fatty acid synthase complex fatty acid synthase activity hydro-lyase activity Aeromonas caviae 3D-structure Direct protein sequencing Fatty acid metabolism Lipid metabolism Lyase MSAQSLEVGQ MSAQSLEVGQKARLSKRFGAAEVAAFAALSEDFNPLHLDPAFAATTAFERPIVHGMLLASLFSGLLGQQLPGKGSIYLGQSLSFKLPVFVGDEVTAEVEVTALREDKPIATLTTRIFTQGGALAVTGEAVVKLP
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thiamine biosynthetic process thiamine diphosphate biosynthetic process thiazole biosynthetic process
|
adenylyltransferase complex; sulfurtransferase complex
|
nucleotide binding sulfur carrier activity
|
Escherichia coli
|
3D-structure Nucleotide-binding Phosphoprotein Reference proteome Thiamine biosynthesis Thioester bond
|
MQILFNDQAM
|
MQILFNDQAMQCAAGQTVHELLEQLDQRQAGAALAINQQIVPREQWAQHIVQDGDQILLFQVIAGG
|
thiamine biosynthetic process thiamine diphosphate biosynthetic process thiazole biosynthetic process adenylyltransferase complex; sulfurtransferase complex nucleotide binding sulfur carrier activity Escherichia coli 3D-structure Nucleotide-binding Phosphoprotein Reference proteome Thiamine biosynthesis Thioester bond MQILFNDQAM MQILFNDQAMQCAAGQTVHELLEQLDQRQAGAALAINQQIVPREQWAQHIVQDGDQILLFQVIAGG
|
glycolytic process
|
cytoplasm
|
L-lactate dehydrogenase activity
|
Lactobacillus helveticus
|
Cytoplasm Direct protein sequencing NAD Oxidoreductase Phosphoprotein
|
MAREEKPRKV
|
MAREEKPRKVILVGDGAVGSTFAFSMVQQGIAEELGIIDIAKEHVEGDAIDLADATPWTSPKNIYAADYPDCKDADLVVITAGAPQKPGETRLDLVNKNLKILSSIVEPVVESGFEGIFLVVANPVDILTHATWRMSGFPKDRVIGSGTSLDTGRLQKVIGKMENVDPSSVNAYMLGEHGDTEFPAWSYNNVAGVKVADWVKAHNMPESKLEDIHQEVKDMAYDIINKKGATFYGIGTASAMIAKAILNDEHRVLPLSVPMDGEYGLHDLHIGTPAVVGRKGLEQVIEMPLSDKEQELMTASADQLKKVMDKAFKETGVKVRQ
|
glycolytic process cytoplasm L-lactate dehydrogenase activity Lactobacillus helveticus Cytoplasm Direct protein sequencing NAD Oxidoreductase Phosphoprotein MAREEKPRKV MAREEKPRKVILVGDGAVGSTFAFSMVQQGIAEELGIIDIAKEHVEGDAIDLADATPWTSPKNIYAADYPDCKDADLVVITAGAPQKPGETRLDLVNKNLKILSSIVEPVVESGFEGIFLVVANPVDILTHATWRMSGFPKDRVIGSGTSLDTGRLQKVIGKMENVDPSSVNAYMLGEHGDTEFPAWSYNNVAGVKVADWVKAHNMPESKLEDIHQEVKDMAYDIINKKGATFYGIGTASAMIAKAILNDEHRVLPLSVPMDGEYGLHDLHIGTPAVVGRKGLEQVIEMPLSDKEQELMTASADQLKKVMDKAFKETGVKVRQ
|
chromosome condensation
|
cell surface; cytoplasm; extracellular region; nucleoid
|
DNA binding ferric iron binding ferroxidase activity structural constituent of chromatin
|
Mycobacterium leprae
|
Acetylation Cell wall Cytoplasm Direct protein sequencing DNA condensation DNA-binding Iron Oxidoreductase Reference proteome Repeat Secreted Transcription Transcription regulation
|
MNKAELIDVL
|
MNKAELIDVLTQKLGSDRRQATAAVENVVDTIVRAVHKGDSVTITGFGVFEQRRRAARVARNPRTGETVKVKPTSVPAFRPGAQFKAVVAGAQRLPLEGPAVKRGVATSAAKKAAIKKAPVKKALAKKAATKAPAKKAVKAPAKKITTAVKVPAKKATKVVKKVAAKAPVRKATTRALAKKAAVKKAPAKKVTAAKRGRK
|
chromosome condensation cell surface; cytoplasm; extracellular region; nucleoid DNA binding ferric iron binding ferroxidase activity structural constituent of chromatin Mycobacterium leprae Acetylation Cell wall Cytoplasm Direct protein sequencing DNA condensation DNA-binding Iron Oxidoreductase Reference proteome Repeat Secreted Transcription Transcription regulation MNKAELIDVL MNKAELIDVLTQKLGSDRRQATAAVENVVDTIVRAVHKGDSVTITGFGVFEQRRRAARVARNPRTGETVKVKPTSVPAFRPGAQFKAVVAGAQRLPLEGPAVKRGVATSAAKKAAIKKAPVKKALAKKAATKAPAKKAVKAPAKKITTAVKVPAKKATKVVKKVAAKAPVRKATTRALAKKAAVKKAPAKKVTAAKRGRK
|
epoxide metabolic process
|
plasma membrane
|
cholesterol-5,6-oxide hydrolase activity epoxide hydrolase activity
|
Mycobacterium tuberculosis
|
3D-structure Hydrolase Reference proteome
|
MAELTETSPE
|
MAELTETSPETPETTEAIRAVEAFLNALQNEDFDTVDAALGDDLVYENVGFSRIRGGRRTATLLRRMQGRVGFEVKIHRIGADGAAVLTERTDALIIGPLRVQFWVCGVFEVDDGRITLWRDYFDVYDMFKGLLRGLVALVVPSLKATL
|
epoxide metabolic process plasma membrane cholesterol-5,6-oxide hydrolase activity epoxide hydrolase activity Mycobacterium tuberculosis 3D-structure Hydrolase Reference proteome MAELTETSPE MAELTETSPETPETTEAIRAVEAFLNALQNEDFDTVDAALGDDLVYENVGFSRIRGGRRTATLLRRMQGRVGFEVKIHRIGADGAAVLTERTDALIIGPLRVQFWVCGVFEVDDGRITLWRDYFDVYDMFKGLLRGLVALVVPSLKATL
|
arginine biosynthetic process via ornithine protein homotetramerization
|
cytoplasm
|
acetyl-CoA:L-glutamate N-acetyltransferase activity methione N-acyltransferase activity N-acetyltransferase activity protein homodimerization activity
|
Mycobacterium tuberculosis
|
3D-structure Acyltransferase Amino-acid biosynthesis Arginine biosynthesis Reference proteome Transferase
|
MTERPRDCRP
|
MTERPRDCRPVVRRARTSDVPAIKQLVDTYAGKILLEKNLVTLYEAVQEFWVAEHPDLYGKVVGCGALHVLWSDLGEIRTVAVDPAMTGHGIGHAIVDRLLQVARDLQLQRVFVLTFETEFFARHGFTEIEGTPVTAEVFDEMCRSYDIGVAEFLDLSYVKPNILGNSRMLLVL
|
arginine biosynthetic process via ornithine protein homotetramerization cytoplasm acetyl-CoA:L-glutamate N-acetyltransferase activity methione N-acyltransferase activity N-acetyltransferase activity protein homodimerization activity Mycobacterium tuberculosis 3D-structure Acyltransferase Amino-acid biosynthesis Arginine biosynthesis Reference proteome Transferase MTERPRDCRP MTERPRDCRPVVRRARTSDVPAIKQLVDTYAGKILLEKNLVTLYEAVQEFWVAEHPDLYGKVVGCGALHVLWSDLGEIRTVAVDPAMTGHGIGHAIVDRLLQVARDLQLQRVFVLTFETEFFARHGFTEIEGTPVTAEVFDEMCRSYDIGVAEFLDLSYVKPNILGNSRMLLVL
|
enterobactin biosynthetic process siderophore biosynthetic process siderophore metabolic process
|
enterobactin synthetase complex; plasma membrane
|
holo- synthase activity magnesium ion binding
|
Mycobacterium tuberculosis
|
3D-structure Magnesium Metal-binding Reference proteome Transferase
|
MTVGTLVASV
|
MTVGTLVASVLPATVFEDLAYAELYSDPPGLTPLPEEAPLIARSVAKRRNEFITVRHCARIALDQLGVPPAPILKGDKGEPCWPDGMVGSLTHCAGYRGAVVGRRDAVRSVGIDAEPHDVLPNGVLDAISLPAERADMPRTMPAALHWDRILFCAKEATYKAWFPLTKRWLGFEDAHITFETDSTGWTGRFVSRILIDGSTLSGPPLTTLRGRWSVERGLVLTAIVL
|
enterobactin biosynthetic process siderophore biosynthetic process siderophore metabolic process enterobactin synthetase complex; plasma membrane holo- synthase activity magnesium ion binding Mycobacterium tuberculosis 3D-structure Magnesium Metal-binding Reference proteome Transferase MTVGTLVASV MTVGTLVASVLPATVFEDLAYAELYSDPPGLTPLPEEAPLIARSVAKRRNEFITVRHCARIALDQLGVPPAPILKGDKGEPCWPDGMVGSLTHCAGYRGAVVGRRDAVRSVGIDAEPHDVLPNGVLDAISLPAERADMPRTMPAALHWDRILFCAKEATYKAWFPLTKRWLGFEDAHITFETDSTGWTGRFVSRILIDGSTLSGPPLTTLRGRWSVERGLVLTAIVL
|
lipid catabolic process
|
extracellular region
|
carboxylic ester hydrolase activity
|
Mycobacterium tuberculosis
|
Cell wall Hydrolase Lipid degradation Lipid metabolism Reference proteome Secreted Serine esterase Signal
|
MSRPGTYVIG
|
MSRPGTYVIGLTLLVGLVVGNPGCPRSYRPLTLDYRLNPVAVIGDSYTTGTDEGGLGSKSWTARTWQMLAARGVRIAADVAAEGRAGYGVPGDHGNVFEDLTARAVQPDDALVVFFGSRNDQGMDPEDPEMLAEKVRDTFDLARHRAPSASLLVIAPPWPTADVPGPMLRIRDVLGAQARAAGAVFVDPIADHWFVDRPELIGADGVHPNDAGHEYLADKIAPLISMELVG
|
lipid catabolic process extracellular region carboxylic ester hydrolase activity Mycobacterium tuberculosis Cell wall Hydrolase Lipid degradation Lipid metabolism Reference proteome Secreted Serine esterase Signal MSRPGTYVIG MSRPGTYVIGLTLLVGLVVGNPGCPRSYRPLTLDYRLNPVAVIGDSYTTGTDEGGLGSKSWTARTWQMLAARGVRIAADVAAEGRAGYGVPGDHGNVFEDLTARAVQPDDALVVFFGSRNDQGMDPEDPEMLAEKVRDTFDLARHRAPSASLLVIAPPWPTADVPGPMLRIRDVLGAQARAAGAVFVDPIADHWFVDRPELIGADGVHPNDAGHEYLADKIAPLISMELVG
|
bacterial-type flagellum-dependent cell motility bacterial-type flagellum-dependent swarming motility cell motility glycolipid biosynthetic process lipid biosynthetic process single-species biofilm formation
|
cell outer membrane
|
carboxylesterase activity carboxylic ester hydrolase activity lipase activity
|
Pseudomonas aeruginosa
|
3D-structure Cell outer membrane Hydrolase Membrane Reference proteome Serine esterase Signal Transmembrane Transmembrane beta strand
|
MIRMALKPLV
|
MIRMALKPLVAACLLASLSTAPQAAPSPYSTLVVFGDSLSDAGQFPDPAGPAGSTSRFTNRVGPTYQNGSGEIFGPTAPMLLGNQLGIAPGDLAASTSPVNAQQGIADGNNWAVGGYRTDQIYDSITAANGSLIERDNTLLRSRDGYLVDRARQGLGADPNALYYITGGGNDFLQGRILNDVQAQQAAGRLVDSVQALQQAGARYIVVWLLPDLGLTPATFGGPLQPFASQLSGTFNAELTAQLSQAGANVIPLNIPLLLKEGMANPASFGLAADQNLIGTCFSGNGCTMNPTYGINGSTPDPSKLLFNDSVHPTITGQRLIADYTYSLLSAPWELTLLPEMAHGTLRAYQDELRSQWQADWENWQNVGQWRGFVGGGGQRLDFDSQDSAASGDGNGYNLTLGGSYRIDEAWRAGVAAGFYRQKLEAGAKDSDYRMNSYMASAFVQYQENRWWADAALTGGYLDYDDLKRKFALGGGERSEKGDTNGHLWAFSARLGYDIAQQADSPWHLSPFVSADYARVEVDGYSEKGASATALDYDDQKRSSKRLGAGLQGKYAFGSDTQLFAEYAHEREYEDDTQDLTMSLNSLPGNRFTLEGYTPQDHLNRVSLGFSQKLAPELSLRGGYNWRKGEDDTQQSVSLALSLDF
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bacterial-type flagellum-dependent cell motility bacterial-type flagellum-dependent swarming motility cell motility glycolipid biosynthetic process lipid biosynthetic process single-species biofilm formation cell outer membrane carboxylesterase activity carboxylic ester hydrolase activity lipase activity Pseudomonas aeruginosa 3D-structure Cell outer membrane Hydrolase Membrane Reference proteome Serine esterase Signal Transmembrane Transmembrane beta strand MIRMALKPLV MIRMALKPLVAACLLASLSTAPQAAPSPYSTLVVFGDSLSDAGQFPDPAGPAGSTSRFTNRVGPTYQNGSGEIFGPTAPMLLGNQLGIAPGDLAASTSPVNAQQGIADGNNWAVGGYRTDQIYDSITAANGSLIERDNTLLRSRDGYLVDRARQGLGADPNALYYITGGGNDFLQGRILNDVQAQQAAGRLVDSVQALQQAGARYIVVWLLPDLGLTPATFGGPLQPFASQLSGTFNAELTAQLSQAGANVIPLNIPLLLKEGMANPASFGLAADQNLIGTCFSGNGCTMNPTYGINGSTPDPSKLLFNDSVHPTITGQRLIADYTYSLLSAPWELTLLPEMAHGTLRAYQDELRSQWQADWENWQNVGQWRGFVGGGGQRLDFDSQDSAASGDGNGYNLTLGGSYRIDEAWRAGVAAGFYRQKLEAGAKDSDYRMNSYMASAFVQYQENRWWADAALTGGYLDYDDLKRKFALGGGERSEKGDTNGHLWAFSARLGYDIAQQADSPWHLSPFVSADYARVEVDGYSEKGASATALDYDDQKRSSKRLGAGLQGKYAFGSDTQLFAEYAHEREYEDDTQDLTMSLNSLPGNRFTLEGYTPQDHLNRVSLGFSQKLAPELSLRGGYNWRKGEDDTQQSVSLALSLDF
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sulfur oxidation
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cytochrome complex; periplasmic space
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electron transfer activity heme binding iron ion binding metal ion binding oxidoreductase activity oxidoreductase activity, acting on a sulfur group of donors, cytochrome as acceptor protein heterodimerization activity sulfurtransferase activity thiosulfate sulfurtransferase activity zinc ion binding
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Paracoccus pantotrophus
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3D-structure Direct protein sequencing Electron transport Heme Iron Metal-binding Periplasm Signal Transferase Transport Zinc
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MPRFTKTKGT
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MPRFTKTKGTLAATALGLALAGAAFADPVEDGLVIETDSGPVEIVTKTAPPAFLADTFDTIYSGWHFRDDSTRDLERDDFDNPAMVFVDRGLDKWNAAMGVNGESCASCHQGPESMAGLRAVMPRVDEHTGKLMIMEDYVNACVTERMGLEKWGVTSDNMKDMLSLISLQSRGMAVNVKIDGPAAPYWEHGKEIYYTRYGQLEMSCANCHEDNAGNMIRADHLSQGQINGFPTYRLKDSGMVTAQHRFVGCVRDTRAETFKAGSDDFKALELYVASRGNGLSVEGVSVRH
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sulfur oxidation cytochrome complex; periplasmic space electron transfer activity heme binding iron ion binding metal ion binding oxidoreductase activity oxidoreductase activity, acting on a sulfur group of donors, cytochrome as acceptor protein heterodimerization activity sulfurtransferase activity thiosulfate sulfurtransferase activity zinc ion binding Paracoccus pantotrophus 3D-structure Direct protein sequencing Electron transport Heme Iron Metal-binding Periplasm Signal Transferase Transport Zinc MPRFTKTKGT MPRFTKTKGTLAATALGLALAGAAFADPVEDGLVIETDSGPVEIVTKTAPPAFLADTFDTIYSGWHFRDDSTRDLERDDFDNPAMVFVDRGLDKWNAAMGVNGESCASCHQGPESMAGLRAVMPRVDEHTGKLMIMEDYVNACVTERMGLEKWGVTSDNMKDMLSLISLQSRGMAVNVKIDGPAAPYWEHGKEIYYTRYGQLEMSCANCHEDNAGNMIRADHLSQGQINGFPTYRLKDSGMVTAQHRFVGCVRDTRAETFKAGSDDFKALELYVASRGNGLSVEGVSVRH
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cell wall organization peptide catabolic process proteolysis
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extracellular region
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cobalt ion binding manganese ion binding metalloendopeptidase activity nickel cation binding zinc ion binding
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Staphylococcus aureus
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3D-structure Cell wall biogenesis/degradation Direct protein sequencing Hydrolase Metal-binding Metalloprotease Protease Reference proteome Secreted Signal Virulence Zinc Zymogen
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MKKLTAAAIA
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MKKLTAAAIATMGFATFTMAHQADAAETTNTQQAHTQMSTQSQDVSYGTYYTIDSNGDYHHTPDGNWNQAMFDNKEYSYTFVDAQGHTHYFYNCYPKNANANGSGQTYVNPATAGDNNDYTASQSQQHINQYGYQSNVGPDASYYSHSNNNQAYNSHDGNGKVNYPNGTSNQNGGSASKATASGHAKDASWLTSRKQLQPYGQYHGGGAHYGVDYAMPENSPVYSLTDGTVVQAGWSNYGGGNQVTIKEANSNNYQWYMHNNRLTVSAGDKVKAGDQIAYSGSTGNSTAPHVHFQRMSGGIGNQYAVDPTSYLQSR
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cell wall organization peptide catabolic process proteolysis extracellular region cobalt ion binding manganese ion binding metalloendopeptidase activity nickel cation binding zinc ion binding Staphylococcus aureus 3D-structure Cell wall biogenesis/degradation Direct protein sequencing Hydrolase Metal-binding Metalloprotease Protease Reference proteome Secreted Signal Virulence Zinc Zymogen MKKLTAAAIA MKKLTAAAIATMGFATFTMAHQADAAETTNTQQAHTQMSTQSQDVSYGTYYTIDSNGDYHHTPDGNWNQAMFDNKEYSYTFVDAQGHTHYFYNCYPKNANANGSGQTYVNPATAGDNNDYTASQSQQHINQYGYQSNVGPDASYYSHSNNNQAYNSHDGNGKVNYPNGTSNQNGGSASKATASGHAKDASWLTSRKQLQPYGQYHGGGAHYGVDYAMPENSPVYSLTDGTVVQAGWSNYGGGNQVTIKEANSNNYQWYMHNNRLTVSAGDKVKAGDQIAYSGSTGNSTAPHVHFQRMSGGIGNQYAVDPTSYLQSR
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fatty acid metabolic process
|
extracellular region
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ATP binding butyrate-CoA ligase activity medium-chain fatty acid-CoA ligase activity
|
Mycobacterium avium
|
ATP-binding Cell wall Fatty acid metabolism Ligase Lipid metabolism Nucleotide-binding Secreted Signal
|
MSDTTTAFTV
|
MSDTTTAFTVPAVAKAVAAAIPDRELIIQGDRRYTYRQVIERSNRLAAYLHSQGLGCHTEREALAGHEVGQDLLGLYAYNGNEFVEALLGAFAARVAPFNVNFRYVKSELHYLLADSEATALIYHAAFAPRVAEILPELPRLRVLIQIADESGNELLDGAVDYEDALASVSAQPPPVRHCPDDLYVLYTGGTTGMPKGVLWRQHDIFMTSFGGRNLMTGEPSSSIDEIVQRAASGPGTKLMILPPLIHGAAQWSVMTAITTGQTVVFPTVVDHLDAEDVVRTIEREKVMVVTVVGDAMARPLVAAIEKGIADVSSLAVVANGGALLTPFVKQRLIEVLPNAVVVDGVGSSETGAQMHHMSTPGAVATGTFNAGPDTFVAAEDLSAILPPGHEGMGWLAQRGYVPLGYKGDAAKTAKTFPVIDGVRYAVPGDRARHHADGHIELLGRDSVCINSGGEKIFVEEVETAIASHPAVADVVVAGRPSERWGQEVVAVVALSDGAAVDAGELIAHASNSLARYKLPKAIVFRPVIERSPSGKADYRWAREQAVNG
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fatty acid metabolic process extracellular region ATP binding butyrate-CoA ligase activity medium-chain fatty acid-CoA ligase activity Mycobacterium aviumATP-binding Cell wall Fatty acid metabolism Ligase Lipid metabolism Nucleotide-binding Secreted Signal MSDTTTAFTV MSDTTTAFTVPAVAKAVAAAIPDRELIIQGDRRYTYRQVIERSNRLAAYLHSQGLGCHTEREALAGHEVGQDLLGLYAYNGNEFVEALLGAFAARVAPFNVNFRYVKSELHYLLADSEATALIYHAAFAPRVAEILPELPRLRVLIQIADESGNELLDGAVDYEDALASVSAQPPPVRHCPDDLYVLYTGGTTGMPKGVLWRQHDIFMTSFGGRNLMTGEPSSSIDEIVQRAASGPGTKLMILPPLIHGAAQWSVMTAITTGQTVVFPTVVDHLDAEDVVRTIEREKVMVVTVVGDAMARPLVAAIEKGIADVSSLAVVANGGALLTPFVKQRLIEVLPNAVVVDGVGSSETGAQMHHMSTPGAVATGTFNAGPDTFVAAEDLSAILPPGHEGMGWLAQRGYVPLGYKGDAAKTAKTFPVIDGVRYAVPGDRARHHADGHIELLGRDSVCINSGGEKIFVEEVETAIASHPAVADVVVAGRPSERWGQEVVAVVALSDGAAVDAGELIAHASNSLARYKLPKAIVFRPVIERSPSGKADYRWAREQAVNG
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propionate metabolic process, methylcitrate cycle tricarboxylic acid cycle
|
cytoplasm
|
2-methylcitrate synthase activity citrate synthase activity
|
Antarctic bacterium DS2-3R
|
3D-structure Direct protein sequencing Transferase Tricarboxylic acid cycle
|
MTEPTIHKGL
|
MTEPTIHKGLAGVTADVTAISKVNSDTNSLLYRGYPVQELAAKCSFEQVAYLLWNSELPNDSELKAFVNFERSHRKLDENVKGAIDLLSTACHPMDVARTAVSVLGANHARAQDSSPEANLEKAMSLLATFPSVVAYDQRRRRGEELIEPREDLDYSANFLWMTFGEEAAPEVVEAFNVSMILYAEHSFNASTFTARVITSTLADLHSAVTGAIGALKGPLHGGANEAVMHTFEEIGIRKDESLDEAATRSKAWMVDALAQKKKVMGFGHRVYKNGDSRVPTMKSALDAMIKHYDRPEMLGLYNGLEAAMEEAKQIKPNLDYPAGPTYNLMGFDTEMFTPLFIAARITGWTAHIMEQVADNALIRPLSEYNGPEQRQVP
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propionate metabolic process, methylcitrate cycle tricarboxylic acid cycle cytoplasm 2-methylcitrate synthase activity citrate synthase activity Antarctic bacterium DS2-3R3D-structure Direct protein sequencing Transferase Tricarboxylic acid cycle MTEPTIHKGL MTEPTIHKGLAGVTADVTAISKVNSDTNSLLYRGYPVQELAAKCSFEQVAYLLWNSELPNDSELKAFVNFERSHRKLDENVKGAIDLLSTACHPMDVARTAVSVLGANHARAQDSSPEANLEKAMSLLATFPSVVAYDQRRRRGEELIEPREDLDYSANFLWMTFGEEAAPEVVEAFNVSMILYAEHSFNASTFTARVITSTLADLHSAVTGAIGALKGPLHGGANEAVMHTFEEIGIRKDESLDEAATRSKAWMVDALAQKKKVMGFGHRVYKNGDSRVPTMKSALDAMIKHYDRPEMLGLYNGLEAAMEEAKQIKPNLDYPAGPTYNLMGFDTEMFTPLFIAARITGWTAHIMEQVADNALIRPLSEYNGPEQRQVP
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porphyrin-containing compound biosynthetic process protoporphyrinogen IX biosynthetic process
|
cytoplasm
|
4 iron, 4 sulfur cluster binding coproporphyrinogen dehydrogenase activity coproporphyrinogen oxidase activity metal ion binding
|
Cupriavidus necator
|
4Fe-4S Cytoplasm Iron Iron-sulfur Metal-binding Oxidoreductase Porphyrin biosynthesis Reference proteome S-adenosyl-L-methionine
|
MIPSAITSPA
|
MIPSAITSPAPDRRALSDFRALAGRIDGNGPRYTSYPTADRFHNGPDLSLYHDALAACRADAPAPLSLYLHIPFCENICYYCGCNKIITRDHGRSARYVNYLGREMALVADRLGPRRQVLQSHWGGGTPTFLDPGEMRRVMALLHEHFELAAEGEHSIEIDPRRVDHARMALLAELGFNRVSLGVQDFDPEVQQAIHRIQPFEETRAVVDAARTLGFRSVSLDLIYGLPHQTAARFGRTIDQVLALRPDRLSVYSYAHLPHVFKPQRRIDENALPPAGEKLDILVSTIERLSAEGYVYIGMDHFALPDDDLAVAQREGRLQRNFQGYSTHAGYDQVGLGISAIGAIAGRYVQNARTLDEYYGALDHGRLPLARGVAMSADDHLRREIIGALMCNGVLDIPALEARHGIRFGTAFAPELADLAALGADGLVQCAPDRITVTPLGRLLVRRVAMVFDRYLREDAARPASTGAQAVAANDGAQPVRFVPRARYSRVV
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porphyrin-containing compound biosynthetic process protoporphyrinogen IX biosynthetic process cytoplasm 4 iron, 4 sulfur cluster binding coproporphyrinogen dehydrogenase activity coproporphyrinogen oxidase activity metal ion binding Cupriavidus necator 4Fe-4S Cytoplasm Iron Iron-sulfur Metal-binding Oxidoreductase Porphyrin biosynthesis Reference proteome S-adenosyl-L-methionine MIPSAITSPA MIPSAITSPAPDRRALSDFRALAGRIDGNGPRYTSYPTADRFHNGPDLSLYHDALAACRADAPAPLSLYLHIPFCENICYYCGCNKIITRDHGRSARYVNYLGREMALVADRLGPRRQVLQSHWGGGTPTFLDPGEMRRVMALLHEHFELAAEGEHSIEIDPRRVDHARMALLAELGFNRVSLGVQDFDPEVQQAIHRIQPFEETRAVVDAARTLGFRSVSLDLIYGLPHQTAARFGRTIDQVLALRPDRLSVYSYAHLPHVFKPQRRIDENALPPAGEKLDILVSTIERLSAEGYVYIGMDHFALPDDDLAVAQREGRLQRNFQGYSTHAGYDQVGLGISAIGAIAGRYVQNARTLDEYYGALDHGRLPLARGVAMSADDHLRREIIGALMCNGVLDIPALEARHGIRFGTAFAPELADLAALGADGLVQCAPDRITVTPLGRLLVRRVAMVFDRYLREDAARPASTGAQAVAANDGAQPVRFVPRARYSRVV
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metabolic process sporulation resulting in formation of a cellular spore
|
cytoplasm
|
phosphoprotein phosphatase activity
|
Bacillus subtilis
|
3D-structure Allosteric enzyme Cytoplasm Hydrolase Protein phosphatase Reference proteome Repeat Sporulation TPR repeat
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MRAKIPSEEV
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MRAKIPSEEVAVKLNEWYKLIRAFEADQAEALKQEIEYDLEDMEENQDLLLYFSLMEFRHRIMLDKLMPVKDSDTKPPFSDMLNEIESNQQKLTGLLEYYFYYFRGMYEFKQKNFILAIDHYKHAEEKLEYVEDEIEKAEFLFKVAEVYYHIKQTYFSMNYASQALDIYTKYELYGRRRVQCEFIIAGNLTDVYHHEKALTHLCSALEHARQLEEAYMIAAAYYNVGHCKYSLGDYKEAEGYFKTAAAIFEEHNFQQAVQAVFSLTHIYCKEGKYDKAVEAYDRGIKSAAEWEDDMYLTKFRLIHELYLGSGDLNVLTECFDLLESRQLLADAEDLLHDTAERFNQLEHYESAAFFYRRLMNIKKKLAEQRFQ
|
metabolic process sporulation resulting in formation of a cellular spore cytoplasm phosphoprotein phosphatase activity Bacillus subtilis 3D-structure Allosteric enzyme Cytoplasm Hydrolase Protein phosphatase Reference proteome Repeat Sporulation TPR repeat MRAKIPSEEV MRAKIPSEEVAVKLNEWYKLIRAFEADQAEALKQEIEYDLEDMEENQDLLLYFSLMEFRHRIMLDKLMPVKDSDTKPPFSDMLNEIESNQQKLTGLLEYYFYYFRGMYEFKQKNFILAIDHYKHAEEKLEYVEDEIEKAEFLFKVAEVYYHIKQTYFSMNYASQALDIYTKYELYGRRRVQCEFIIAGNLTDVYHHEKALTHLCSALEHARQLEEAYMIAAAYYNVGHCKYSLGDYKEAEGYFKTAAAIFEEHNFQQAVQAVFSLTHIYCKEGKYDKAVEAYDRGIKSAAEWEDDMYLTKFRLIHELYLGSGDLNVLTECFDLLESRQLLADAEDLLHDTAERFNQLEHYESAAFFYRRLMNIKKKLAEQRFQ
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cell killing defense response to bacterium killing of cells of another organism
|
extracellular region
|
toxin activity
|
Bacillus subtilis
|
Antibiotic Antimicrobial Bacteriocin Direct protein sequencing Disulfide bond Reference proteome Secreted Signal Toxin Virulence
|
MKSKLLRLLI
|
MKSKLLRLLIVSMVTILVFSLVGLSKESSTSAKENHTFSGEDYFRGLLFGQGEVGKLISNDLDPKLVKEANSTEGKKLVNDVVKFIKKDQPQYMDELKQSIDSKDPKKLIENMTKADQLIQKYAKKNENVKYSSNKVTPSCGLYAVCVAAGYLYVVGVNAVALQTAAAVTTAVWKYVAKYSSSASNNSDLEAAAAKTLKLIHQ
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cell killing defense response to bacterium killing of cells of another organism extracellular region toxin activity Bacillus subtilis Antibiotic Antimicrobial Bacteriocin Direct protein sequencing Disulfide bond Reference proteome Secreted Signal Toxin Virulence MKSKLLRLLI MKSKLLRLLIVSMVTILVFSLVGLSKESSTSAKENHTFSGEDYFRGLLFGQGEVGKLISNDLDPKLVKEANSTEGKKLVNDVVKFIKKDQPQYMDELKQSIDSKDPKKLIENMTKADQLIQKYAKKNENVKYSSNKVTPSCGLYAVCVAAGYLYVVGVNAVALQTAAAVTTAVWKYVAKYSSSASNNSDLEAAAAKTLKLIHQ
|
gluconeogenesis glucose metabolic process
|
cytoplasm
|
glyceraldehyde-3-phosphate dehydrogenase (NAD(P)+) (phosphorylating) activity glyceraldehyde-3-phosphate dehydrogenase (NAD+) (phosphorylating) activity glyceraldehyde-3-phosphate dehydrogenase (NADP+) (phosphorylating) activity NAD binding NADP binding
|
Bacillus subtilis
|
Cytoplasm Gluconeogenesis NAD NADP Nucleotide-binding Oxidoreductase Reference proteome
|
MKVKVAINGF
|
MKVKVAINGFGRIGRMVFRKAMLDDQIQVVAINASYSAETLAHLIKYDTIHGRYDKEVVAGEDSLIVNGKKVLLLNSRDPKQLPWREYDIDIVVEATGKFNAKDKAMGHIEAGAKKVILTAPGKNEDVTIVMGVNEDQFDAERHVIISNASCTTNCLAPVVKVLDEEFGIESGLMTTVHAYTNDQKNIDNPHKDLRRARACGESIIPTTTGAAKALSLVLPHLKGKLHGLALRVPVPNVSLVDLVVDLKTDVTAEEVNEAFKRAAKTSMYGVLDYSDEPLVSTDYNTNPHSAVIDGLTTMVMEDRKVKVLAWYDNEWGYSCRVVDLIRHVAARMKHPSAV
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gluconeogenesis glucose metabolic process cytoplasm glyceraldehyde-3-phosphate dehydrogenase (NAD(P)+) (phosphorylating) activity glyceraldehyde-3-phosphate dehydrogenase (NAD+) (phosphorylating) activity glyceraldehyde-3-phosphate dehydrogenase (NADP+) (phosphorylating) activity NAD binding NADP binding Bacillus subtilis Cytoplasm Gluconeogenesis NAD NADP Nucleotide-binding Oxidoreductase Reference proteome MKVKVAINGF MKVKVAINGFGRIGRMVFRKAMLDDQIQVVAINASYSAETLAHLIKYDTIHGRYDKEVVAGEDSLIVNGKKVLLLNSRDPKQLPWREYDIDIVVEATGKFNAKDKAMGHIEAGAKKVILTAPGKNEDVTIVMGVNEDQFDAERHVIISNASCTTNCLAPVVKVLDEEFGIESGLMTTVHAYTNDQKNIDNPHKDLRRARACGESIIPTTTGAAKALSLVLPHLKGKLHGLALRVPVPNVSLVDLVVDLKTDVTAEEVNEAFKRAAKTSMYGVLDYSDEPLVSTDYNTNPHSAVIDGLTTMVMEDRKVKVLAWYDNEWGYSCRVVDLIRHVAARMKHPSAV
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monoatomic ion transmembrane transport
|
plasma membrane
|
ATP binding ATP hydrolysis activity metal ion binding P-type calcium transporter activity P-type ion transporter activity
|
Bacillus subtilis
|
ATP-binding Calcium Calcium transport Cell membrane Ion transport Magnesium Membrane Metal-binding Nucleotide-binding Phosphoprotein Reference proteome Translocase Transmembrane Transmembrane helix Transport
|
MKFHEMGQTD
|
MKFHEMGQTDLLEATNTSMKQGLTEKEVKKRLDKHGPNELQEGKKTSALLLFFAQFKDFMVLVLLAATLISGFLGEYVDAVAIIAIVFVNGILGFFQERRAEQSLQALKELSTPHVMALREGSWTKIPSKELVPGDIVKFTSGDRIGADVRIVEARSLEIEESALTGESIPVVKHADKLKKPDVSLGDITNMAFMGTIVTRGSGVGVVVGTGMNTAMGKIADMLESAGTLSTPLQRRLEQLGKILIVVALLLTVLVVAVGVIQGHDLYSMFLAGVSLAVAAIPEGLPAIVTVALSLGVQRMIKQKSIVRKLPAVETLGCASIICSDKTGTMTQNKMTVTHVWSGGKTWRVAGAGYEPKGSFTLNEKEISVNEHKPLQQMLLFGALCNNSNIEKRDGEYVLDGDPTEGALLTAARKGGFSKEFVESNYRVIEEFPFDSARKMMTVIVENQDRKRYIITKGAPDVLMQRSSRIYYDGSAALFSNERKAETEAVLRHLASQALRTIAVAYRPIKAGETPSMEQAEKDLTMLGLSGIIDPPRPEVRQAIKECREAGIKTVMITGDHVETAKAIAKDLRLLPKSGKIMDGKMLNELSQEELSHVVEDVYVFARVSPEHKLKIVKAYQENGHIVAMTGDGVNDAPAIKQADIGVSMGITGTDVAKEASSLVLVDDNFATIKSAIKEGRNIYENIRKFIRYLLASNVGEILVMLFAMLLALPLPLVPIQILWVNLVTDGLPAMALGMDQPEGDVMKRKPRHPKEGVFARKLGWKVVSRGFLIGVATILAFIIVYHRNPENLAYAQTIAFATLVLAQLIHVFDCRSETSVFSRNPFQNLYLIGAVLSSILLMLVVIYYPPLQPIFHTVAITPGDWMLVIGMSAIPTFLLAGSLLTRKK
|
monoatomic ion transmembrane transport plasma membrane ATP binding ATP hydrolysis activity metal ion binding P-type calcium transporter activity P-type ion transporter activity Bacillus subtilis ATP-binding Calcium Calcium transport Cell membrane Ion transport Magnesium Membrane Metal-binding Nucleotide-binding Phosphoprotein Reference proteome Translocase Transmembrane Transmembrane helix Transport MKFHEMGQTD MKFHEMGQTDLLEATNTSMKQGLTEKEVKKRLDKHGPNELQEGKKTSALLLFFAQFKDFMVLVLLAATLISGFLGEYVDAVAIIAIVFVNGILGFFQERRAEQSLQALKELSTPHVMALREGSWTKIPSKELVPGDIVKFTSGDRIGADVRIVEARSLEIEESALTGESIPVVKHADKLKKPDVSLGDITNMAFMGTIVTRGSGVGVVVGTGMNTAMGKIADMLESAGTLSTPLQRRLEQLGKILIVVALLLTVLVVAVGVIQGHDLYSMFLAGVSLAVAAIPEGLPAIVTVALSLGVQRMIKQKSIVRKLPAVETLGCASIICSDKTGTMTQNKMTVTHVWSGGKTWRVAGAGYEPKGSFTLNEKEISVNEHKPLQQMLLFGALCNNSNIEKRDGEYVLDGDPTEGALLTAARKGGFSKEFVESNYRVIEEFPFDSARKMMTVIVENQDRKRYIITKGAPDVLMQRSSRIYYDGSAALFSNERKAETEAVLRHLASQALRTIAVAYRPIKAGETPSMEQAEKDLTMLGLSGIIDPPRPEVRQAIKECREAGIKTVMITGDHVETAKAIAKDLRLLPKSGKIMDGKMLNELSQEELSHVVEDVYVFARVSPEHKLKIVKAYQENGHIVAMTGDGVNDAPAIKQADIGVSMGITGTDVAKEASSLVLVDDNFATIKSAIKEGRNIYENIRKFIRYLLASNVGEILVMLFAMLLALPLPLVPIQILWVNLVTDGLPAMALGMDQPEGDVMKRKPRHPKEGVFARKLGWKVVSRGFLIGVATILAFIIVYHRNPENLAYAQTIAFATLVLAQLIHVFDCRSETSVFSRNPFQNLYLIGAVLSSILLMLVVIYYPPLQPIFHTVAITPGDWMLVIGMSAIPTFLLAGSLLTRKK
|
DNA recombination
|
exodeoxyribonuclease V complex
|
5'-3' DNA helicase activity ATP binding ATP hydrolysis activity DNA binding single-stranded DNA helicase activity
|
Bacillus subtilis
|
ATP-binding DNA-binding Helicase Hydrolase Nucleotide-binding Reference proteome
|
MQQHPDQLKL
|
MQQHPDQLKLEEEPYLKGTVNTVIYHNDTNLYTVLKVKVTETSEAIEDKAVSVTGYFPALQEEETYTFYGKIVTHPKFGLQFQAEHFKKEIPTTKEGIIQYLSSDLFEGIGKKTAEEIVKKLGDSAINKILADASVLYDVPRLSKKKADTLAGALQRHQGLEQIMISLNQFGFGPQLSMKIYQAYESETLEKIQENPYQLVKDVEGIGFGKADELGSRMGLSGNHPERVKAAILYTLETTCLSEGHTYIETEQLIIDTQSLLNQSAREGQRITEMDAANAIIALGENKDIVIEDGRCYFPSLFYAEQNVAKRVKHIASQTEYENQFPESEFLLALGELEERMDVQYAPSQKEAIQKALSSPMLLLTGGPGTGKTTVIRGIVELYGELHGVSLDPSAYKKDEAFPIVLAAPTGRAAKRMSESTGLPAVTIHRLLGWNGAEGFTHTEDQPIEGKLLIIDEASMLDIWLANHLFKAIPDHIQIIIVGDEDQLPSVGPGQVLRDLLASQVIPTVRLTDIYRQAEGSSIVELAHQMKNGLLPNNLTAPTKDRSFIRCGGSQIKEVVEKVVANALKKGYTAKDIQVLAPMYRGKAGINELNVMLQDILNPPKEKRRELKFGDVVYRTGDKILQLVNQPENNVFNGDIGEITSIFYAKENTEKEDMAVVSFDGNEMTFTKKDFNQFTHAYCCSIHKSQGSEFPIVVLPVVKGYYRMLRRNLLYTAITRAKKFLILCGEEEALEWGVKNNDATVRQTSLKNRLSVQVEEMDAELEALQKELPFSVHDANIGMEGITPFDFMKEEQQ
|
DNA recombination exodeoxyribonuclease V complex 5'-3' DNA helicase activity ATP binding ATP hydrolysis activity DNA binding single-stranded DNA helicase activity Bacillus subtilis ATP-binding DNA-binding Helicase Hydrolase Nucleotide-binding Reference proteome MQQHPDQLKL MQQHPDQLKLEEEPYLKGTVNTVIYHNDTNLYTVLKVKVTETSEAIEDKAVSVTGYFPALQEEETYTFYGKIVTHPKFGLQFQAEHFKKEIPTTKEGIIQYLSSDLFEGIGKKTAEEIVKKLGDSAINKILADASVLYDVPRLSKKKADTLAGALQRHQGLEQIMISLNQFGFGPQLSMKIYQAYESETLEKIQENPYQLVKDVEGIGFGKADELGSRMGLSGNHPERVKAAILYTLETTCLSEGHTYIETEQLIIDTQSLLNQSAREGQRITEMDAANAIIALGENKDIVIEDGRCYFPSLFYAEQNVAKRVKHIASQTEYENQFPESEFLLALGELEERMDVQYAPSQKEAIQKALSSPMLLLTGGPGTGKTTVIRGIVELYGELHGVSLDPSAYKKDEAFPIVLAAPTGRAAKRMSESTGLPAVTIHRLLGWNGAEGFTHTEDQPIEGKLLIIDEASMLDIWLANHLFKAIPDHIQIIIVGDEDQLPSVGPGQVLRDLLASQVIPTVRLTDIYRQAEGSSIVELAHQMKNGLLPNNLTAPTKDRSFIRCGGSQIKEVVEKVVANALKKGYTAKDIQVLAPMYRGKAGINELNVMLQDILNPPKEKRRELKFGDVVYRTGDKILQLVNQPENNVFNGDIGEITSIFYAKENTEKEDMAVVSFDGNEMTFTKKDFNQFTHAYCCSIHKSQGSEFPIVVLPVVKGYYRMLRRNLLYTAITRAKKFLILCGEEEALEWGVKNNDATVRQTSLKNRLSVQVEEMDAELEALQKELPFSVHDANIGMEGITPFDFMKEEQQ
|
carbohydrate metabolic process regulation of carbohydrate metabolic process
|
cytosol
|
ATP binding magnesium ion binding phosphorelay sensor kinase activity protein serine/threonine kinase activity protein serine/threonine/tyrosine kinase activity
|
Bacillus subtilis
|
Allosteric enzyme ATP-binding Carbohydrate metabolism Direct protein sequencing Kinase Magnesium Metal-binding Multifunctional enzyme Nucleotide-binding Reference proteome Serine/threonine-protein kinase Transferase
|
MAKVRTKDVM
|
MAKVRTKDVMEQFNLELISGEEGINRPITMSDLSRPGIEIAGYFTYYPRERVQLLGKTELSFFEQLPEEEKKQRMDSLCTDVTPAIILSRDMPIPQELIDASEKNGVPVLRSPLKTTRLSSRLTNFLESRLAPTTAIHGVLVDIYGVGVLITGKSGVGKSETALELVKRGHRLVADDCVEIRQEDQDTLVGNAPELIEHLLEIRGLGIINVMTLFGAGAVRSNKRITIVMNLELWEQGKQYDRLGLEEETMKIIDTEITKLTIPVRPGRNLAVIIEVAAMNFRLKRMGLNAAEQFTNKLADVIEDGEQEE
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carbohydrate metabolic process regulation of carbohydrate metabolic process cytosol ATP binding magnesium ion binding phosphorelay sensor kinase activity protein serine/threonine kinase activity protein serine/threonine/tyrosine kinase activity Bacillus subtilis Allosteric enzyme ATP-binding Carbohydrate metabolism Direct protein sequencing Kinase Magnesium Metal-binding Multifunctional enzyme Nucleotide-binding Reference proteome Serine/threonine-protein kinase Transferase MAKVRTKDVM MAKVRTKDVMEQFNLELISGEEGINRPITMSDLSRPGIEIAGYFTYYPRERVQLLGKTELSFFEQLPEEEKKQRMDSLCTDVTPAIILSRDMPIPQELIDASEKNGVPVLRSPLKTTRLSSRLTNFLESRLAPTTAIHGVLVDIYGVGVLITGKSGVGKSETALELVKRGHRLVADDCVEIRQEDQDTLVGNAPELIEHLLEIRGLGIINVMTLFGAGAVRSNKRITIVMNLELWEQGKQYDRLGLEEETMKIIDTEITKLTIPVRPGRNLAVIIEVAAMNFRLKRMGLNAAEQFTNKLADVIEDGEQEE
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cellular response to peptidoglycan protein phosphorylation signal transduction spore germination
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plasma membrane
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ATP binding peptidoglycan binding protein serine kinase activity protein serine/threonine kinase activity
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Bacillus subtilis
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ATP-binding Germination Kinase Membrane Nucleotide-binding Phosphoprotein Reference proteome Repeat Serine/threonine-protein kinase Signal-anchor Transferase Transmembrane Transmembrane helix
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MLIGKRISGR
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MLIGKRISGRYQILRVIGGGGMANVYLAEDIILDREVAIKILRFDYANDNEFIRRFRREAQSASSLDHPNIVSIYDLGEEDDIYYIVMEYVEGMTLKEYITANGPLHPKEALNIMEQIVSAIAHAHQNQIVHRDIKPHNILIDHMGNIKVTDFGIATALSSTTITHTNSVLGSVHYLSPEQARGGLATKKSDIYALGIVLFELLTGRIPFDGESAVSIALKHLQAETPSAKRWNPSVPQSVENIILKATAKDPFHRYETAEDMEADIKTAFDADRLNEKRFTIQEDEEMTKAIPIIKDEELAKAAGEKEAEVTTAQENKTKKNGKRKKWPWVLLTICLVFITAGILAVTVFPSLFMPKDVKIPDVSGMEYEKAAGLLEKEGLQVDSEVLEISDEKIEEGLMVKTDPKADTTVKEGATVTLYKSTGKAKTEIGDVTGQTVDQAKKALKDQGFNHVTVNEVNDEKNAGTVIDQNPSAGTELVPSEDQVKLTVSIGPEDITLRDLKTYSKEAASGYLEDNGLKLVEKEAYSDDVPEGQVVKQKPAAGTAVKPGNEVEVTFSLGPEKKPAKTVKEKVKIPYEPENEGDELQVQIAVDDADHSISDTYEEFKIKEPTERTIELKIEPGQKGYYQVMVNNKVVSYKTIEYPKDE
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cellular response to peptidoglycan protein phosphorylation signal transduction spore germination plasma membrane ATP binding peptidoglycan binding protein serine kinase activity protein serine/threonine kinase activity Bacillus subtilis ATP-binding Germination Kinase Membrane Nucleotide-binding Phosphoprotein Reference proteome Repeat Serine/threonine-protein kinase Signal-anchor Transferase Transmembrane Transmembrane helix MLIGKRISGR MLIGKRISGRYQILRVIGGGGMANVYLAEDIILDREVAIKILRFDYANDNEFIRRFRREAQSASSLDHPNIVSIYDLGEEDDIYYIVMEYVEGMTLKEYITANGPLHPKEALNIMEQIVSAIAHAHQNQIVHRDIKPHNILIDHMGNIKVTDFGIATALSSTTITHTNSVLGSVHYLSPEQARGGLATKKSDIYALGIVLFELLTGRIPFDGESAVSIALKHLQAETPSAKRWNPSVPQSVENIILKATAKDPFHRYETAEDMEADIKTAFDADRLNEKRFTIQEDEEMTKAIPIIKDEELAKAAGEKEAEVTTAQENKTKKNGKRKKWPWVLLTICLVFITAGILAVTVFPSLFMPKDVKIPDVSGMEYEKAAGLLEKEGLQVDSEVLEISDEKIEEGLMVKTDPKADTTVKEGATVTLYKSTGKAKTEIGDVTGQTVDQAKKALKDQGFNHVTVNEVNDEKNAGTVIDQNPSAGTELVPSEDQVKLTVSIGPEDITLRDLKTYSKEAASGYLEDNGLKLVEKEAYSDDVPEGQVVKQKPAAGTAVKPGNEVEVTFSLGPEKKPAKTVKEKVKIPYEPENEGDELQVQIAVDDADHSISDTYEEFKIKEPTERTIELKIEPGQKGYYQVMVNNKVVSYKTIEYPKDE
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tRNA modification
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cytoplasm
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ATP binding ligase activity, forming carbon-nitrogen bonds tRNA binding
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Bacillus subtilis
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3D-structure ATP-binding Cytoplasm Ligase Nucleotide-binding Reference proteome RNA-binding tRNA processing tRNA-binding
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MKAVGLVVEY
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MKAVGLVVEYNPFHNGHLYHAQTAKLQTGCDTAVAVMSGHFLQRGEPAVVSKWARTKMALQSGVDLVIELPYLYAVQKADIFARGSVSILNELECEALFFGSENGDIKPFLETAQLIDEHKHILNDRIKEELKKGASYPAAAAIAFSSILHTESALDLSKPNNILGYQYVTSILTGGYPMKPYTTARISSDYHDADLPEGENHIASATSIRKAMIGQNLEACLRFLPAASARELAAYRKSFGLWHTPESYFSYLKYSLSTVTARELQQVYEVEEGLEHRIIRSIRKSSSYQEFMELLKTKRYTWTRLQRMNTHILTRTKKQDMQKLLDNDKAPYIRLLGMTKKGQAYLSEKKKALSVPLVSKLSSFSHPALDLDVKASRIYSLPIEEPLRTEFDLQEYGHAPIRYDEDEQHFLNV
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tRNA modification cytoplasm ATP binding ligase activity, forming carbon-nitrogen bonds tRNA binding Bacillus subtilis 3D-structure ATP-binding Cytoplasm Ligase Nucleotide-binding Reference proteome RNA-binding tRNA processing tRNA-binding MKAVGLVVEY MKAVGLVVEYNPFHNGHLYHAQTAKLQTGCDTAVAVMSGHFLQRGEPAVVSKWARTKMALQSGVDLVIELPYLYAVQKADIFARGSVSILNELECEALFFGSENGDIKPFLETAQLIDEHKHILNDRIKEELKKGASYPAAAAIAFSSILHTESALDLSKPNNILGYQYVTSILTGGYPMKPYTTARISSDYHDADLPEGENHIASATSIRKAMIGQNLEACLRFLPAASARELAAYRKSFGLWHTPESYFSYLKYSLSTVTARELQQVYEVEEGLEHRIIRSIRKSSSYQEFMELLKTKRYTWTRLQRMNTHILTRTKKQDMQKLLDNDKAPYIRLLGMTKKGQAYLSEKKKALSVPLVSKLSSFSHPALDLDVKASRIYSLPIEEPLRTEFDLQEYGHAPIRYDEDEQHFLNV
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N-acetylglucosamine transport phosphoenolpyruvate-dependent sugar phosphotransferase system phosphorylation
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membrane raft; organelle inner membrane; plasma membrane
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kinase activity N-acetylglucosamine transmembrane transporter activity protein-N(PI)-phosphohistidine-sugar phosphotransferase activity protein-phosphocysteine-sugar phosphotransferase activity
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Bacillus subtilis
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Cell membrane Kinase Membrane Phosphotransferase system Reference proteome Sugar transport Transferase Transmembrane Transmembrane helix Transport
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MLSFLQKLGK
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MLSFLQKLGKSFMLPIAVLPAVGIILALGREDVFNIPFVYQAGTAVFDHLPLIFAIGIAIGISKDSNGAAGLSGAISYLMLDAATKTIDKTNNMAVFGGIIAGLIAGYTYNRFKDTKLPEYLGFFSGRRLVPILTAIITIILAGIFGVVWPPIQSCINSFGEWMLGLGGIGAGIFGLFNRLLIPLGLHHVLNNIFWFQFGEYNGVTGDLARFFAKDPTAGTYMTGFFPIMMFGLPAACLAMVVTAKPSKRKATAGMMIGFALTAFITGITEPIEFAFMFLSPLLYAVHAVLTGLSLFIVNWLGIRSGFSFSAGAIDYVLSYGIAEKPLLLLLVGICYAAVYFIVFYVLIKALNLKTPGREDDDVDEVLDENTVQDVNENIMLKGLGGKENLQTIDHCATRLRLTVKDTALVDEALLKKAGAKGVVKSGGQSVQVIIGPNVEFAAEELRAAVK
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N-acetylglucosamine transport phosphoenolpyruvate-dependent sugar phosphotransferase system phosphorylation membrane raft; organelle inner membrane; plasma membrane kinase activity N-acetylglucosamine transmembrane transporter activity protein-N(PI)-phosphohistidine-sugar phosphotransferase activity protein-phosphocysteine-sugar phosphotransferase activity Bacillus subtilis Cell membrane Kinase Membrane Phosphotransferase system Reference proteome Sugar transport Transferase Transmembrane Transmembrane helix Transport MLSFLQKLGK MLSFLQKLGKSFMLPIAVLPAVGIILALGREDVFNIPFVYQAGTAVFDHLPLIFAIGIAIGISKDSNGAAGLSGAISYLMLDAATKTIDKTNNMAVFGGIIAGLIAGYTYNRFKDTKLPEYLGFFSGRRLVPILTAIITIILAGIFGVVWPPIQSCINSFGEWMLGLGGIGAGIFGLFNRLLIPLGLHHVLNNIFWFQFGEYNGVTGDLARFFAKDPTAGTYMTGFFPIMMFGLPAACLAMVVTAKPSKRKATAGMMIGFALTAFITGITEPIEFAFMFLSPLLYAVHAVLTGLSLFIVNWLGIRSGFSFSAGAIDYVLSYGIAEKPLLLLLVGICYAAVYFIVFYVLIKALNLKTPGREDDDVDEVLDENTVQDVNENIMLKGLGGKENLQTIDHCATRLRLTVKDTALVDEALLKKAGAKGVVKSGGQSVQVIIGPNVEFAAEELRAAVK
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proteolysis
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membrane raft; plasma membrane
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serine-type peptidase activity
|
Bacillus subtilis
|
3D-structure Cell membrane Hydrolase Membrane Protease Reference proteome Serine protease Transmembrane Transmembrane helix
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MNAKRWIALV
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MNAKRWIALVIALGIFGVSIIVSISMSFFESVKGAQTDLTSLTDESQEKTLENGSPSSKIAVLEVSGTIQDNGDSSSLLGADGYNHRTFLKNLERAKDDKTVKGIVLKVNSPGGGVYESAEIHKKLEEIKKETKKPIYVSMGSMAASGGYYISTAADKIFATPETLTGSLGVIMESVNYSKLADKLGISFETIKSGAHKDIMSPSREMTKEEKNIMQSMVDNSYEGFVDVISKGRGMPKAEVKKIADGRVYDGRQAKKLNLVDELGFYDDTITAMKKDHKDLKNASVISYEESFGLGSLFSMGANKMFKSEIDFLNMREILSQSGSPRMMYLYAK
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proteolysis membrane raft; plasma membrane serine-type peptidase activity Bacillus subtilis 3D-structure Cell membrane Hydrolase Membrane Protease Reference proteome Serine protease Transmembrane Transmembrane helix MNAKRWIALV MNAKRWIALVIALGIFGVSIIVSISMSFFESVKGAQTDLTSLTDESQEKTLENGSPSSKIAVLEVSGTIQDNGDSSSLLGADGYNHRTFLKNLERAKDDKTVKGIVLKVNSPGGGVYESAEIHKKLEEIKKETKKPIYVSMGSMAASGGYYISTAADKIFATPETLTGSLGVIMESVNYSKLADKLGISFETIKSGAHKDIMSPSREMTKEEKNIMQSMVDNSYEGFVDVISKGRGMPKAEVKKIADGRVYDGRQAKKLNLVDELGFYDDTITAMKKDHKDLKNASVISYEESFGLGSLFSMGANKMFKSEIDFLNMREILSQSGSPRMMYLYAK
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protein heterooligomerization regulation of DNA-templated transcription
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cytosol; protein-containing complex; protein-DNA complex
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core promoter sequence-specific DNA binding DNA-binding transcription factor activity identical protein binding protein homodimerization activity
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Bacillus subtilis
|
3D-structure DNA-binding Reference proteome Repressor Transcription Transcription regulation
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MKISTKGRYG
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MKISTKGRYGLTIMIELAKKHGEGPTSLKSIAQTNNLSEHYLEQLVSPLRNAGLVKSIRGAYGGYVLGSEPDAITAGDIIRVLEGPISPVEVLEDEEPAKRELWIRIRDAVKEVLDSTTLEDLASYTDGEQEAYMFYI
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protein heterooligomerization regulation of DNA-templated transcription cytosol; protein-containing complex; protein-DNA complex core promoter sequence-specific DNA binding DNA-binding transcription factor activity identical protein binding protein homodimerization activity Bacillus subtilis 3D-structure DNA-binding Reference proteome Repressor Transcription Transcription regulation MKISTKGRYG MKISTKGRYGLTIMIELAKKHGEGPTSLKSIAQTNNLSEHYLEQLVSPLRNAGLVKSIRGAYGGYVLGSEPDAITAGDIIRVLEGPISPVEVLEDEEPAKRELWIRIRDAVKEVLDSTTLEDLASYTDGEQEAYMFYI
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ribosomal small subunit biogenesis
|
cytoplasm
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GTP binding GTPase activity metal ion binding rRNA binding
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Bacillus subtilis
|
3D-structure Cytoplasm GTP-binding Hydrolase Metal-binding Nucleotide-binding Phosphoprotein Reference proteome Ribosome biogenesis RNA-binding rRNA-binding Zinc
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MPEGKIIKAL
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MPEGKIIKALSGFYYVLDESEDSDKVIQCRGRGIFRKNKITPLVGDYVVYQAENDKEGYLMEIKERTNELIRPPICNVDQAVLVFSAVQPSFSTALLDRFLVLVEANDIQPIICITKMDLIEDQDTEDTIQAYAEDYRNIGYDVYLTSSKDQDSLADIIPHFQDKTTVFAGQSGVGKSSLLNAISPELGLRTNEISEHLGRGKHTTRHVELIHTSGGLVADTPGFSSLEFTDIEEEELGYTFPDIREKSSSCKFRGCLHLKEPKCAVKQAVEDGELKQYRYDHYVEFMTEIKDRKPRY
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ribosomal small subunit biogenesis cytoplasm GTP binding GTPase activity metal ion binding rRNA binding Bacillus subtilis 3D-structure Cytoplasm GTP-binding Hydrolase Metal-binding Nucleotide-binding Phosphoprotein Reference proteome Ribosome biogenesis RNA-binding rRNA-binding Zinc MPEGKIIKAL MPEGKIIKALSGFYYVLDESEDSDKVIQCRGRGIFRKNKITPLVGDYVVYQAENDKEGYLMEIKERTNELIRPPICNVDQAVLVFSAVQPSFSTALLDRFLVLVEANDIQPIICITKMDLIEDQDTEDTIQAYAEDYRNIGYDVYLTSSKDQDSLADIIPHFQDKTTVFAGQSGVGKSSLLNAISPELGLRTNEISEHLGRGKHTTRHVELIHTSGGLVADTPGFSSLEFTDIEEEELGYTFPDIREKSSSCKFRGCLHLKEPKCAVKQAVEDGELKQYRYDHYVEFMTEIKDRKPRY
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carbohydrate metabolic process
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cytoplasm
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unsaturated rhamnogalacturonyl hydrolase activity
|
Bacillus subtilis
|
3D-structure Cytoplasm Direct protein sequencing Glycosidase Hydrolase Reference proteome
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MGSMDQSIAV
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MGSMDQSIAVKSPLTYAEALANTIMNTYTVEELPPANRWHYHQGVFLCGVLRLWEATGEKRYFEYAKAYADLLIDDNGNLLFRRDELDAIQAGLILFPLYEQTKDERYVKAAKRLRSLYGTLNRTSEGGFWHKDGYPYQMWLDGLYMGGPFALKYANLKQETELFDQVVLQESLMRKHTKDAKTGLFYHAWDEAKKMPWANEETGCSPEFWARSIGWYVMSLADMIEELPKKHPNRHVWKNTLQDMIKSICRYQDKETGLWYQIVDKGDRSDNWLESSGSCLYMYAIAKGINKGYLDRAYETTLLKAYQGLIQHKTETSEDGAFLVKDICVGTSAGFYDYYVSRERSTNDLHGAGAFILAMTELEPLFRSAGK
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carbohydrate metabolic process cytoplasm unsaturated rhamnogalacturonyl hydrolase activity Bacillus subtilis 3D-structure Cytoplasm Direct protein sequencing Glycosidase Hydrolase Reference proteome MGSMDQSIAV MGSMDQSIAVKSPLTYAEALANTIMNTYTVEELPPANRWHYHQGVFLCGVLRLWEATGEKRYFEYAKAYADLLIDDNGNLLFRRDELDAIQAGLILFPLYEQTKDERYVKAAKRLRSLYGTLNRTSEGGFWHKDGYPYQMWLDGLYMGGPFALKYANLKQETELFDQVVLQESLMRKHTKDAKTGLFYHAWDEAKKMPWANEETGCSPEFWARSIGWYVMSLADMIEELPKKHPNRHVWKNTLQDMIKSICRYQDKETGLWYQIVDKGDRSDNWLESSGSCLYMYAIAKGINKGYLDRAYETTLLKAYQGLIQHKTETSEDGAFLVKDICVGTSAGFYDYYVSRERSTNDLHGAGAFILAMTELEPLFRSAGK
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rescue of stalled ribosome
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RQC complex
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ribosomal large subunit binding tRNA binding
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Bacillus subtilis
|
3D-structure Protein biosynthesis Reference proteome RNA-binding tRNA-binding
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MSFDGMFTYG
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MSFDGMFTYGMTHELNEKIMGGRITKIHQPYKHDVIFHIRAKGKNQKLLLSAHPSYSRVHITAQAYENPSEPPMFCMLLRKHIEGGFIEKIEQAGLDRIMIFHIKSRNEIGDETVRKLYVEIMGRHSNIILTDAAENVIIDGLKHLSPSMNSYRTVLPGQDYKLPPAQDKISPLEASEDDILRHLSFQEGRLDKQIVDHFSGVSPLFAKEAVHRAGLANKVTLPKALLALFAEVKEHRFIPNITTVNGKEYFYLLELTHLKGEARRFDSLSELLDRFYFGKAERDRVKQQAQDLERFVVNERKKNANKIKKLEKTLEYSENAKEFQLYGELLTANLYMLKKGDKQAEVINYYDEESPTITIPLNPNKTPSENAQAYFTKYQKAKNSVAVVEEQIRLAQEEIEYFDQLIQQLSSASPRDISEIREELVEGKYLRPKQQKGQKKQKPHNPVLETYESTSGLTILVGKNNRQNEYLTTRVAARDDIWLHTKDIPGSHVVIRSSEPDEQTIMEAATIAAYFSKAKDSSSVPVDYTKIRHVKKPNGAKPGFVTYDSQHTVFVTPDADTVIKLKKS
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rescue of stalled ribosome RQC complex ribosomal large subunit binding tRNA binding Bacillus subtilis 3D-structure Protein biosynthesis Reference proteome RNA-binding tRNA-binding MSFDGMFTYG MSFDGMFTYGMTHELNEKIMGGRITKIHQPYKHDVIFHIRAKGKNQKLLLSAHPSYSRVHITAQAYENPSEPPMFCMLLRKHIEGGFIEKIEQAGLDRIMIFHIKSRNEIGDETVRKLYVEIMGRHSNIILTDAAENVIIDGLKHLSPSMNSYRTVLPGQDYKLPPAQDKISPLEASEDDILRHLSFQEGRLDKQIVDHFSGVSPLFAKEAVHRAGLANKVTLPKALLALFAEVKEHRFIPNITTVNGKEYFYLLELTHLKGEARRFDSLSELLDRFYFGKAERDRVKQQAQDLERFVVNERKKNANKIKKLEKTLEYSENAKEFQLYGELLTANLYMLKKGDKQAEVINYYDEESPTITIPLNPNKTPSENAQAYFTKYQKAKNSVAVVEEQIRLAQEEIEYFDQLIQQLSSASPRDISEIREELVEGKYLRPKQQKGQKKQKPHNPVLETYESTSGLTILVGKNNRQNEYLTTRVAARDDIWLHTKDIPGSHVVIRSSEPDEQTIMEAATIAAYFSKAKDSSSVPVDYTKIRHVKKPNGAKPGFVTYDSQHTVFVTPDADTVIKLKKS
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oxalate metabolic process
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cytoplasm
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metal ion binding oxalate decarboxylase activity
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Bacillus subtilis
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3D-structure Cytoplasm Decarboxylase Direct protein sequencing Lyase Manganese Metal-binding Reference proteome
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MKKQNDIPQP
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MKKQNDIPQPIRGDKGATVKIPRNIERDRQNPDMLVPPETDHGTVSNMKFSFSDTHNRLEKGGYAREVTVRELPISENLASVNMRLKPGAIRELHWHKEAEWAYMIYGSARVTIVDEKGRSFIDDVGEGDLWYFPSGLPHSIQALEEGAEFLLVFDDGSFSENSTFQLTDWLAHTPKEVIAANFGVTKEEISNLPGKEKYIFENQLPGSLKDDIVEGPNGEVPYPFTYRLLEQEPIESEGGKVYIADSTNFKVSKTIASALVTVEPGAMRELHWHPNTHEWQYYISGKARMTVFASDGHARTFNYQAGDVGYVPFAMGHYVENIGDEPLVFLEIFKDDHYADVSLNQWLAMLPETFVQAHLDLGKDFTDVLSKEKHPVVKKKCSK
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oxalate metabolic process cytoplasm metal ion binding oxalate decarboxylase activity Bacillus subtilis 3D-structure Cytoplasm Decarboxylase Direct protein sequencing Lyase Manganese Metal-binding Reference proteome MKKQNDIPQP MKKQNDIPQPIRGDKGATVKIPRNIERDRQNPDMLVPPETDHGTVSNMKFSFSDTHNRLEKGGYAREVTVRELPISENLASVNMRLKPGAIRELHWHKEAEWAYMIYGSARVTIVDEKGRSFIDDVGEGDLWYFPSGLPHSIQALEEGAEFLLVFDDGSFSENSTFQLTDWLAHTPKEVIAANFGVTKEEISNLPGKEKYIFENQLPGSLKDDIVEGPNGEVPYPFTYRLLEQEPIESEGGKVYIADSTNFKVSKTIASALVTVEPGAMRELHWHPNTHEWQYYISGKARMTVFASDGHARTFNYQAGDVGYVPFAMGHYVENIGDEPLVFLEIFKDDHYADVSLNQWLAMLPETFVQAHLDLGKDFTDVLSKEKHPVVKKKCSK
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fatty acid biosynthetic process
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cytoplasm
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3-oxoacyl- synthase activity beta-ketoacyl-acyl-carrier-protein synthase III activity beta-ketodecanoyl- synthase activity
|
Bacillus subtilis
|
Acyltransferase Cytoplasm Fatty acid biosynthesis Fatty acid metabolism Lipid biosynthesis Lipid metabolism Multifunctional enzyme Reference proteome Transferase
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MKAGILGVGR
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MKAGILGVGRYIPEKVLTNHDLEKMVETSDEWIRTRTGIEERRIAADDVFSSHMAVAAAKNALEQAEVAAEDLDMILVATVTPDQSFPTVSCMIQEQLGAKKACAMDISAACAGFMYGVVTGKQFIESGTYKHVLVVGVEKLSSITDWEDRNTAVLFGDGAGAAVVGPVSDDRGILSFELGADGTGGQHLYLNEKRHTIMNGREVFKFAVRQMGESCVNVIEKAGLSKEDVDFLIPHQANIRIMEAARERLELPVEKMSKTVHKYGNTSAASIPISLVEELEAGKIKDGDVVVMVGFGGGLTWGAIAIRWGR
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fatty acid biosynthetic process cytoplasm 3-oxoacyl- synthase activity beta-ketoacyl-acyl-carrier-protein synthase III activity beta-ketodecanoyl- synthase activity Bacillus subtilis Acyltransferase Cytoplasm Fatty acid biosynthesis Fatty acid metabolism Lipid biosynthesis Lipid metabolism Multifunctional enzyme Reference proteome Transferase MKAGILGVGR MKAGILGVGRYIPEKVLTNHDLEKMVETSDEWIRTRTGIEERRIAADDVFSSHMAVAAAKNALEQAEVAAEDLDMILVATVTPDQSFPTVSCMIQEQLGAKKACAMDISAACAGFMYGVVTGKQFIESGTYKHVLVVGVEKLSSITDWEDRNTAVLFGDGAGAAVVGPVSDDRGILSFELGADGTGGQHLYLNEKRHTIMNGREVFKFAVRQMGESCVNVIEKAGLSKEDVDFLIPHQANIRIMEAARERLELPVEKMSKTVHKYGNTSAASIPISLVEELEAGKIKDGDVVVMVGFGGGLTWGAIAIRWGR
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DNA duplex unwinding DNA recombination DNA repair DNA replication SOS response
|
bacterial nucleoid; chromosome; cytoplasm; replisome
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3'-5' DNA helicase activity ATP binding ATP hydrolysis activity DNA binding four-way junction helicase activity
|
Bacillus subtilis
|
ATP-binding Cytoplasm DNA damage DNA recombination DNA repair DNA-binding Helicase Hydrolase Nucleotide-binding Reference proteome SOS response
|
MLHRAQSLLA
|
MLHRAQSLLAHYFGYEKFRSGQDEAIRLVTEARQNTACIMPTGGGKSICYQIPALMFEGTTIVISPLISLMKDQVDALEEAGINAAYINSTQSNQEIYERLNGLKEGAYKLFYITPERLTSIEFIRILQGIDVPLVAIDEAHCISQWGHDFRPSYRNIEILFRELHDKPVIMALTATATPEVHDDICKQLHIQKENTVYTGFSRENLTFKVVKGENKDRFIDEYVQNNRHEAGIVYTATRKEADRIYERLKRNQVRAGRYHGGLADDVRKEQQERFLNDELQVMVATSAFGMGIDKSNIRFVLHAQIPKDMESYYQEAGRAGRDGLASECVLLFSPQDIMVQRFLIEQSEHEEKQKQDLKKLRQMVDYCHTEDCLQRFILMYFGEKEPDACGQCGNCTDTRAAHDVTREAQMVLSCIIRMKERFGKTMVAQVLAGSKNKKVLENGFSDLSTYGILKHQSVGEISDFIEFLISDDFIRMSDGTFPTLFVSSKGRNVLKGELSVARKEALKAAAITENDELFERLRMVRKEIAAEQGVPPFVVFSDQTLKEMSGKQPVNDDELLSIKGVGEQKRAKYGRLFLQEIQAYARMTD
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DNA duplex unwinding DNA recombination DNA repair DNA replication SOS response bacterial nucleoid; chromosome; cytoplasm; replisome 3'-5' DNA helicase activity ATP binding ATP hydrolysis activity DNA binding four-way junction helicase activity Bacillus subtilis ATP-binding Cytoplasm DNA damage DNA recombination DNA repair DNA-binding Helicase Hydrolase Nucleotide-binding Reference proteome SOS response MLHRAQSLLA MLHRAQSLLAHYFGYEKFRSGQDEAIRLVTEARQNTACIMPTGGGKSICYQIPALMFEGTTIVISPLISLMKDQVDALEEAGINAAYINSTQSNQEIYERLNGLKEGAYKLFYITPERLTSIEFIRILQGIDVPLVAIDEAHCISQWGHDFRPSYRNIEILFRELHDKPVIMALTATATPEVHDDICKQLHIQKENTVYTGFSRENLTFKVVKGENKDRFIDEYVQNNRHEAGIVYTATRKEADRIYERLKRNQVRAGRYHGGLADDVRKEQQERFLNDELQVMVATSAFGMGIDKSNIRFVLHAQIPKDMESYYQEAGRAGRDGLASECVLLFSPQDIMVQRFLIEQSEHEEKQKQDLKKLRQMVDYCHTEDCLQRFILMYFGEKEPDACGQCGNCTDTRAAHDVTREAQMVLSCIIRMKERFGKTMVAQVLAGSKNKKVLENGFSDLSTYGILKHQSVGEISDFIEFLISDDFIRMSDGTFPTLFVSSKGRNVLKGELSVARKEALKAAAITENDELFERLRMVRKEIAAEQGVPPFVVFSDQTLKEMSGKQPVNDDELLSIKGVGEQKRAKYGRLFLQEIQAYARMTD
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negative regulation of DNA-templated transcription negative regulation of transcription by RNA polymerase II regulation of DNA-templated transcription response to hydrogen peroxide
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cytoplasm
|
DNA-binding transcription repressor activity, RNA polymerase II-specific identical protein binding protein homodimerization activity RNA polymerase II transcription regulatory region sequence-specific DNA binding
|
Bacillus subtilis
|
3D-structure Cytoplasm Direct protein sequencing DNA-binding Oxidation Reference proteome Repressor Transcription Transcription regulation
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MENKFDHMKL
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MENKFDHMKLENQLCFLLYASSREMTKQYKPLLDKLNITYPQYLALLLLWEHETLTVKKMGEQLYLDSGTLTPMLKRMEQQGLITRKRSEEDERSVLISLTEDGALLKEKAVDIPGTILGLSKQSGEDLKQLKSALYTLLETLHQKN
|
negative regulation of DNA-templated transcription negative regulation of transcription by RNA polymerase II regulation of DNA-templated transcription response to hydrogen peroxide cytoplasm DNA-binding transcription repressor activity, RNA polymerase II-specific identical protein binding protein homodimerization activity RNA polymerase II transcription regulatory region sequence-specific DNA binding Bacillus subtilis 3D-structure Cytoplasm Direct protein sequencing DNA-binding Oxidation Reference proteome Repressor Transcription Transcription regulation MENKFDHMKL MENKFDHMKLENQLCFLLYASSREMTKQYKPLLDKLNITYPQYLALLLLWEHETLTVKKMGEQLYLDSGTLTPMLKRMEQQGLITRKRSEEDERSVLISLTEDGALLKEKAVDIPGTILGLSKQSGEDLKQLKSALYTLLETLHQKN
|
carbohydrate metabolic process
|
plasma membrane
|
hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds metal ion binding
|
Bacillus subtilis
|
3D-structure Cell membrane Hydrolase Membrane Metal-binding Reference proteome Transmembrane Transmembrane helix
|
MLAKRIKWFH
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MLAKRIKWFHVLIAVVCVVGLIGFFHNHSLKKETVMNKVRTDSQYGNVEIATLVNDGKTFNYAVNYPVFKNEKMDSALKRFAEKEVRQFQKETKDVDQEHTTKRNELNVDYKIVHYAKQTVAIVFNEYKYIGGAHGQTVKKTFNYDFSKQAFLSIDDIFKEDADYLHKLSLIAYHELKKNKDIAADDALLKEGTAPKKENFSRFAIKEDYIELYFDTYQVAAGYLGEQSIAIKKSLLKDILKEQYIDKAKNKNKIKEQKPKHEVISLPKEETVDPNQKVIALTFDDGPNPATTNQILDSLKKYKGHATFFVLGSRVQYYPETLIRMLKEGNEVGNHSWSHPLLTRLSVKEALKQINDTQDIIEKISGYRPTLVRPPYGGINDELRSQMKMDVALWDVDPEDWKDRNKKTIVDRVMNQAGDGRTILIHDIYRTSADAADEIIKKLTDQGYQLVTVSQLEEVKKQREAK
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carbohydrate metabolic process plasma membrane hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds metal ion binding Bacillus subtilis 3D-structure Cell membrane Hydrolase Membrane Metal-binding Reference proteome Transmembrane Transmembrane helix MLAKRIKWFH MLAKRIKWFHVLIAVVCVVGLIGFFHNHSLKKETVMNKVRTDSQYGNVEIATLVNDGKTFNYAVNYPVFKNEKMDSALKRFAEKEVRQFQKETKDVDQEHTTKRNELNVDYKIVHYAKQTVAIVFNEYKYIGGAHGQTVKKTFNYDFSKQAFLSIDDIFKEDADYLHKLSLIAYHELKKNKDIAADDALLKEGTAPKKENFSRFAIKEDYIELYFDTYQVAAGYLGEQSIAIKKSLLKDILKEQYIDKAKNKNKIKEQKPKHEVISLPKEETVDPNQKVIALTFDDGPNPATTNQILDSLKKYKGHATFFVLGSRVQYYPETLIRMLKEGNEVGNHSWSHPLLTRLSVKEALKQINDTQDIIEKISGYRPTLVRPPYGGINDELRSQMKMDVALWDVDPEDWKDRNKKTIVDRVMNQAGDGRTILIHDIYRTSADAADEIIKKLTDQGYQLVTVSQLEEVKKQREAK
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calcium ion transmembrane transport intracellular calcium ion homeostasis
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plasma membrane
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calcium:proton antiporter activity
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Bacillus subtilis
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3D-structure Antiport Calcium Calcium transport Cell membrane Ion transport Membrane Reference proteome Transmembrane Transmembrane helix Transport
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MNRIFFILVA
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MNRIFFILVAAGVPLSVIGSLMHWPSAVLFAVYCVTIIALASYMGRATESLSIIAGPRIGGLLNATFGNAVELIISLFALKEGLTGIVLASLTGSVLGNLLLVAGLSFFVGGLKYKRQEFNIHDARHNSGLLIFAIIVAFVIPEVFSVGMGNASKLNLSIGISIIMILLYVAALYFKLVTHRGVYQPNNAAQTEEEEEPEWSGKVATIVLFAATIVVAYISENLVHTFHSVAEQFGWSELFIGVIIVAIVGNAAEHASAIIMAFKNKMDIAVEIAVGSTLQIAMFVAPVLVICSIFFPTSMPLVFTLPELVAMVSAVLLMIAISNDGDSNWFEGATLLAAYVIMAIGFFLL
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calcium ion transmembrane transport intracellular calcium ion homeostasis plasma membrane calcium:proton antiporter activity Bacillus subtilis 3D-structure Antiport Calcium Calcium transport Cell membrane Ion transport Membrane Reference proteome Transmembrane Transmembrane helix Transport MNRIFFILVA MNRIFFILVAAGVPLSVIGSLMHWPSAVLFAVYCVTIIALASYMGRATESLSIIAGPRIGGLLNATFGNAVELIISLFALKEGLTGIVLASLTGSVLGNLLLVAGLSFFVGGLKYKRQEFNIHDARHNSGLLIFAIIVAFVIPEVFSVGMGNASKLNLSIGISIIMILLYVAALYFKLVTHRGVYQPNNAAQTEEEEEPEWSGKVATIVLFAATIVVAYISENLVHTFHSVAEQFGWSELFIGVIIVAIVGNAAEHASAIIMAFKNKMDIAVEIAVGSTLQIAMFVAPVLVICSIFFPTSMPLVFTLPELVAMVSAVLLMIAISNDGDSNWFEGATLLAAYVIMAIGFFLL
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dUMP biosynthetic process dUTP catabolic process
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protein-containing complex
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dUTP diphosphatase activity identical protein binding magnesium ion binding
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Bacillus subtilis
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3D-structure Hydrolase Magnesium Metal-binding Nucleotide metabolism Reference proteome
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MQIKIKYLDE
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MQIKIKYLDETQTRINKMEQGDWIDLRAAEDVAIKKDEFKLVPLGVAMELPEGYEAHVVPRSSTYKNFGVIQTNSMGVIDESYKGDNDFWFFPAYALRDTKIKKGDRICQFRIMKKMPAVDLIEVDRLGNGDRGGHGSTGTK
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dUMP biosynthetic process dUTP catabolic process protein-containing complex dUTP diphosphatase activity identical protein binding magnesium ion binding Bacillus subtilis 3D-structure Hydrolase Magnesium Metal-binding Nucleotide metabolism Reference proteome MQIKIKYLDE MQIKIKYLDETQTRINKMEQGDWIDLRAAEDVAIKKDEFKLVPLGVAMELPEGYEAHVVPRSSTYKNFGVIQTNSMGVIDESYKGDNDFWFFPAYALRDTKIKKGDRICQFRIMKKMPAVDLIEVDRLGNGDRGGHGSTGTK
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carbohydrate metabolic process glucosamine catabolic process N-acetylglucosamine catabolic process N-acetylneuraminate catabolic process
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cytoplasm
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glucosamine-6-phosphate deaminase activity identical protein binding
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Bacillus subtilis
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3D-structure Carbohydrate metabolism Hydrolase Reference proteome
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MKVMECQTYE
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MKVMECQTYEELSQIAARITADTIKEKPDAVLGLATGGTPEGTYRQLIRLHQTENLSFQNITTVNLDEYAGLSSDDPNSYHFYMNDRFFQHIDSKPSRHFIPNGNADDLEAECRRYEQLVDSLGDTDIQLLGIGRNGHIGFNEPGTSFKSRTHVVTLNEQTRQANARYFPSIDSVPKKALTMGIQTILSSKRILLLISGKSKAEAVRKLLEGNISEDFPASALHLHSDVTVLIDREAASLRP
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carbohydrate metabolic process glucosamine catabolic process N-acetylglucosamine catabolic process N-acetylneuraminate catabolic process cytoplasm glucosamine-6-phosphate deaminase activity identical protein binding Bacillus subtilis 3D-structure Carbohydrate metabolism Hydrolase Reference proteome MKVMECQTYE MKVMECQTYEELSQIAARITADTIKEKPDAVLGLATGGTPEGTYRQLIRLHQTENLSFQNITTVNLDEYAGLSSDDPNSYHFYMNDRFFQHIDSKPSRHFIPNGNADDLEAECRRYEQLVDSLGDTDIQLLGIGRNGHIGFNEPGTSFKSRTHVVTLNEQTRQANARYFPSIDSVPKKALTMGIQTILSSKRILLLISGKSKAEAVRKLLEGNISEDFPASALHLHSDVTVLIDREAASLRP
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peptide metabolic process proteolysis signal transduction sporulation resulting in formation of a cellular spore
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outer membrane-bounded periplasmic space
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endopeptidase activity identical protein binding peptidase activity peptide binding protein homodimerization activity serine-type endopeptidase activity
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Bacillus subtilis
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3D-structure Autocatalytic cleavage Hydrolase Protease Reference proteome Serine protease Signal Sporulation
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MNQKIMAVIA
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MNQKIMAVIAAGSMLFGGAGVYAGINLLEMDKPQTAAVPATAQADSERDKAMDKIEKAYELISNEYVEKVDREKLLEGAIQGMLSTLNDPYSVYMDKQTAKQFSDSLDSSFEGIGAEVGMEDGKIIIVSPFKKSPAEKAGLKPNDEIISINGESMAGKDLNHAVLKIRGKKGSSVSMKIQRPGTKKQLSFRIKRAEIPLETVFASEKKVQGHSVGYIAISTFSEHTAEDFAKALRELEKKEIEGLVIDVRGNPGGYLQSVEEILKHFVTKDQPYIQIAERNGDKKRYFSTLTHKKAYPVNVITDKGSASASEILAGALKEAGHYDVVGDTSFGKGTVQQAVPMGDGSNIKLTLYKWLTPNGNWIHKKGIEPTIAIKQPDYFSAGPLQLKEPLKVDMNNEDVKHAQVLLKGLSFDPGREDGYFSKDMKKAVMAFQDQNKLNKTGVIDTRTAETLNQQIEKKKSDEKNDLQLQTALKSLFVN
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peptide metabolic process proteolysis signal transduction sporulation resulting in formation of a cellular spore outer membrane-bounded periplasmic space endopeptidase activity identical protein binding peptidase activity peptide binding protein homodimerization activity serine-type endopeptidase activity Bacillus subtilis 3D-structure Autocatalytic cleavage Hydrolase Protease Reference proteome Serine protease Signal Sporulation MNQKIMAVIA MNQKIMAVIAAGSMLFGGAGVYAGINLLEMDKPQTAAVPATAQADSERDKAMDKIEKAYELISNEYVEKVDREKLLEGAIQGMLSTLNDPYSVYMDKQTAKQFSDSLDSSFEGIGAEVGMEDGKIIIVSPFKKSPAEKAGLKPNDEIISINGESMAGKDLNHAVLKIRGKKGSSVSMKIQRPGTKKQLSFRIKRAEIPLETVFASEKKVQGHSVGYIAISTFSEHTAEDFAKALRELEKKEIEGLVIDVRGNPGGYLQSVEEILKHFVTKDQPYIQIAERNGDKKRYFSTLTHKKAYPVNVITDKGSASASEILAGALKEAGHYDVVGDTSFGKGTVQQAVPMGDGSNIKLTLYKWLTPNGNWIHKKGIEPTIAIKQPDYFSAGPLQLKEPLKVDMNNEDVKHAQVLLKGLSFDPGREDGYFSKDMKKAVMAFQDQNKLNKTGVIDTRTAETLNQQIEKKKSDEKNDLQLQTALKSLFVN
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homologous chromosome pairing at meiosis meiotic joint molecule formation meiotic strand invasion involved in reciprocal meiotic recombination positive regulation of transcription by RNA polymerase II reciprocal meiotic recombination
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condensed nuclear chromosome; DNA recombinase auxiliary factor complex; nucleoplasm
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DNA binding domain binding double-stranded DNA binding nuclear androgen receptor binding nuclear estrogen receptor binding nuclear glucocorticoid receptor binding nuclear receptor coactivator activity nuclear thyroid hormone receptor binding protein-containing complex binding recombinase activator activity
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Mus musculus
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3D-structure Coiled coil DNA recombination DNA-binding Meiosis Nucleus Reference proteome
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MSKSRAEAAA
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MSKSRAEAAAGAPGIILRYLQEQNRPYSAQDVFGNLQKEHGLGKAAVVKALDQLAQEGKIKEKTYGKQKIYFADQNQFDTVSDADLHGLDASIVALTAKVQSLQQSCRHMEAELKELTSALTTPEMQKEIQELKKECAQYTERLKNIKAATNHVTPEEKEKVYRDRQKYCKEWRKRKRMTTELCDAILEGYPKSKKQFFEEVGIETDEDHNVLLPDP
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homologous chromosome pairing at meiosis meiotic joint molecule formation meiotic strand invasion involved in reciprocal meiotic recombination positive regulation of transcription by RNA polymerase II reciprocal meiotic recombination condensed nuclear chromosome; DNA recombinase auxiliary factor complex; nucleoplasm DNA binding domain binding double-stranded DNA binding nuclear androgen receptor binding nuclear estrogen receptor binding nuclear glucocorticoid receptor binding nuclear receptor coactivator activity nuclear thyroid hormone receptor binding protein-containing complex binding recombinase activator activity Mus musculus 3D-structure Coiled coil DNA recombination DNA-binding Meiosis Nucleus Reference proteome MSKSRAEAAA MSKSRAEAAAGAPGIILRYLQEQNRPYSAQDVFGNLQKEHGLGKAAVVKALDQLAQEGKIKEKTYGKQKIYFADQNQFDTVSDADLHGLDASIVALTAKVQSLQQSCRHMEAELKELTSALTTPEMQKEIQELKKECAQYTERLKNIKAATNHVTPEEKEKVYRDRQKYCKEWRKRKRMTTELCDAILEGYPKSKKQFFEEVGIETDEDHNVLLPDP
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B cell chemotaxis bile acid metabolic process cholesterol catabolic process liver regeneration regulation of cell growth steroid biosynthetic process
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endoplasmic reticulum membrane
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3-beta-hydroxy-delta5-steroid dehydrogenase activity cholest-5-ene-3-beta,7-alpha-diol 3-beta-dehydrogenase activity oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor
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Rattus norvegicus
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Endoplasmic reticulum Lipid metabolism Membrane NAD Oxidoreductase Reference proteome Steroidogenesis Transmembrane Transmembrane helix
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MADSAQVPAL
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MADSAQVPALVYLVTGGCGFLGEHIVRMLLEWEPRLRELRVFDLHLSSWLEELKTGPVQVTAIQGDVTQAHEVAAAMAGSHVVIHTAGLVDVFGKASPETIHKVNVQGTQNVIDACVQTGTRLLVYTSSMEVVGPNVKGHPFYRGNEDTPYEAIHRHPYPCSKALAEQLVLEANGRKGLRFGGRLFRAIPASVEHGRVYVGNVAWMHILVARELEQRAALMGGQVYFCYDKSPYKSYEDFNMEFLSPCGLRLIGTHPLLPYWLLVLLTALNALLQWLLRPLVLYTPLLNPYTLAVANTTFTVSTNKAQRHFGYKPLFSWEESRARTIHWVQAMEGSAW
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B cell chemotaxis bile acid metabolic process cholesterol catabolic process liver regeneration regulation of cell growth steroid biosynthetic process endoplasmic reticulum membrane 3-beta-hydroxy-delta5-steroid dehydrogenase activity cholest-5-ene-3-beta,7-alpha-diol 3-beta-dehydrogenase activity oxidoreductase activity, acting on the CH-OH group of donors, NAD or NADP as acceptor Rattus norvegicus Endoplasmic reticulum Lipid metabolism Membrane NAD Oxidoreductase Reference proteome Steroidogenesis Transmembrane Transmembrane helix MADSAQVPAL MADSAQVPALVYLVTGGCGFLGEHIVRMLLEWEPRLRELRVFDLHLSSWLEELKTGPVQVTAIQGDVTQAHEVAAAMAGSHVVIHTAGLVDVFGKASPETIHKVNVQGTQNVIDACVQTGTRLLVYTSSMEVVGPNVKGHPFYRGNEDTPYEAIHRHPYPCSKALAEQLVLEANGRKGLRFGGRLFRAIPASVEHGRVYVGNVAWMHILVARELEQRAALMGGQVYFCYDKSPYKSYEDFNMEFLSPCGLRLIGTHPLLPYWLLVLLTALNALLQWLLRPLVLYTPLLNPYTLAVANTTFTVSTNKAQRHFGYKPLFSWEESRARTIHWVQAMEGSAW
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CDP-diacylglycerol biosynthetic process lipid droplet formation phosphatidylinositol biosynthetic process positive regulation of fat cell differentiation
|
endoplasmic reticulum; endoplasmic reticulum membrane; membrane
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phosphatidate cytidylyltransferase activity
|
Rattus norvegicus
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Endoplasmic reticulum Lipid biosynthesis Lipid metabolism Magnesium Membrane Methylation Nucleotidyltransferase Phospholipid biosynthesis Phospholipid metabolism Phosphoprotein Reference proteome Transferase Transmembrane Transmembrane helix
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MLELRHRGGC
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MLELRHRGGCPGPGGAGTPPPREGEAAGGDHETESTSDKETDIDDRYGDLDARGDSDVPEVPPSSDRTPEILKKALSGLSSRWKNWWIRGILTLTMISLFFLIIYMGSFMLMLLVLGIQVKCFQEIITIGYRVYHSYDLPWFRTLSWYFLLCVNYFFYGETVADYFATFVQREEQLQFLIRYHRFISFALYLAGFCMFVLSLVKKHYRLQFYMFAWTHVTLLITVTQSHLVIQNLFEGMIWFLVPISSVICNDITAYLFGFFFGRTPLIKLSPKKTWEGFIGGFFSTVIFGFIAAYVLSKYQYFVCPVEYRSDVNSFVTECEPSELFQLQNYSLPPFLQAVLSRETVSLYPFQIHSIALSTFASLIGPFGGFFASGFKRAFKIKDFANTIPGHGGIMDRFDCQYLMATFVHVYITSFIRGPNPSKVLQQLLVLQPEQQLNIYRTLKIHLTEKGILQPTWKV
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CDP-diacylglycerol biosynthetic process lipid droplet formation phosphatidylinositol biosynthetic process positive regulation of fat cell differentiation endoplasmic reticulum; endoplasmic reticulum membrane; membrane phosphatidate cytidylyltransferase activity Rattus norvegicus Endoplasmic reticulum Lipid biosynthesis Lipid metabolism Magnesium Membrane Methylation Nucleotidyltransferase Phospholipid biosynthesis Phospholipid metabolism Phosphoprotein Reference proteome Transferase Transmembrane Transmembrane helix MLELRHRGGC MLELRHRGGCPGPGGAGTPPPREGEAAGGDHETESTSDKETDIDDRYGDLDARGDSDVPEVPPSSDRTPEILKKALSGLSSRWKNWWIRGILTLTMISLFFLIIYMGSFMLMLLVLGIQVKCFQEIITIGYRVYHSYDLPWFRTLSWYFLLCVNYFFYGETVADYFATFVQREEQLQFLIRYHRFISFALYLAGFCMFVLSLVKKHYRLQFYMFAWTHVTLLITVTQSHLVIQNLFEGMIWFLVPISSVICNDITAYLFGFFFGRTPLIKLSPKKTWEGFIGGFFSTVIFGFIAAYVLSKYQYFVCPVEYRSDVNSFVTECEPSELFQLQNYSLPPFLQAVLSRETVSLYPFQIHSIALSTFASLIGPFGGFFASGFKRAFKIKDFANTIPGHGGIMDRFDCQYLMATFVHVYITSFIRGPNPSKVLQQLLVLQPEQQLNIYRTLKIHLTEKGILQPTWKV
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