| import os |
| import json |
| import time |
| import pandas as pd |
| import numpy as np |
| import requests |
| import ete3 |
| import re |
| import rdkit |
| from tqdm import tqdm |
| from rdkit import Chem |
| from rdkit.Chem import AllChem |
| from rdkit import DataStructs |
| from rdkit.Chem import rdChemReactions |
| from joblib import delayed, Parallel |
| from rdkit.Chem import Descriptors |
| from rdkit import RDLogger |
| RDLogger.DisableLog('rdApp.*') |
|
|
| import requests |
| import sys |
| import argparse |
|
|
| def parse_args(): |
| parser = argparse.ArgumentParser() |
| parser.add_argument("--rawdata_dir", help="raw data directory", type=str, required=True) |
| parser.add_argument("--processed_dir", help="processed dir to save", |
| type=str, required=True) |
| parser.add_argument("--out_file_name", help="name for out file", |
| type=str, required=True) |
|
|
| args, unparsed = parser.parse_known_args() |
| parser = argparse.ArgumentParser() |
|
|
| return args |
|
|
| args = parse_args() |
| PARAMETERS_OF_INTEREST = ['km_value','kcat_km','ki_value','ic50','turnover_number'] |
| EC_WORD_NAMES = ["ec1", "ec2", "ec3", "ec"] |
| TAX_WORD_NAMES = [ |
| "superkingdom", |
| "phylum", |
| "class", |
| "order", |
| "family", |
| "genus", |
| "species"] |
| INCLUDE_OTHERS_AS_WILDTYPE = True |
| N_PROCS = 30 |
|
|
| DATA_DIR = args.rawdata_dir |
| out_path = args.processed_dir + '/'+ args.out_file_name |
|
|
| |
| |
| data = json.load(open(f'{DATA_DIR}/brenda_2022_2.json'))['data'] |
|
|
| |
| |
| |
| |
|
|
| metabolite_inchi_smiles_dic = pd.read_csv(f'{DATA_DIR}/metabolite_inchi_smiles_brenda_pubchem.tsv',sep='\t', |
| index_col='metabolite') |
|
|
| |
| df = pd.DataFrame() |
|
|
| |
| eccol = [] |
| |
| orgcol = [] |
|
|
| |
| paramcol = [] |
| |
| valcol = [] |
|
|
| |
| rxncol = [] |
|
|
| |
| subcol = [] |
|
|
| |
| natural_substrate_col = [] |
|
|
| |
| unicol = [] |
|
|
| |
| commentcol = [] |
|
|
| |
| phopt_col = [] |
| topt_col = [] |
|
|
| |
| all_metabolite_names = set() |
| all_natural_metabolite_names = set() |
|
|
| |
| metals_ions_list = set() |
|
|
| for ec in tqdm(data): |
| if not ('proteins' in data[ec] or 'organisms' in data[ec]): |
| |
| continue |
| |
| |
| |
| params_present = [] |
| for parameter_data in PARAMETERS_OF_INTEREST: |
| if parameter_data in data[ec]: params_present.append(parameter_data) |
| |
| |
| if 'organisms' in data[ec]: orgs_ec = data[ec]['organisms'] |
| else: orgs_ec = {} |
| if 'proteins' in data[ec]: orgs_protein = data[ec]['proteins'] |
| else: orgs_protein = orgs_ec |
| |
| metals_ions_now = set() |
| if 'metals_ions' in data[ec]: |
| for metalion_dict in data[ec]['metals_ions']: |
| metals_ions_now.add(metalion_dict['value']) |
| metals_ions_list = metals_ions_list.union(metals_ions_now) |
| |
| cofactors_now = set() |
| if 'cofactor' in data[ec]: |
| for cof_dict in data[ec]['cofactor']: |
| cofactors_now.add(cof_dict['value']) |
| |
| topt_by_org = {} |
| if 'temperature_optimum' in data[ec]: |
| topt_data = data[ec]['temperature_optimum'] |
| for each in topt_data: |
| if 'organisms' in each: |
| org_topt = each['organisms'][0] |
| if 'num_value' in each: |
| topt_val = each['num_value'] |
| elif 'min_value' in each and 'max_value' in each: |
| topt_val = (each['min_value'] + each['max_value'])/2.0 |
| else: |
| topt_val = None |
| continue |
| |
| if org_topt in topt_by_org: |
| topt_by_org[org_topt].append(topt_val) |
| else: |
| topt_by_org[org_topt] = [topt_val] |
| |
| |
| ph_by_org = {} |
| if 'ph_optimum' in data[ec]: |
| ph_data = data[ec]['ph_optimum'] |
| for each in ph_data: |
| if 'organisms' in each: |
| org_ph = each['organisms'][0] |
| if 'num_value' in each: |
| ph_val = each['num_value'] |
| elif 'min_value' in each and 'max_value' in each: |
| ph_val = (each['min_value'] + each['max_value'])/2.0 |
| else: |
| ph_val = None |
| continue |
| if org_ph in ph_by_org: |
| ph_by_org[org_ph].append(ph_val) |
| else: |
| ph_by_org[org_ph] = [ph_val] |
| |
|
|
| |
| sub_to_reactions = {} |
| |
| def _reaction_string(reacs,prods): |
| return f'{" + ".join(reacs)} >> {" + ".join(prods)}' |
| |
| if 'reaction' in data[ec]: |
| for rxn in data[ec]['reaction']: |
| try: |
| reacs = rxn['educts'] |
| prods = rxn['products'] |
| except KeyError: |
| reacs = [] |
| prods = [] |
| |
| each_rxn_str = _reaction_string(reacs,prods) |
| |
| for each in reacs: |
| if each in sub_to_reactions: |
| sub_to_reactions[each].add(each_rxn_str) |
| else: |
| sub_to_reactions[each] = set([each_rxn_str]) |
| |
| |
| natural_substrates = [] |
| if 'natural_reaction' in data[ec]: |
| for rxn in data[ec]['natural_reaction']: |
| found = False |
| try: |
| reacs = rxn['educts'] |
| prods = rxn['products'] |
| except KeyError: |
| reacs = [] |
| prods = [] |
| |
| each_rxn_str = _reaction_string(reacs,prods) |
| natural_substrates.extend(reacs) |
| natural_substrates.extend(prods) |
| for natural_met in reacs+prods: |
| all_natural_metabolite_names.add(natural_met) |
| for each in reacs: |
| if each in sub_to_reactions: |
| sub_to_reactions[each].add(each_rxn_str) |
| else: |
| sub_to_reactions[each] = set([each_rxn_str]) |
| |
| |
| for parameter_data in params_present: |
| for entry in data[ec][parameter_data]: |
| if 'num_value' in entry and 'value' in entry and 'organisms' in entry: |
| val = entry['num_value'] |
| if 'organisms' in entry: |
| org_now = entry['organisms'] |
| prot_now = org_now |
| elif 'proteins' in entry: |
| prot_now = entry['proteins'] |
|
|
| subname = entry['value'] |
| if parameter_data=='turnover_number' and (subname in cofactors_now or subname in metals_ions_now): |
| continue |
| if not pd.isna(val) and not pd.isna(subname): |
| try: |
| val = float(val) |
| except ValueError: |
| continue |
| |
| try: |
| orgname = data[ec]['organisms'][org_now[0]]['value'] |
| except KeyError: |
| continue |
| |
|
|
| unis = [] |
| orgnames = [] |
|
|
| for org in prot_now: |
| if org in orgs_protein: |
| for each in orgs_protein[org]: |
| if 'accessions' in each: |
| unis.append(each['accessions']) |
| else: |
| unis.append(None) |
|
|
| for org in org_now: |
| if org in orgs_ec: |
| if 'value' in orgs_ec[org]: |
| orgnames.append(orgs_ec[org]['value']) |
| else: |
| orgnames.append(None) |
|
|
| orgcol.append(orgnames[0]) |
| if org_now[0] in ph_by_org: |
| phopt_col.append(ph_by_org[org_now[0]]) |
| else: |
| phopt_col.append([]) |
| |
| if org_now[0] in topt_by_org: |
| topt_col.append(topt_by_org[org_now[0]]) |
| else: |
| topt_col.append([]) |
| |
| unis_ = [] |
| for u in unis: |
| if u is None: continue |
| unis_.append(u) |
|
|
| if not unis_: unis_ = None |
|
|
| unicol.append(unis_) |
| valcol.append(val) |
| paramcol.append(parameter_data) |
| subcol.append(subname) |
| all_metabolite_names.add(subname) |
| if subname in natural_substrates: |
| natural_substrate_col.append(True) |
| else: |
| natural_substrate_col.append(False) |
| eccol.append(ec) |
| rxncol.append(sub_to_reactions) |
| |
|
|
| if 'comment' in entry: |
| commentcol.append(entry['comment']) |
| else: |
| commentcol.append('') |
| |
| df['value'] = valcol |
| df['parameter'] = paramcol |
| df['substrate'] = subcol |
| df['natural_substrate'] = natural_substrate_col |
| df['organism'] = orgcol |
| df['ph_opt'] = phopt_col |
| df['temp_opt'] = topt_col |
| df['comment'] = commentcol |
| df['uniprot'] = unicol |
| df['ec'] = eccol |
| df['reactions'] = rxncol |
|
|
| import ipdb |
| ipdb.set_trace() |
|
|
| f = open('all_natural_metabolite_names.json','w') |
| f.write(json.dumps(list(all_natural_metabolite_names), indent=True)) |
| f.close() |
|
|
| sys.exit(0) |
|
|
| |
| ncbi = ete3.NCBITaxa() |
| get_taxid_from_organism = lambda organism: ncbi.get_name_translator([organism])[organism][0] |
|
|
| ec_embed_cols = ["ec1", "ec2", "ec3", "ec"] |
| tax_embed_cols = [ |
| "superkingdom", |
| "phylum", |
| "class", |
| "order", |
| "family", |
| "genus", |
| "species", |
| ] |
|
|
| def get_ec_words(ec): |
| if '-' in ec: ec.replace('-','UNK') |
| ec_chars = ec.split('.') |
| ec_words = {f"ec{i}": '.'.join(ec_chars[:i]) for i in range(1,4)} |
| ec_words['ec'] = ec |
| return ec_words |
|
|
| def get_tax_words(taxid, ncbi): |
| try: |
| lineage = ncbi.get_lineage(taxid) |
| rank_dict = ncbi.get_rank(lineage) |
| rank_dict_return = {} |
| for rankid, rankname in rank_dict.items(): |
| if rankname.lower() in tax_embed_cols: rank_dict_return[rankname.lower()] = ncbi.get_taxid_translator([rankid])[rankid] |
| except: |
| rank_dict_return = {tax: 'UNK' for tax in tax_embed_cols} |
| return rank_dict_return |
|
|
| taxid_col = [] |
| for ind, row in tqdm(df.iterrows()): |
| org = row.organism |
| try: |
| taxid = get_taxid_from_organism(org) |
| except KeyError: |
| taxid = None |
| taxid_col.append(taxid) |
| df['taxonomy_id'] = taxid_col |
|
|
| ec_words = [] |
| for ind, row in df.iterrows(): |
| words = get_ec_words(row.ec) |
| ec_words.append(words) |
| for col in ec_embed_cols: |
| col_values = [ec_words[i][col] for i in range(len(df))] |
| df[col] = col_values |
|
|
| tax_words = [] |
| for ind, row in df.iterrows(): |
| words = get_tax_words(row.taxonomy_id, ncbi) |
| tax_words.append(words) |
| for col in tax_embed_cols: |
| col_values = [] |
| for i in range(len(df)): |
| if col in tax_words[i]: |
| col_values.append(tax_words[i][col]) |
| else: |
| col_values.append('UNK') |
| df[col] = col_values |
|
|
| |
| |
|
|
| |
| smiles_col = [] |
| for ind, row in tqdm(df.iterrows()): |
| sub = row.substrate |
| if not sub in metabolite_inchi_smiles_dic.index: |
| smiles_col.append(None) |
| else: |
| smiles_col.append(metabolite_inchi_smiles_dic.loc[sub].smiles) |
| |
| df['substrate_smiles'] = smiles_col |
|
|
| mwcol = [] |
|
|
| for smi in tqdm(metabolite_inchi_smiles_dic.smiles): |
| mw = None |
| if not smi is None: |
| try: |
| mol = Chem.MolFromSmiles(smi) |
| mw = Descriptors.MolWt(mol) |
| except: |
| pass |
| mwcol.append(mw) |
| metabolite_inchi_smiles_dic['MW'] = mwcol |
|
|
| def sort_by_second(item): return item[1] |
|
|
| smi_to_mw_dic = {} |
| for smi, mw in zip(metabolite_inchi_smiles_dic.smiles, metabolite_inchi_smiles_dic.MW): |
| smi_to_mw_dic[smi] = mw |
| |
| def sum_mwts(smis): |
| mw = 0 |
| for smi in smis: |
| mw+=smi_to_mw_dic[smi] |
| return mw |
|
|
| |
| |
| df["enzyme_type"] = np.nan |
| df.loc[pd.isnull(df["comment"])] = "" |
| df["enzyme_type"] = "wild type" |
| df["enzyme_type"][df['comment'].str.contains("mutant")] = "mutant" |
| df["enzyme_type"][df['comment'].str.contains("mutate")] = "mutant" |
| df["enzyme_type"][df['comment'].str.contains("chimera")] = "mutant" |
| df["enzyme_type"][df['comment'].str.contains("inhibitor")] = "inhibition" |
| df["enzyme_type"][df['comment'].str.contains("inhibition")] = "inhibition" |
| df["enzyme_type"][df['comment'].str.contains("presence of")] = "regulated" |
| df["enzyme_type"][df['comment'].str.contains("recombinant")] = "recombinant" |
| df["enzyme_type"][df['comment'].str.contains("allozyme")] = "allozyme" |
| df["enzyme_type"][df['comment'].str.contains("alloenzyme")] = "allozyme" |
| df["enzyme_type"][df['comment'].str.contains("isozyme")] = "isozyme" |
| df["enzyme_type"][df['comment'].str.contains("isoenzyme")] = "isozyme" |
| df["enzyme_type"][df['comment'].str.contains("isoform")] = "isozyme" |
|
|
| |
| |
| |
| pat = r'[ACDEFGHIKLMNPQRSTVWY][0-9]+[ACDEFGHIKLMNPQRSTVWY]' |
| mutations_col = [] |
| enztype_col = [] |
| for com,enz_type in zip(df.comment,df.enzyme_type): |
| items = re.findall(pattern=pat, string=com) |
| if len(items)>0: |
| mutations_col.append(';'.join(items)) |
| enztype_col.append('mutant') |
| else: |
| mutations_col.append(None) |
| enztype_col.append(enz_type) |
| df['enzyme_type'] = enztype_col |
| df['mutations'] = mutations_col |
|
|
| |
| |
| phrow = [] |
| temprow = [] |
| for com,phopt,topt in zip(df.comment,df.ph_opt,df.temp_opt): |
| pat = r'[0-9][0-9].C' |
| try: |
| temp = int(re.findall(pattern=pat, string=com)[0].split('C')[0][:2]) |
| pat = r'pH [0-9]\.[0-9]' |
| ph = float(re.findall(pattern=pat, string=com)[0].split('pH')[-1].strip()) |
| except: |
| if phopt: ph = np.average(phopt) |
| else: ph = None |
| if topt: temp = np.average(topt) |
| else: temp = None |
| phrow.append(ph) |
| temprow.append(temp) |
| |
| df['ph'] = phrow |
| df['temperature'] = temprow |
|
|
| |
| orgec_to_topt = {} |
| orgec_to_phopt = {} |
| org_to_topt = {} |
| org_to_phopt = {} |
| for _, row in df.iterrows(): |
| org = row.organism |
| ec = row.ec |
| orgec = org+'__'+ec |
| if not orgec in orgec_to_topt: |
| orgec_to_topt[orgec] = [] |
| if not orgec in orgec_to_phopt: |
| orgec_to_phopt[orgec] = [] |
| if not org in org_to_topt: |
| org_to_topt[org] = [] |
| if not org in org_to_phopt: |
| org_to_phopt[org] = [] |
| if not pd.isna(row.temperature): |
| orgec_to_topt[orgec].append(row.temperature) |
| org_to_topt[org].append(row.temperature) |
| if not pd.isna(row.ph): |
| orgec_to_phopt[orgec].append(row.ph) |
| org_to_phopt[org].append(row.ph) |
|
|
| tempcol = [] |
| phcol = [] |
| for org, ec, temp, ph in zip(df.organism, df.ec, df.temperature,df.ph): |
| orgec = org+'__'+ec |
| if pd.isna(temp): |
| if len(orgec_to_topt[orgec])>0: |
| temp = np.median(orgec_to_topt[orgec]) |
| else: |
| if len(org_to_topt[org])>0: |
| temp = np.median(org_to_topt[org]) |
| else: |
| temp = None |
| if pd.isna(ph): |
| if len(orgec_to_phopt[orgec])>0: |
| ph = np.median(orgec_to_phopt[orgec]) |
| else: |
| if len(org_to_phopt[org])>0: |
| ph = np.median(org_to_phopt[org]) |
| else: |
| ph = None |
| tempcol.append(temp) |
| phcol.append(ph) |
|
|
| df['temperature'] = tempcol |
| df['ph'] = phcol |
|
|
| def _split_reaction(reaction): |
| reacs, prods = reaction.split(" >> ") |
| reacs = reacs.split(' + ') |
| prods = prods.split(' + ') |
| return reacs, prods |
|
|
| rxnsmi_col = [] |
| mwdiff_col = [] |
| mw_col = [] |
| all_rxnsmis = [] |
| for substrate, subsmi, sub_to_reactions in tqdm(zip(df.substrate, |
| df.substrate_smiles, |
| df.reactions)): |
| rxnsmis = [] |
| for sub, reactions in sub_to_reactions.items(): |
| try: |
| subsminow = metabolite_inchi_smiles_dic.loc[sub].smiles |
| except KeyError: |
| continue |
| if subsminow!=subsmi: |
| continue |
| for reaction in reactions: |
| reacs, prods = _split_reaction(reaction) |
| reacsmis = [] |
| prodsmis = [] |
| for reac in reacs: |
| if reac in metabolite_inchi_smiles_dic.index: |
| reacsmis.append(metabolite_inchi_smiles_dic.loc[reac].smiles) |
| for prod in prods: |
| if prod in metabolite_inchi_smiles_dic.index: |
| prodsmis.append(metabolite_inchi_smiles_dic.loc[prod].smiles) |
| |
| try: |
| reac_mw = sum_mwts(reacsmis) |
| except: |
| reac_mw = None |
| |
| try: |
| prod_mw = sum_mwts(prodsmis) |
| except: |
| prod_mw = None |
|
|
| reacsmis_ = [] |
| for smi in reacsmis: |
| if pd.isna(smi): |
| continue |
| else: |
| reacsmis_.append(smi) |
| prodsmis_ = [] |
| for smi in prodsmis: |
| if pd.isna(smi): |
| continue |
| else: |
| prodsmis_.append(smi) |
| |
| reaction_smiles = f'{".".join(reacsmis_)}>>{".".join(prodsmis_)}' |
| |
| if pd.isna(reac_mw) or pd.isna(prod_mw): |
| rxnsmis.append((reaction_smiles,100000,0)) |
| else: |
| rxnsmis.append((reaction_smiles,abs(reac_mw-prod_mw),reac_mw+prod_mw)) |
| |
| rxn_now = None |
| mwdiff_now = None |
| mw_now = None |
| |
| if len(rxnsmis)>0: |
| rxnsmis_sorted = sorted(rxnsmis,key=sort_by_second) |
| for rxnsmi, mwdiff,mw in rxnsmis_sorted: |
| reacside, prodside = rxnsmi.split('>>') |
| if subsmi in reacside: |
| rxn_now = rxnsmi |
| mwdiff_now = mwdiff |
| mw_now = mw |
| break |
| |
| mwdiff_col.append(mwdiff_now) |
| mw_col.append(mw_now) |
| rxnsmi_col.append(rxn_now) |
| all_rxnsmis.append(rxnsmis) |
| |
| df['reaction_smiles'] = rxnsmi_col |
| df['reaction_mw_difference'] = mwdiff_col |
| df['reaction_mw'] = mw_col |
|
|
| unicol = [] |
| for ind, row in tqdm(df.iterrows()): |
| if not type(row.uniprot) is list: |
| if pd.isna(row.uniprot): |
| unicol.append(None) |
| continue |
| unis = np.array(row.uniprot).flatten() |
| try: |
| unicol.append(';'.join(unis)) |
| except TypeError: |
| unis_ = [] |
| for each in unis: |
| unis_.extend(each) |
| unis_ = np.array(unis_).flatten() |
| unicol.append(';'.join(unis_)) |
| |
| df['uniprot'] = unicol |
|
|
| seqcol = [] |
| uniset = set() |
| for uni in df.uniprot: |
| if pd.isna(uni): continue |
| else: |
| unis = uni.split(';') |
| for each in unis: |
| uniset.add(each) |
| |
| def _get_sequence(uni): |
| r = requests.get(f'https://rest.uniprot.org/uniprotkb/{uni}.fasta') |
| if r.status_code==200: |
| lines = r.text.split('\n') |
| seq = ''.join(lines[1:]) |
| return seq |
| |
| outputs = Parallel(n_jobs=30, verbose=5)(delayed(_get_sequence)(uni) for uni in uniset) |
| uni_to_seq = {} |
| for uni, seq in zip(uniset, outputs): |
| uni_to_seq[uni] = seq |
| |
| seqrow = [] |
| seq_srcrow = [] |
| for ind, row in tqdm(df.iterrows()): |
| uni = row.uniprot |
| if pd.isna(uni): |
| seqrow.append(None) |
| seq_srcrow.append(None) |
| else: |
| unis = row.uniprot.split(';') |
| seqs = [] |
| for uni in unis: |
| if uni in uni_to_seq: |
| seqs.append(uni_to_seq[uni]) |
| else: |
| continue |
| set_seqs = set(seqs) |
| if len(set_seqs)>=1: |
| seqrow.append(';'.join(set_seqs)) |
| seq_srcrow.append('brenda') |
| else: |
| seqrow.append(None) |
| seq_srcrow.append(None) |
| |
| df['sequence'] = seqrow |
| df['sequence_source'] = seq_srcrow |
| noseq_pairs = [] |
| for ind, row in df.iterrows(): |
| if pd.isna(seq) or seq.strip()=='': |
| if not pd.isna(tax) and not pd.isna(ec): |
| seq = row.sequence |
| tax = str(int(row.taxonomy_id)) |
| ec = row.ec |
| noseq_pairs.append(tax+'__'+ec) |
| |
| noseq_pairs = set(noseq_pairs) |
| noseq_tax_ec = [] |
| for each in noseq_pairs: |
| tax, ec = each.split('__') |
| noseq_tax_ec.append((tax, ec)) |
| |
| def get_url(taxid,ec): |
| return f"https://rest.uniprot.org/uniprotkb/stream?fields=accession%2Cid%2Csequence&format=tsv&query=%28%28organism_id%3A{taxid}%29+AND+%28ec%3A{ec}%29%29" |
|
|
| import requests |
| def fetch_and_process(items): |
| ec,tax = items |
| url = get_url(ec, tax) |
| key = f'{tax}__{ec}.tsv' |
| keydir = f'{args.processed_dir}/tax_ec_seqdata/' |
| failed = False |
| dic = {} |
| if os.path.exists(keydir+key): |
| _df = pd.read_csv(keydir+key, sep='\t') |
| else: |
| r = requests.get(url) |
| if r.status_code==200: |
| text = r.text |
| try: |
| f = open(keydir + key, 'w') |
| f.write(text) |
| f.close() |
| except: |
| pass |
| _df = pd.read_csv(keydir+key, sep='\t') |
| else: |
| failed = True |
| if not failed: |
| for entry, seq in zip(_df.Entry, _df.Sequence): |
| dic[entry] = seq |
| |
| return dic |
| |
| noseq_tax_ec = list(noseq_tax_ec) |
| seq_dicts = Parallel(n_jobs=30, verbose=100)(delayed(fetch_and_process)(items) for items in noseq_tax_ec) |
|
|
| tax_ec_seqs_dict = {} |
|
|
| for (tax,ec), seqs in zip(noseq_tax_ec, seq_dicts): |
| tax_ec_seqs_dict[str(tax)+'__'+ec] = seqs |
| |
| f = open(f'{args.processed_dir}/tax_ec_seqs_dict.json','w') |
| f.write(json.dumps(tax_ec_seqs_dict,indent=True)) |
| f.close() |
|
|
| seqrow = [] |
| srcrow = [] |
| unirow = [] |
| for ind, row in tqdm(df.iterrows()): |
| seq = row.sequence |
| src = row.sequence_source |
| uni = row.uniprot |
| if pd.isna(seq) and not pd.isna(row.taxonomy_id): |
| tax = str(int(row.taxonomy_id)) |
| ec = str(row.ec) |
| pair = tax+'__'+ec |
| if pair in tax_ec_seqs_dict: |
| seq_dict = tax_ec_seqs_dict[pair] |
| else: |
| seq_dict = {} |
| if len(seq_dict)>0: |
| unis = [] |
| seqs = [] |
| for uni, seq in seq_dict.items(): |
| unis.append(uni) |
| seqs.append(seq) |
| seqrow.append(';'.join(seqs)) |
| unirow.append(';'.join(unis)) |
| srcrow.append('uniprot_search') |
| else: |
| seqrow.append(seq) |
| unirow.append(uni) |
| srcrow.append('brenda') |
| else: |
| seqrow.append(seq) |
| unirow.append(uni) |
| srcrow.append('brenda') |
|
|
| df['uniprot'] = unirow |
| df['sequence'] = seqrow |
| df['sequence_source'] = srcrow |
|
|
| nseq_col = [] |
| for ind, row in tqdm(df.iterrows()): |
| if pd.isna(row.sequence): |
| nseq_col.append(0) |
| seqcol.append(None) |
| else: |
| seqs = row.sequence.split(';') |
| nseq_col.append(len(seqs)) |
| |
| df['n_sequence'] = nseq_col |
| |
| df.dropna(subset=['sequence'],inplace=True) |
| df.reset_index(inplace=True, drop=True) |
|
|
| dfseq1 = df[df.n_sequence==1] |
| dfseq1.drop(columns=['reactions'],inplace=True) |
| dfseq1.reset_index(inplace=True, drop=True) |
| dfseq1.to_csv(f'{args.processed_dir}/brenda_processed_all_singleSeqs.csv') |
|
|
| dfseq1_wt = dfseq1[dfseq1.enzyme_type=='wild type'] |
| dfseq1_wt.reset_index(inplace=True, drop=True) |
| dfseq1_wt.to_csv(f'{args.processed_dir}/brenda_processed_wt_singleSeqs.csv') |
|
|
| dfseq2 = df[df.n_sequence>=1] |
| dfseq2 = df[df.n_sequence<=10] |
| dfseq2.drop(columns=['reactions'],inplace=True) |
| dfseq2.reset_index(inplace=True, drop=True) |
| dfseq2.to_csv(f'{args.processed_dir}/brenda_processed_all_multipleSeqs.csv') |
|
|
| dfseq2_wt = dfseq2[dfseq2.enzyme_type=='wild type'] |
| dfseq2_wt.reset_index(inplace=True, drop=True) |
| dfseq2_wt.to_csv(f'{args.processed_dir}/brenda_processed_wt_multipleSeqs.csv') |
|
|
