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PredicateValue (sorted: default)
rdfs:label
"alpha-D-Xylopyranose"
rdf:type
drugbank:description
" experimental This compound belongs to the hexoses. These are monosaccharides in which the sugar unit is a hexose. Hexoses Organic Compounds Organooxygen Compounds Carbohydrates and Carbohydrate Conjugates Monosaccharides Oxanes Secondary Alcohols 1,2-Diols Hemiacetals Polyamines oxane hemiacetal polyol 1,2-diol secondary alcohol polyamine ether alcohol logP -2.6 ALOGPS logS 0.91 ALOGPS Water Solubility 1.22e+03 g/l ALOGPS logP -2.3 ChemAxon IUPAC Name (2S,3R,4S,5R)-oxane-2,3,4,5-tetrol ChemAxon Traditional IUPAC Name α-D-xylose ChemAxon Molecular Weight 150.1299 ChemAxon Monoisotopic Weight 150.05282343 ChemAxon SMILES O[C@@H]1CO[C@H](O)[C@H](O)[C@H]1O ChemAxon Molecular Formula C5H10O5 ChemAxon InChI InChI=1S/C5H10O5/c6-2-1-10-5(9)4(8)3(2)7/h2-9H,1H2/t2-,3+,4-,5+/m1/s1 ChemAxon InChIKey InChIKey=SRBFZHDQGSBBOR-LECHCGJUSA-N ChemAxon Polar Surface Area (PSA) 90.15 ChemAxon Refractivity 29.96 ChemAxon Polarizability 13.18 ChemAxon Rotatable Bond Count 0 ChemAxon H Bond Acceptor Count 5 ChemAxon H Bond Donor Count 4 ChemAxon pKa (strongest acidic) 11.31 ChemAxon pKa (strongest basic) -3.5 ChemAxon Physiological Charge 0 ChemAxon Number of Rings 1 ChemAxon Bioavailability 1 ChemAxon Rule of Five true ChemAxon ChEBI 28518 KEGG Compound C02205 PDB XYS BE0001329 Chondroitinase-B Pedobacter heparinus (strain ATCC 13125 / DSM 2366 / NCIB 9290) # Overington JP, Al-Lazikani B, Hopkins AL: How many drug targets are there? Nat Rev Drug Discov. 2006 Dec;5(12):993-6. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/17139284 # Imming P, Sinning C, Meyer A: Drugs, their targets and the nature and number of drug targets. Nat Rev Drug Discov. 2006 Oct;5(10):821-34. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/17016423 unknown Chondroitinase-B Cleaves the glycosaminoglycan, dermatan sulfate cslB None 8.94 56323.0 Pedobacter heparinus (strain ATCC 13125 / DSM 2366 / NCIB 9290) GenBank Gene Database U27584 GenBank Protein Database 1002527 UniProtKB Q46079 UniProt Accession CSLB_PEDHD Chondroitin B eliminase Chondroitin B lyase Chondroitin sulfate B lyase Chondroitinase B precursor EC 4.2.2.19 >Chondroitinase B precursor MKMLNKLAGYLLPIMVLLNVAPCLGQVVASNETLYQVVKEVKPGGLVQIADGTYKDVQLI VSNSGKSGLPITIKALNPGKVFFTGDAKVELRGEHLILEGIWFKDGNRAIQAWKSHGPGL VAIYGSYNRITACVFDCFDEANSAYITTSLTEDGKVPQHCRIDHCSFTDKITFDQVINLN NTARAIKDGSVGGPGMYHRVDHCFFSNPQKPGNAGGGIRIGYYRNDIGRCLVDSNLFMRQ DSEAEIITSKSQENVYYGNTYLNCQGTMNFRHGDHQVAINNFYIGNDQRFGYGGMFVWGS RHVIACNYFELSETIKSRGNAALYLNPGAMASEHALAFDMLIANNAFINVNGYAIHFNPL DERRKEYCAANRLKFETPHQLMLKGNLFFKDKPYVYPFFKDDYFIAGKNSWTGNVALGVE KGIPVNISANRSAYKPVKIKDIQPIEGIALDLNALISKGITGKPLSWDEVRPYWLKEMPG TYALTARLSADRAAKFKAVIKRNKEH >1521 bp ATGAAGATGCTGAATAAACTAGCCGGATACTTATTGCCGATCATGGTGCTGCTGAATGTG GCACCATGCTTAGGTCAGGTTGTTGCTTCAAATGAAACTTTATACCAGGTTGTAAAGGAG GTAAAACCCGGTGGTCTGGTACAGATTGCCGATGGGACTTATAAAGATGTTCAGCTGATT GTCAGCAATTCAGGAAAATCTGGTTTGCCCATCACTATTAAAGCCCTGAACCCGGGTAAG GTTTTTTTTACCGGAGATGCTAAAGTAGAGCTGAGGGGCGAGCACCTGATACTGGAAGGC ATCTGGTTTAAAGACGGGAACAGAGCTATTCAGGCATGGAAATCACATGGACCCGGATTG GTGGCTATATATGGTAGCTATAACCGCATTACCGCATGTGTATTTGATTGTTTTGATGAA GCCAATTCTGCTTACATTACTACTTCGCTTACCGAAGACGGAAAGGTACCTCAACATTGC CGCATAGACCATTGCAGTTTTACCGATAAGATCACTTTTGACCAGGTAATTAACCTGAAC AATACAGCCAGAGCTATTAAAGACGGTTCGGTGGGAGGACCGGGGATGTACCATCGTGTT GATCACTGTTTTTTTTCCAATCCGCAAAAACCGGGTAATGCCGGAGGGGGAATCAGGATT GGCTATTACCGTAATGATATAGGCCGTTGTCTGGTAGACTCTAACCTGTTTATGCGTCAG GATTCGGAAGCAGAGATCATCACCAGCAAATCGCAGGAAAATGTTTATTATGGTAATACT TACCTGAATTGCCAGGGCACCATGAACTTTCGTCACGGTGATCATCAGGTGGCCATTAAC AATTTTTATATAGGCAATGACCAGCGATTTGGATACGGGGGAATGTTTGTTTGGGGAAGC AGGCATGTCATAGCCTGTAATTATTTTGAGCTGTCCGAAACCATAAAGTCGAGGGGGAAC GCCGCATTGTATTTAAACCCCGGTGCTATGGCTTCGGAGCATGCTCTTGCTTTCGATATG TTGATAGCCAACAACGCTTTCATCAATGTAAATGGGTATGCCATCCATTTTAATCCATTG GATGAGCGCAGAAAAGAATATTGTGCAGCCAATAGGCTTAAGTTCGAAACCCCGCACCAG CTAATGTTAAAAGGCAATCTTTTCTTTAAGGATAAACCTTATGTTTACCCATTTTTTAAA GATGATTATTTTATAGCAGGGAAAAATAGCTGGACTGGTAATGTAGCCTTAGGTGTGGAA AAGGGAATCCCTGTTAACATTTCGGCCAATAGGTCTGCCTATAAGCCGGTAAAAATTAAA GATATCCAGCCCATAGAAGGAATCGCTCTTGATCTCAATGCGCTGATCAGCAAAGGCATT ACAGGAAAGCCCCTTAGCTGGGATGAAGTAAGGCCCTACTGGTTAAAAGAAATGCCCGGG ACGTATGCTTTAACGGCCAGGCTTTCTGCAGATAGGGCTGCAAAGTTTAAAGCCGTAATT AAAAGAAATAAAGAGCACTGA BE0001416 Chondroitinase-AC Pedobacter heparinus (strain ATCC 13125 / DSM 2366 / NCIB 9290) # Overington JP, Al-Lazikani B, Hopkins AL: How many drug targets are there? Nat Rev Drug Discov. 2006 Dec;5(12):993-6. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/17139284 # Imming P, Sinning C, Meyer A: Drugs, their targets and the nature and number of drug targets. Nat Rev Drug Discov. 2006 Oct;5(10):821-34. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/17016423 unknown Chondroitinase-AC Involved in catalytic activity Eliminative degradation of polysaccharides containing 1,4-beta-D-hexosaminyl and 1,3-beta-D-glucuronosyl linkages to disaccharides containing 4-deoxy-beta-D-gluc-4- enuronosyl groups cslA None 9.19 79695.0 Pedobacter heparinus (strain ATCC 13125 / DSM 2366 / NCIB 9290) GenBank Gene Database U27583 GenBank Protein Database 1002525 UniProtKB Q59288 UniProt Accession CSLA_PEDHD Chondroitin AC eliminase Chondroitin AC lyase Chondroitin sulfate AC lyase Chondroitinase AC precursor EC 4.2.2.5 >Chondroitinase AC precursor MKKLFVTCIVFFSILSPALLIAQQTGTAELIMKRVMLDLKKPLRNMDKVAEKNLNTLQPD GSWKDVPYKDDAMTNWLPNNHLLQLETIIQAYIEKDSHYYGDDKVFDQISKAFKYWYDSD PKSRNWWHNEIATPQALGEMLILMRYGKKPLDEALVHKLTERMKRGEPEKKTGANKTDIA LHYFYRALLTSDEALLSFAVKELFYPVQFVHYEEGLQYDYSYLQHGPQLQISSYGAVFIT GVLKLANYVRDTPYALSTEKLAIFSKYYRDSYLKAIRGSYMDFNVEGRGVSRPDILNKKA EKKRLLVAKMIDLKHTEEWADAIARTDSTVAAGYKIEPYHHQFWNGDYVQHLRPAYSFNV RMVSKRTRRSESGNKENLLGRYLSDGATNIQLRGPEYYNIMPVWEWDKIPGITSRDYLTD RPLTKLWGEQGSNDFAGGVSDGVYGASAYALDYDSLQAKKAWFFFDKEIVCLGAGINSNA PENITTTLNQSWLNGPVISTAGKTGRGKITTFKAQGQFWLLHDAIGYYFPEGANLSLSTQ SQKGNWFHINNSHSKDEVSGDVFKLWINHGARPENAQYAYIVLPGINKPEEIKKYNGTAP KVLANTNQLQAVYHQQLDMVQAIFYTAGKLSVAGIEIETDKPCAVLIKHINGKQVIWAAD PLQKEKTAVLSIRDLKTGKTNRVKIDFPQQEFAGATVELK >2103 bp ATGAAGAAATTATTTGTAACCTGTATAGTCTTTTTCTCTATTTTAAGTCCTGCTCTGCTT ATTGCACAGCAGACCGGTACTGCAGAACTGATTATGAAGCGGGTGATGCTGGACCTTAAA AAGCCTTTGCGCAATATGGATAAGGTGGCGGAAAAGAACCTGAATACGCTGCAGCCTGAC GGTAGCTGGAAGGATGTGCCTTATAAAGATGATGCCATGACCAATTGGTTGCCAAACAAC CACCTGCTACAATTGGAAACTATTATACAGGCTTATATTGAAAAAGATAGTCACTATTAT GGCGACGATAAAGTGTTTGACCAGATTTCCAAAGCTTTTAAGTATTGGTATGACAGCGAC CCGAAAAGCCGCAACTGGTGGCACAATGAAATTGCCACTCCGCAGGCCCTTGGTGAAATG CTGATCCTGATGCGTTACGGTAAAAAGCCGCTTGATGAAGCATTGGTGCATAAATTGACC GAAAGAATGAAGCGGGGCGAACCGGAGAAGAAAACGGGGGCCAACAAAACAGATATCGCC CTGCATTACTTTTATCGTGCTTTGTTAACGTCTGATGAGGCTTTGCTTTCCTTCGCCGTA AAAGAATTGTTTTATCCCGTACAGTTTGTACACTATGAGGAAGGCCTGCAATACGATTAT TCCTACCTGCAGCACGGTCCGCAATTACAGATATCGAGCTACGGTGCCGTATTTATTACC GGGGTACTGAAACTTGCCAATTACGTTAGGGATACCCCTTATGCTTTAAGTACCGAGAAA CTGGCTATATTTTCAAAGTATTACCGCGACAGTTATCTGAAAGCTATCCGTGGAAGTTAT ATGGATTTTAACGTAGAAGGCCGCGGAGTAAGCCGGCCAGACATTCTAAATAAAAAGGCA GAAAAAAAGAGGTTGCTGGTGGCGAAGATGATCGATCTTAAGCATACTGAAGAATGGGCT GATGCGATAGCCAGGACAGATAGCACAGTTGCGGCCGGCTATAAGATTGAGCCCTATCAC CATCAGTTCTGGAATGGTGATTATGTGCAACATTTAAGACCTGCCTATTCTTTTAATGTT CGTATGGTGAGTAAGCGGACCCGACGCAGTGAATCCGGCAATAAAGAAAACCTGCTGGGC AGGTATTTATCTGATGGGGCTACTAACATACAATTGCGCGGACCAGAATACTATAACATT ATGCCGGTATGGGAATGGGACAAGATTCCTGGCATAACCAGCCGTGATTATTTAACCGAC AGACCTTTGACGAAGCTTTGGGGAGAGCAGGGGAGCAATGACTTTGCAGGAGGGGTGTCT GATGGTGTATACGGGGCCAGTGCCTACGCATTGGATTACGATAGCTTACAGGCAAAGAAA GCCTGGTTCTTTTTTGACAAAGAGATTGTATGTCTTGGTGCCGGTATCAACAGCAATGCC CCTGAAAACATTACCACTACCCTTAACCAGAGCTGGTTAAATGGCCCGGTTATAAGTACT GCAGGTAAAACCGGCCGGGGTAAAATAACAACGTTTAAAGCACAGGGACAGTTCTGGTTG TTGCACGATGCGATTGGTTATTACTTTCCTGAAGGGGCCAACCTTAGTCTGAGTACCCAG TCGCAAAAAGGCAATTGGTTCCACATCAACAATTCACATTCAAAAGATGAAGTTTCTGGT GATGTATTTAAGCTTTGGATCAACCATGGTGCCAGGCCAGAAAATGCGCAGTATGCTTAT ATCGTTTTGCCGGGAATAAACAAGCCGGAAGAAATTAAAAAATATAATGGAACGGCACCG AAAGTCCTTGCCAATACCAACCAGCTGCAGGCAGTTTATCATCAGCAGTTAGATATGGTA CAGGCTATCTTCTATACAGCTGGAAAATTAAGCGTAGCGGGCATAGAAATTGAAACAGAT AAGCCATGTGCAGTGCTGATCAAGCACATCAATGGCAAGCAGGTAATTTGGGCTGCCGAT CCATTGCAAAAAGAAAAGACTGCAGTGTTGAGCATCAGGGATTTAAAAACAGGAAAAACA AATCGGGTAAAAATTGATTTTCCGCAACAGGAATTTGCAGGTGCAACGGTTGAACTGAAA TAG PF02278 Lyase_8 PF02884 Lyase_8_C PF08124 Lyase_8_N component extracellular region function carbon-oxygen lyase activity function carbon-oxygen lyase activity, acting on polysaccharides function catalytic activity function lyase activity BE0001339 Exoglucanase/xylanase Cellulomonas fimi # Overington JP, Al-Lazikani B, Hopkins AL: How many drug targets are there? Nat Rev Drug Discov. 2006 Dec;5(12):993-6. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/17139284 # Imming P, Sinning C, Meyer A: Drugs, their targets and the nature and number of drug targets. Nat Rev Drug Discov. 2006 Oct;5(10):821-34. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/17016423 unknown Exoglucanase/xylanase Carbohydrate transport and metabolism The biological conversion of cellulose to glucose generally requires three types of hydrolytic enzymes:(1) Endoglucanases which cut internal beta-1,4-glucosidic bonds; (2) Exocellobiohydrolases that cut the dissaccharide cellobiose from the nonreducing end of the cellulose polymer chain; (3) Beta-1,4- glucosidases which hydrolyze the cellobiose and other short cello- oligosaccharides to glucose cex Cytoplasmic None 6.62 51291.0 Cellulomonas fimi GenBank Gene Database M15824 GenBank Protein Database 144425 UniProtKB P07986 UniProt Accession GUX_CELFI 1,4-beta-cellobiohydrolase Beta-1,4- glycanase CEX EC 3.2.1.8 EC 3.2.1.91 Endo-1,4-beta-xylanase B Exocellobiohydrolase Exoglucanase/xylanase >Exoglucanase/xylanase precursor [Includes: Exoglucanase MPRTTPAPGHPARGARTALRTTRRRAATLVVGATVVLPAQAATTLKEAADGAGRDFGFAL DPNRLSEAQYKAIADSEFNLVVAENAMKWDATEPSQNSFSFGAGDRVASYAADTGKELYG HTLVWHSQLPDWAKNLNGSAFESAMVNHVTKVADHFEGKVASWDVVNEAFADGDGPPQDS AFQQKLGNGYIETAFRAARAADPTAKLCINDYNVEGINAKSNSLYDLVKDFKARGVPLDC VGFQSHLIVGQVPGDFRQNLQRFADLGVDVRITELDIRMRTPSDATKLATQAADYKKVVQ ACMQVTRCQGVTVWGITDKYSWVPDVFPGEGAALVWDASYAKKPAYAAVMEAFGASPTPT PTTPTPTPTTPTPTPTSGPAGCQVLWGVNQWNTGFTANVTVKNTSSAPVDGWTLTFSFPS GQQVTQAWSSTVTQSGSAVTVRNAPWNGSIPAGGTAQFGFNGSHTGTNAAPTAFSLNGTP CTVG >1455 bp ATGCCTAGGACCACGCCCGCACCCGGCCACCCGGCCCGCGGCGCCCGCACCGCTCTGCGC ACGACGCGCCGCCGCGCGGCGACGCTCGTCGTCGGCGCCACGGTCGTGCTGCCCGCCCAG GCCGCGACCACGCTCAAGGAGGCCGCCGACGGCGCCGGCCGGGACTTCGGCTTCGCGCTC GACCCCAACCGGCTCTCGGAGGCGCAGTACAAGGCGATCGCCGACAGCGAGTTCAACCTC GTCGTCGCCGAGAACGCGATGAAGTGGGACGCCACCGAGCCCTCGCAGAACAGCTTCTCC TTCGGCGCGGGCGACCGCGTCGCGAGCTACGCCGCCGACACCGGCAAGGAGCTGTACGGC CACACGCTCGTCTGGCACTCGCAGCTGCCCGACTGGGCGAAGAACCTCAACGGCTCCGCG TTCGAGAGCGCGATGGTCAACCACGTGACGAAGGTCGCCGACCACTTCGAGGGCAAGGTC GCGTCGTGGGACGTCGTCAACGAGGCGTTCGCCGACGGCGACGGCCCGCCGCAGGACTCG GCGTTCCAGCAGAAGCTCGGCAACGGCTACATCGAGACCGCGTTCCGGGCGGCACGTGCG GCGGACCCGACCGCCAAGCTGTGCATCAACGACTACAACGTCGAGGGCATCAACGCGAAG AGCAACTCGCTCTACGACCTCGTCAAGGACTTCAAGGCGCGCGGCGTCCCGCTCGACTGC GTCGGGTTCCAGTCGCACCTCATCGTCGGCCAGGTGCCGGGCGACTTCCGGCAGAACCTG CAGCGGTTCGCGGACCTGGGCGTGGACGTGCGCATCACCGAGCTCGACATCCGCATGCGG ACGCCCTCCGACGCGACCAAGCTCGCGACCCAGGCGGCCGACTACAAGAAGGTCGTGCAG GCCTGCATGCAGGTGACCCGCTGCCAGGGCGTGACCGTCTGGGGCATCACCGACAAGTAC TCGTGGGTGCCGGACGTCTTCCCGGGCGAGGGGGCCGCGCTGGTGTGGGACGCGAGCTAC GCCAAGAAGCCGGCCTACGCCGCCGTGATGGAGGCCTTCGGCGCGAGCCCGACGCCGACG CCCACCACGCCGACCCCGACGCCCACGACGCCGACGCCGACCCCGACGTCCGGTCCGGCC GGGTGCCAGGTGCTGTGGGGCGTCAACCAGTGGAACACCGGCTTCACCGCGAACGTCACC GTGAAGAACACGTCCTCCGCTCCGGTCGACGGCTGGACGCTCACGTTCAGCTTCCCGTCC GGCCAGCAGGTCACCCAGGCGTGGAGCTCGACGGTCACGCAGTCCGGCTCGGCCGTGACG GTCCGCAACGCCCCGTGGAACGGCTCGATCCCGGCGGGCGGCACCGCGCAGTTCGGCTTC AACGGCTCGCACACGGGCACCAACGCCGCGCCGACGGCGTTCTCGCTCAACGGCACGCCC TGCACGGTCGGCTGA PF00553 CBM_2 PF00331 Glyco_hydro_10 function catalytic activity function hydrolase activity function hydrolase activity, acting on glycosyl bonds function hydrolase activity, hydrolyzing O-glycosyl compounds function pattern binding function polysaccharide binding function binding process metabolism process macromolecule metabolism process carbohydrate metabolism process physiological process BE0002844 Aldose 1-epimerase Lactococcus lactis unknown Aldose 1-epimerase Involved in isomerase activity galM None 5.01 37611.0 Lactococcus lactis GenBank Gene Database U60828 UniProtKB Q9ZB17 UniProt Accession Q9ZB17_9LACT >Aldose 1-epimerase MEIKIRDFGLGSDLISLTNKAGVTISFTNLGARIVDWQKDGKHLILGFDSAKEYLEKDAY PGATVGPTAGRIKDGLVKISGKDYILNQNEGPQTLHGGEESIHTKLWTYEVTDLGAEVQV KFSLVTNDGTNGYPGKIEMSVTHSFDDYNKWKIHYEAISDKDTVFNPTGHVYFNLNGDAS ESVENHGLRLAASRFVPLKDQTEIVRGDIVDIKNTDLDFRQEKQLSNAFNSNMEQVQLVK GIDHPFLLDQLGLDKEQARLTLDDTSISVFTDQPSIVIFTANFGDLGTLYHEKKQVHHGG ITFECQVSPGSEQIPELGDISLKAGEKYQATTIYSLHTK >1020 bp ATGGAAATTAAAATAAGAGATTTTGGCTTAGGAAGTGACTTAATTAGTCTAACCAATAAA GCAGGTGTCACAATTTCTTTTACAAATCTGGGCGCTCGGATTGTTGACTGGCAAAAAGAT GGAAAGCATCTGATTCTAGGCTTTGATTCAGCTAAAGAATATTTAGAAAAAGATGCCTAT CCTGGTGCAACAGTTGGACCTACAGCAGGAAGAATTAAGGATGGTTTGGTCAAAATTTCT GGAAAAGATTATATCTTAAATCAAAATGAAGGCCCTCAAACCTTACATGGTGGGGAAGAA AGTATTCATACTAAACTTTGGACATATGAAGTTACCGATTTAGGAGCTGAAGTTCAAGTC AAATTTTCCTTAGTTACTAATGACGGAACAAATGGTTATCCTGGTAAAATAGAAATGTCA GTAACTCATTCTTTTGATGATTACAATAAGTGGAAAATTCATTATGAGGCCATTTCTGAT AAAGACACTGTGTTTAATCCAACTGGGCATGTCTATTTTAATTTGAATGGTGATGCTAGT GAATCTGTTGAAAATCATGGACTTCGACTGGCCGCTTCAAGATTTGTTCCTTTAAAAGAC CAAACAGAAATTGTTCGTGGTGATATCGTTGATATAAAAAATACAGACTTGGATTTCCGT CAGGAAAAACAATTATCAAATGCCTTCAATTCTAATATGGAACAAGTTCAATTAGTTAAA GGAATTGACCATCCTTTCTTGTTAGACCAGTTAGGACTTGATAAAGAACAAGCTCGTTTA ACGCTTGATGATACTTCAATTTCAGTCTTTACCGACCAACCAAGTATTGTGATATTTACA GCAAATTTTGGTGATTTAGGAACTCTTTATCATGAGAAAAAGCAAGTGCACCATGGTGGA ATTACTTTTGAATGTCAAGTATCACCTGGGTCTGAGCAAATTCCAGAGCTTGGAGATATC AGCCTAAAAGCGGGAGAAAAATATCAAGCAACCACAATTTACAGCTTGCATACAAAATAA PF01263 Aldose_epim function racemase and epimerase activity function racemase and epimerase activity, acting on carbohydrates and derivatives function aldose 1-epimerase activity function catalytic activity function isomerase activity process monosaccharide metabolism process hexose metabolism process galactose metabolism process physiological process process metabolism process cellular metabolism process alcohol metabolism BE0003068 Endo-beta-1,4-xylanase Cellvibrio japonicus unknown Endo-beta-1,4-xylanase Involved in hydrolase activity, hydrolyzing O-glycosyl compounds Endohydrolysis of 1,4-beta-D-xylosidic linkages in xylans Cytoplasmic None 4.48 64884.0 Cellvibrio japonicus GenBank Gene Database Z48928 UniProtKB Q59675 UniProt Accession Q59675_9GAMM EC 3.2.1.8 Endo-beta-1,4-xylanase precursor >Endo-beta-1,4-xylanase MKKIQQLLMLSLISSTLIACGGGGGGGSTPTTSSSPQSSSPASTPSSASSSSIISSSSLS SSLSSSSLSSSSLSSSSASSVSSSSVAASEGNVVIEVDMANGWRGNASGSTSHSGITYSA DGVTFAALGDGVGAVFDIARPTTLEDAVIAMVVNVSAEFKASEANLQIFAQLKEDWSKGE WDCLAASSELTADTDLTLTCTIDEDDDKFNQTARDVQVGIQAKGTPAGTITIKSVTITLA QEAYSANVDHLRDLAPSDFPIGVAVSNTDSATYNLLTNSREQAVVKKHFNHLTAGNIMKM SYMQPTEGNFNFTNADAFVDWATENNMTVHGHALVWHSDYQVPNFMKNWAGSAEDFLAAL DTHITTIVDHYEAKGNLVSWDVVNEAIDDNSPANFRTTDSAFYVKSGNSSVYIERAFQTA RAADPAVILYYNDYNIEQNNAKTTKMVDMVKDFQARSIPIDGVGFQMHVCMNYPSIANIS AAMKKVVDLGLLVKITELDVAVNQPHCDAYPANKINPLTEAAQLAQKKRYCDVVKAYLDT VPVNQRGGISVWGTTDANTWLDGLYREQFEDEKISWPLLFDNNYNDKPALRGFADALIGT QCTNTH >1821 bp ATGAAAAAGATCCAGCAACTCCTCATGCTCTCCCTGATTAGCTCAACACTAATTGCCTGT GGCGGCGGTGGAGGGGGCGGTTCAACACCAACCACCAGCAGCTCACCCCAATCCTCTAGT CCAGCATCGACGCCATCCAGTGCTTCATCCTCATCGATCATATCCTCCTCATCGCTATCA TCATCGCTGTCTTCCTCATCACTATCCTCGTCATCGCTGTCTTCTTCATCGGCGAGCAGT GTTAGCAGCTCCAGTGTCGCTGCCAGCGAGGGCAATGTTGTTATAGAGGTGGACATGGCA AATGGCTGGAGAGGCAACGCATCAGGCAGTACCAGCCATTCCGGTATTACCTACAGTGCC GATGGCGTTACCTTTGCCGCACTGGGTGATGGCGTGGGCGCTGTTTTTGATATTGCCCGA CCAACCACACTGGAAGATGCTGTGATAGCAATGGTTGTTAATGTCAGCGCTGAATTTAAG GCCAGTGAAGCCAACTTGCAGATATTTGCCCAGTTAAAAGAAGACTGGTCAAAGGGCGAA TGGGATTGTCTGGCGGCCAGCAGCGAACTCACTGCGGATACTGACCTAACCCTGACCTGC ACCATTGATGAAGACGACGATAAATTCAACCAAACGGCGCGCGATGTACAAGTCGGTATC CAGGCCAAGGGAACACCCGCCGGAACTATCACCATTAAAAGCGTCACCATTACACTCGCA CAGGAAGCCTATTCAGCCAATGTCGATCACCTGCGCGACCTGGCCCCCAGCGATTTCCCC ATTGGCGTCGCCGTGTCCAATACCGACTCCGCCACTTACAACCTGCTCACCAACAGCAGA GAGCAGGCTGTGGTTAAAAAGCACTTCAATCATTTAACTGCCGGTAACATCATGAAGATG AGTTACATGCAACCTACCGAGGGCAATTTTAACTTCACCAACGCCGACGCCTTTGTGGAT TGGGCCACTGAAAATAATATGACGGTGCACGGCCACGCCCTGGTATGGCATTCCGATTAC CAGGTTCCCAACTTTATGAAAAACTGGGCAGGCAGTGCAGAAGACTTTTTAGCGGCCTTG GACACACATATCACCACCATTGTCGATCACTACGAAGCCAAGGGTAACCTCGTCAGTTGG GACGTCGTTAACGAAGCCATCGACGACAACAGTCCGGCAAACTTCCGCACGACGGATTCT GCGTTTTATGTGAAGAGCGGAAACAGCTCTGTCTATATTGAGCGCGCCTTCCAGACCGCG CGCGCGGCAGATCCCGCTGTGATCCTCTACTACAACGACTACAACATTGAGCAGAACAAT GCCAAGACCACCAAAATGGTCGATATGGTCAAGGACTTCCAGGCGCGCAGTATCCCGATT GACGGTGTGGGCTTCCAGATGCATGTCTGTATGAACTATCCATCCATCGCCAACATTTCT GCCGCGATGAAGAAAGTGGTCGACCTTGGCTTGCTGGTAAAAATTACCGAACTGGATGTT GCCGTCAACCAGCCCCATTGCGATGCGTATCCGGCCAACAAAATCAATCCGCTGACCGAA GCGGCGCAATTGGCCCAGAAAAAACGCTACTGCGACGTAGTGAAGGCCTATCTGGATACA GTCCCGGTGAATCAGCGCGGCGGTATCAGCGTCTGGGGAACTACCGATGCCAACACCTGG CTTGATGGCCTGTACAGAGAACAGTTTGAGGATGAAAAAATTTCCTGGCCCTTGCTGTTC GACAACAACTACAACGACAAACCTGCACTGCGCGGTTTTGCCGATGCGTTAATCGGTACG CAATGTACTAATACACATTGA PF00331 Glyco_hydro_10 PF03426 CBM_15 function hydrolase activity, acting on glycosyl bonds function hydrolase activity, hydrolyzing O-glycosyl compounds function catalytic activity function hydrolase activity process physiological process process metabolism process macromolecule metabolism process carbohydrate metabolism BE0003069 Reducing end xylose-releasing exo-oligoxylanase Bacillus halodurans (strain ATCC BAA-125 / DSM 18197 / FERM 7344 / JCM 9153 / C-125) unknown Reducing end xylose-releasing exo-oligoxylanase Involved in catalytic activity BH2105 Cytoplasmic None 4.45 45010.0 Bacillus halodurans (strain ATCC BAA-125 / DSM 18197 / FERM 7344 / JCM 9153 / C-125) GenBank Gene Database BA000004 UniProtKB Q9KB30 UniProt Accession REOX_BACHD >Xylanase Y MKKTTEGAFYTREYRNLFKEFGYSEAEIQERVKDTWEQLFGDNPETKIYYEVGDDLGYLL DTGNLDVRTEGMSYGMMMAVQMDRKDIFDRIWNWTMKNMYMTEGVHAGYFAWSCQPDGTK NSWGPAPDGEEYFALALFFASHRWGDGDEQPFNYSEQARKLLHTCVHNGEGGPGHPMWNR DNKLIKFIPEVEFSDPSYHLPHFYELFSLWANEEDRVFWKEAAEASREYLKIACHPETGL APEYAYYDGTPNDEKGYGHFFSDSYRVAANIGLDAEWFGGSEWSAEEINKIQAFFADKEP EDYRRYKIDGEPFEEKSLHPVGLIATNAMGSLASVDGPYAKANVDLFWNTPVRTGNRRYY DNCLYLFAMLALSGNFKIWFPEGQEEEH >1167 bp CTAGTGTTCCTCTTCTTGGCCCTCAGGAAACCAAATTTTAAAATTGCCGCTTAGTGCGAG CATCGCAAACAAATATAAACAATTATCGTAATAACGGCGGTTGCCGGTGCGAACCGGTGT GTTCCAGAACAAATCCACATTAGCTTTAGCGTATGGTCCATCAACAGAGGCTAAAGAACC CATCGCGTTAGTAGCAATCAGTCCGACAGGGTGCAATGATTTCTCTTCGAACGGTTCCCC GTCTATTTTATAGCGGCGGTAGTCTTCAGGCTCCTTATCTGCAAAAAACGCCTGGATCTT ATTTATCTCTTCTGCCGACCACTCGCTTCCTCCGAACCATTCAGCGTCAAGTCCAATATT AGCAGCCACACGATAAGAATCGCTAAAAAAGTGGCCGTATCCCTTTTCATCATTTGGCGT TCCATCATAGTAAGCATACTCAGGCGCAAGTCCTGTTTCAGGATGGCAAGCTATTTTCAA ATACTCCCGGCTCGCTTCAGCAGCCTCTTTCCAGAAGACGCGGTCCTCTTCGTTTGCCCA TAAACTGAACAGTTCATAAAAATGGGGGAGATGATAAGAGGGATCACTGAACTCCACTTC AGGTATGAATTTAATGAGCTTATTATCCCGGTTCCACATTGGATGGCCAGGACCACCTTC ACCATTGTGCACGCAAGTATGAAGTAGCTTACGAGCTTGTTCGCTGTAATTAAACGGCTG TTCATCACCATCGCCCCAGCGGTGCGAAGCAAAAAATAATGCAAGGGCAAAATATTCCTC TCCGTCCGGAGCTGGGCCCCAGGAGTTTTTAGTGCCATCAGGCTGGCATGACCAAGCGAA GTAGCCCGCGTGCACGCCTTCCGTCATATACATATTCTTCATCGTCCAATTCCAGATCCG GTCGAAAATATCCTTTCTGTCCATTTGAACAGCCATCATCATTCCGTAGGACATTCCTTC AGTCCGCACATCGAGGTTTCCCGTATCGAGGAGATAACCTAGATCATCGCCCACTTCATA ATAAATTTTCGTTTCTGGGTTATCGCCAAAAAGCTGTTCCCATGTGTCCTTAACTCGTTC TTGGATTTCCGCTTCCGAATACCCGAATTCCTTGAAAAGATTTCGGTACTCCCTCGTATA AAATGCACCTTCTGTCGTTTTCTTCAT PF01270 Glyco_hydro_8 function hydrolase activity function hydrolase activity, acting on glycosyl bonds function hydrolase activity, hydrolyzing O-glycosyl compounds function catalytic activity process metabolism process macromolecule metabolism process carbohydrate metabolism process physiological process BE0003070 Endo-1,4-beta-xylanase Geobacillus stearothermophilus unknown Endo-1,4-beta-xylanase Involved in hydrolase activity, hydrolyzing O-glycosyl compounds Endohydrolysis of 1,4-beta-D-xylosidic linkages in xylans Secreted protein None 8.81 46764.0 Geobacillus stearothermophilus GenBank Gene Database Z29080 UniProtKB P40943 UniProt Accession XYN1_GEOSE 1,4-beta-D- xylan xylanohydrolase EC 3.2.1.8 Endo-1,4-beta-xylanase precursor Xylanase >Endo-1,4-beta-xylanase MRNVVRKPLTIGLALTLLLPMGMTATSAKNADSYAKKPHISALNAPQLDQRYKNEFTIGA AVEPYQLQNEKDVQMLKRHFNSIVAENVMKPISIQPEEGKFNFEQADRIVKFAKANGMDI RFHTLVWHSQVPQWFFLDKEGKPMVNETDPVKREQNKQLLLKRLETHIKTIVERYKDDIK YWDVVNEVVGDDGKLRNSPWYQIAGIDYIKVAFQAARKYGGDNIKLYMNDYNTEVEPKRT ALYNLVKQLKEEGVPIDGIGHQSHIQIGWPSEAEIEKTINMFAALGLDNQITELDVSMYG WPPRAYPTYDAIPKQKFLDQAARYDRLFKLYEKLSDKISNVTFWGIADNHTWLDSRADVY YDANGNVVVDPNAPYAKVEKGKGKDAPFVFGPDYKVKPAYWAIIDHK >1224 bp ATGCGGAACGTCGTGCGTAAACCATTGACAATCGGACTCGCTTTAACACTATTATTGCCC ATGGGAATGACGGCAACATCAGCGAAGAATGCAGATTCCTATGCGAAAAAACCTCACATC AGCGCATTGAATGCCCCACAATTGGATCAACGCTACAAAAACGAGTTCACGATTGGTGCG GCAGTAGAACCTTATCAACTACAAAATGAAAAAGACGTACAAATGCTAAAGCGCCACTTC AACAGCATTGTTGCCGAGAACGTAATGAAACCGATCAGCATTCAACCTGAGGAAGGAAAA TTCAATTTTGAACAAGCGGATCGAATTGTGAAGTTCGCTAAGGCAAATGGCATGGATATT CGCTTCCATACACTCGTTTGGCACAGCCAAGTACCTCAATGGTTCTTTCTTGACAAGGAA GGTAAGCCAATGGTTAATGAAACAGATCCAGTGAAACGTGAACAAAATAAACAACTGCTG TTAAAACGACTTGAAACTCATATTAAAACGATCGTCGAGCGGTACAAAGATGACATTAAG TACTGGGACGTTGTAAATGAGGTTGTGGGGGACGACGGAAAACTGCGCAACTCTCCATGG TATCAAATCGCCGGCATCGATTATATTAAAGTGGCATTCCAAGCAGCTAGAAAATATGGC GGAGACAACATTAAGCTTTACATGAATGATTACAATACAGAAGTCGAACCGAAGCGAACC GCTCTTTACAATTTAGTCAAACAACTGAAAGAAGAGGGTGTTCCGATCGACGGCATCGGC CATCAATCCCACATCCAAATCGGCTGGCCTTCTGAAGCAGAAATCGAGAAAACGATTAAC ATGTTCGCCGCTCTCGGTTTAGACAACCAAATCACTGAGCTTGATGTGAGCATGTACGGT TGGCCGCCGCGCGCTTACCCGACGTATGACGCCATTCCAAAACAAAAGTTTTTGGATCAG GCAGCGCGCTATGATCGTTTGTTCAAACTGTATGAAAAGTTGAGCGATAAAATTAGCAAC GTCACCTTCTGGGGCATCGCCGACAATCATACGTGGCTCGACAGCCGTGCGGATGTGTAC TATGACGCCAACGGGAATGTTGTGGTTGACCCGAACGCTCCGTACGCAAAAGTGGAAAAA GGGAAAGGAAAAGATGCGCCGTTCGTTTTTGGACCGGATTACAAAGTCAAACCCGCATAT TGGGCTATTATCGACCACAAATAG PF00331 Glyco_hydro_10 function hydrolase activity, acting on glycosyl bonds function hydrolase activity, hydrolyzing O-glycosyl compounds function catalytic activity function hydrolase activity process carbohydrate metabolism process physiological process process metabolism process macromolecule metabolism BE0002940 Endo-1,4-beta-xylanase Bacillus agaradhaerens unknown Endo-1,4-beta-xylanase Involved in hydrolase activity, hydrolyzing O-glycosyl compounds Cytoplasmic None 9.12 23308.0 Bacillus agaradhaerens UniProtKB Q7SIE2 UniProt Accession Q7SIE2_BACAG >Glycoside hydrolase QIVTDNSIGNHDGYDYEFWKDSGGSGTMILNHGGTFSAQWNNVNNILFRKGKKFNETQTH QQVGNMSINYGANFQPNGNAYLCVYGWTVDPLVAYYIVDSWGNWRPPGATPKGTITVDGG TYDIYETLRVNQPSIKGIATFKQYWSVRRSKRTSGTISVSNHFRAWENLGMNMGKMYEVA LTVEGYQSSGSANVYSNTLRINGNPLSTI PF00457 Glyco_hydro_11 function hydrolase activity function hydrolase activity, acting on glycosyl bonds function hydrolase activity, hydrolyzing O-glycosyl compounds function catalytic activity process metabolism process macromolecule metabolism process carbohydrate metabolism process physiological process BE0002739 Endo-1,4-beta-xylanase A Clostridium stercorarium unknown Endo-1,4-beta-xylanase A Involved in carbohydrate binding Endoxylanase that degrades arabinoxylan and glucuronoxylan to xylobiose and xylotriose (in vitro) xynA Secreted protein None 4.88 70151.0 Clostridium stercorarium GenBank Gene Database AJ508403 UniProtKB Q8GJ44 UniProt Accession XYNA1_CLOSR 1,4-beta-D-xylan xylanohydrolase A EC 3.2.1.8 Endo-1,4-beta-xylanase A precursor Xylanase 11A Xyn11A >Endo-1,4-beta-xylanase A MKRKVKKMAAMATSIIMAIMIILHSIPVLAGRIIYDNETGTHGGYDYELWKDYGNTIMEL NDGGTFSCQWSNIGNALFRKGRKFNSDKTYQELGDIVVEYGCDYNPNGNSYLCVYGWTRN PLVEYYIVESWGSWRPPGATPKGTITVDGGTYEIYETTRVNQPSIDGTATFQQYWSVRTS KRTSGTISVTEHFKQWERMGMRMGKMYEVALTVEGYQSSGYANVYKNEIRIGANPTPAPS QSPIRRDAFSIIEAEEYNSTNSSTLQVIGTPNNGRGIGYIENGNTVTYSNIDFGSGATGF SATVATEVNTSIQIRSDSPTGTLLGTLYVSSTGSWNTYQTVSTNISKITGVHDIVLVFSG PVNVDNFIFSRSSPVPAPGDNTRDAYSIIQAEDYDSSYGPNLQIFSLPGGGSAIGYIENG YSTTYNNVNFANGLSSITARVATQISTSIQVRAGGATGTLLGTIYVPSTNSWDSYQNVTA NLSNITGVHDITLVFSGPVNVDYFVFTPANVNSGPTSPVGGTRSAFSNIQAEDYDSSYGP NLQIFSLPGGGSAIGYIENGYSTTYKNIDFGDGATSVTARVATQNATTIQVRLGSPSGTL LGTIYVGSTGSFDTYRDVSATISNTAGVKDIVLVFSGPVNVDWFVFSKSGT >1965 bp ATGAAGCGTAAGGTTAAGAAGATGGCAGCTATGGCAACGAGTATAATTATGGCTATCATG ATCATCCTACATAGTATACCAGTACTCGCCGGGCGAATAATTTACGACAATGAGACAGGC ACACATGGAGGCTACGACTATGAGCTCTGGAAAGACTACGGAAATACGATTATGGAACTT AACGACGGTGGTACTTTTAGTTGTCAATGGAGTAATATCGGTAATGCACTATTTAGAAAA GGGAGAAAATTTAATTCCGACAAAACCTATCAAGAATTAGGAGATATAGTAGTTGAATAT GGCTGTGATTACAATCCAAACGGAAATTCCTATTTGTGTGTTTACGGTTGGACAAGAAAT CCACTGGTTGAATATTACATTGTAGAAAGCTGGGGCAGCTGGCGTCCACCTGGAGCAACA CCCAAAGGAACCATCACAGTGGATGGCGGTACTTATGAAATATATGAAACTACCCGGGTA AATCAGCCTTCCATCGATGGAACTGCGACATTCCAACAATATTGGAGTGTTCGTACATCC AAGAGAACAAGCGGAACAATATCTGTCACTGAACATTTTAAACAGTGGGAAAGAATGGGC ATGCGAATGGGTAAGATGTATGAAGTTGCTCTTACCGTTGAAGGTTATCAGAGCAGTGGG TACGCTAATGTATACAAGAATGAAATCAGAATAGGTGCAAATCCAACTCCTGCCCCATCT CAAAGCCCAATTAGAAGAGATGCATTTTCAATAATCGAAGCGGAAGAATATAACAGCACA AATTCCTCCACTTTACAAGTGATTGGAACGCCAAATAATGGCAGAGGAATTGGTTATATT GAAAATGGTAATACCGTAACTTACAGCAATATAGATTTTGGTAGTGGTGCAACAGGGTTC TCTGCAACTGTTGCAACGGAGGTTAATACCTCAATTCAAATCCGTTCTGACAGTCCTACC GGAACTCTACTTGGTACCTTATATGTAAGTTCTACCGGCAGCTGGAATACATATCAAACC GTATCTACAAACATCAGCAAAATTACCGGCGTTCATGATATTGTATTGGTATTCTCAGGT CCAGTCAATGTGGACAACTTCATATTTAGCAGAAGTTCACCAGTGCCTGCACCTGGTGAT AACACAAGAGACGCATATTCTATCATTCAGGCCGAGGATTATGACAGCAGTTATGGCCCC AACCTTCAAATCTTTAGCTTACCAGGCGGTGGCAGCGCCATTGGCTATATTGAAAATGGT TATTCCACTACCTATAATAACGTTAATTTCGCCAACGGCTTAAGTTCTATAACAGCAAGA GTTGCCACTCAGATCTCAACTTCCATTCAGGTGAGAGCAGGAGGAGCAACCGGTACTTTA CTTGGTACAATATATGTTCCTTCGACAAATAGTTGGGATTCTTATCAGAATGTAACTGCC AACCTTAGCAATATTACAGGTGTGCATGATATTACCCTTGTCTTTTCAGGACCAGTGAAT GTGGACTACTTCGTATTTACACCAGCAAATGTAAATTCAGGGCCTACCTCCCCTGTCGGA GGTACAAGAAGTGCATTTTCCAATATTCAAGCCGAAGATTATGACAGCAGTTATGGTCCC AACCTTCAAATCTTTAGCTTACCAGGTGGTGGCAGCGCCATTGGCTATATTGAAAATGGT TATTCCACTACCTATAAAAATATTGATTTTGGTGACGGCGCAACGTCCGTAACAGCAAGA GTAGCTACCCAGAATGCTACTACCATTCAGGTAAGATTGGGAAGTCCATCGGGTACATTA CTTGGAACAATTTACGTGGGGTCCACAGGAAGCTTTGATACTTATAGGGATGTATCCGCT ACCATTAGTAATACTGCGGGTGTAAAAGATATTGTTCTTGTATTCTCAGGTCCTGTTAAT GTTGACTGGTTTGTATTCTCAAAATTCAGGAACTTAAGGGTATAG PF03422 CBM_6 PF00457 Glyco_hydro_11 function catalytic activity function hydrolase activity function hydrolase activity, acting on glycosyl bonds function hydrolase activity, hydrolyzing O-glycosyl compounds function carbohydrate binding function binding process metabolism process macromolecule metabolism process carbohydrate metabolism process physiological process BE0002766 Endo-1,4-beta-xylanase A Streptomyces lividans unknown Endo-1,4-beta-xylanase A Involved in hydrolase activity, hydrolyzing O-glycosyl compounds Contributes to hydrolyze hemicellulose, the major component of plant cell-walls. XLNA and XLNB seem to act sequentially on the substrate to yield xylobiose and xylose as carbon sources xlnA Secreted protein None 6.61 51163.0 Streptomyces lividans GenBank Gene Database M64551 UniProtKB P26514 UniProt Accession XYNA_STRLI 1,4- beta-D-xylan xylanohydrolase A EC 3.2.1.8 Endo-1,4-beta-xylanase A precursor Xylanase A >Endo-1,4-beta-xylanase A MGSYALPRSGVRRSIRVLLLALVVGVLGTATALIAPPGAHAAESTLGAAAAQSGRYFGTA IASGRLSDSTYTSIAGREFNMVTAENEMKIDATEPQRGQFNFSSADRVYNWAVQNGKQVR GHTLAWHSQQPGWMQSLSGSALRQAMIDHINGVMAHYKGKIVQWDVVNEAFADGSSGARR DSNLQRSGNDWIEVAFRTARAADPSAKLCYNDYNVENWTWAKTQAMYNMVRDFKQRGVPI DCVGFQSHFNSGSPYNSNFRTTLQNFAALGVDVAITELDIQGAPASTYANVTNDCLAVSR CLGITVWGVRDSDSWRSEQTPLLFNNDGSKKAAYTAVLDALNGGDSSEPPADGGQIKGVG SGRCLDVPDASTSDGTQLQLWDCHSGTNQQWAATDAGELRVYGDKCLDAAGTSNGSKVQI YSCWGGDNQKWRLNSDGSVVGVQSGLCLDAVGNGTANGTLIQLYTCSNGSNQRWTRT >1434 bp ATGGGCTCCTACGCCCTTCCCAGATCAGGTGTCCGCAGGAGCATTCGCGTCCTGCTGCTG GCGCTGGTCGTCGGCGTACTCGGCACGGCCACCGCACTGATCGCGCCGCCGGGGGCACAC GCCGCCGAGAGCACGCTCGGCGCCGCGGCGGCGCAGAGCGGCCGCTACTTCGGCACCGCC ATCGCCTCGGGCAGGCTGAGCGACTCGACGTACACGTCGATCGCGGGCCGTGAGTTCAAC ATGGTGACGGCCGAGAACGAGATGAAGATCGACGCCACCGAACCGCAGCGGGGCCAGTTC AACTTCAGCTCCGCCGACCGCGTCTACAACTGGGCGGTGCAGAACGGCAAGCAGGTGCGC GGCCACACCCTGGCCTGGCACTCCCAGCAGCCCGGCTGGATGCAGAGCCTCAGCGGCAGC GCGCTGCGCCAGGCGATGATCGACCACATCAACGGCGTGATGGCCCACTACAAGGGCAAG ATCGTCCAGTGGGACGTCGTGAACGAGGCCTTCGCCGACGGCAGTTCGGGAGCGCGGCGG GACTCCAACCTGCAACGCAGCGGCAACGACTGGATCGAGGTCGCCTTCCGCACCGCGCGC GCCGCCGACCCGTCCGCCAAGCTCTGCTACAACGACTACAACGTCGAGAACTGGACCTGG GCCAAGACCCAGGCCATGTACAACATGGTGCGGGACTTCAAGCAGCGCGGCGTGCCGATC GACTGCGTCGGCTTCCAGTCGCACTTCAACAGCGGCAGCCCCTACAACAGCAACTTCCGC ACCACACTGCAGAACTTCGCCGCCCTCGGCGTCGACGTGGCCATCACCGAGCTGGACATC CAGGGCGCCCCGGCCTCGACCTACGCCAACGTGACCAACGACTGCCTGGCCGTCTCGCGC TGCCTCGGCATCACCGTCTGGGGTGTGCGCGACAGCGACTCCTGGCGGTCGGAGCAGACG CCGTTGCTGTTCAACAACGACGGCAGCAAGAAGGCCGCGTACACCGCCGTCCTCGACGCA CTCAACGGCGGCGACTCCTCGGAGCCCCCCGCGGACGGGGGACAGATCAAGGGCGTCGGT TCGGGCCGCTGCCTCGACGTGCCCGACGCCAGCACCTCCGACGGCACCCAGCTCCAGCTG TGGGACTGCCACAGCGGCACCAACCAGCAGTGGGCCGCCACTGACGCGGGCGAGCTCAGG GTCTACGGCGACAAGTGCCTGGACGCCGCAGGCACCAGCAACGGCTCCAAGGTCCAGATC TACAGCTGCTGGGGCGGCGACAACCAGAAGTGGCGCCTCAACTCCGACGGGTCCGTCGTC GGCGTCCAGTCCGGCCTCTGCCTCGACGCCGTCGGGAACGGCACGGCCAACGGCACCCTG ATCCAGCTGTACACCTGCTCCAACGGCAGCAACCAACGCTGGACCCGCACCTGA PF00331 Glyco_hydro_10 PF00652 Ricin_B_lectin function hydrolase activity, acting on glycosyl bonds function hydrolase activity, hydrolyzing O-glycosyl compounds function catalytic activity function hydrolase activity process carbohydrate metabolism process physiological process process metabolism process macromolecule metabolism BE0003071 Endo-1,4-beta-xylanase Bacillus circulans unknown Endo-1,4-beta-xylanase Involved in hydrolase activity, hydrolyzing O-glycosyl compounds Endohydrolysis of 1,4-beta-D-xylosidic linkages in xylans xlnA Cytoplasmic None 9.72 23359.0 Bacillus circulans GenBank Gene Database X07723 UniProtKB P09850 UniProt Accession XYNA_BACCI 1,4-beta-D- xylan xylanohydrolase EC 3.2.1.8 Endo-1,4-beta-xylanase precursor Xylanase >Endo-1,4-beta-xylanase MFKFKKNFLVGLSAALMSISLFSATASAASTDYWQNWTDGGGIVNAVNGSGGNYSVNWSN TGNFVVGKGWTTGSPFRTINYNAGVWAPNGNGYLTLYGWTRSPLIEYYVVDSWGTYRPTG TYKGTVKSDGGTYDIYTTTRYNAPSIDGDRTTFTQYWSVRQSKRPTGSNATITFTNHVNA WKSHGMNLGSNWAYQVMATEGYQSSGSSNVTVW >642 bp ATGTTTAAGTTTAAAAAGAATTTCTTAGTTGGATTATCGGCAGCTTTAATGAGTATTAGC TTGTTTTCGGCAACCGCCTCTGCAGCTAGCACAGACTACTGGCAAAATTGGACTGATGGG GGCGGTATAGTAAACGCTGTCAATGGGTCTGGCGGGAATTACAGTGTTAATTGGTCTAAT ACCGGAAATTTTGTTGTTGGTAAAGGTTGGACTACAGGTTCGCCATTTAGGACGATAAAC TATAATGCCGGAGTTTGGGCGCCGAATGGCAATGGATATTTAACTTTATATGGTTGGACG AGATCACCTCTCATAGAATATTATGTAGTGGATTCATGGGGTACTTATAGACCTACTGGA ACGTATAAAGGTACTGTAAAAAGTGATGGGGGTACATATGACATATATACAACTACACGT TATAACGCACCTTCCATTGATGGCGATCGCACTACTTTTACGCAGTACTGGAGTGTTCGC CAGTCGAAGAGACCAACTGGAAGCAACGCTACAATCACTTTCACGAATCATGTGAACGCA TGGAAGAGCCATGGAATGAATCTGGGCAGTAATTGGGCTTACCAAGTCATGGCGACAGAA GGATATCAAAGTAGTGGAAGTTCTAACGTAACAGTGTGGTAA PF00457 Glyco_hydro_11 function hydrolase activity function hydrolase activity, acting on glycosyl bonds function hydrolase activity, hydrolyzing O-glycosyl compounds function catalytic activity process metabolism process macromolecule metabolism process carbohydrate metabolism process physiological process BE0003072 Hydrolase Streptomyces olivaceoviridis unknown Hydrolase Involved in hydrolase activity, hydrolyzing O-glycosyl compounds Cytoplasmic None 6.5 46750.0 Streptomyces olivaceoviridis UniProtKB Q7SI98 UniProt Accession Q7SI98_STROI >Hydrolase AESTLGAAAAQSGRYFGTAIASGKLGDSAYTTIASREFNMVTAENEMKIDATEPQRGQFN FSAGDRVYNWAVQNGKQVRGHTLAWHSQQPGWMQSLSGSTLRQAMIDHINGVMGHYKGKI AQWDVVNEAFSDDGSGGRRDSNLQRTGNDWIEVAFRTARAADPAAKLCYNDYNIENWTWA KTQGVYNMVRDFKQRGVPIDCVGFQSHFNSGSPYNSNFRTTLQNFAALGVDVAITELDIQ GASSSTYAAVTNDCLAVSRCLGITVWGVRDTDSWRSGDTPLLFNGDGSKKAAYTAVLNAL NGGSSTPPPSGGGQIKGVGSGRCLDVPNASTTDGTQVQLYDCHSATNQQWTYTDAGELRV YGDKCLDAAGTGNGTKVQIYSCWGGDNQKWRLNSDGSIVGVQSGLCLDAVGGGTANGTLI QLYSCSNGSNQRWTRT PF00331 Glyco_hydro_10 PF00652 Ricin_B_lectin function hydrolase activity, acting on glycosyl bonds function hydrolase activity, hydrolyzing O-glycosyl compounds function catalytic activity function hydrolase activity process physiological process process metabolism process macromolecule metabolism process carbohydrate metabolism BE0003073 Endo-1,4-beta-xylanase Pseudoalteromonas haloplanktis unknown Endo-1,4-beta-xylanase Involved in catalytic activity xyl Cytoplasmic None 8.67 48407.0 Pseudoalteromonas haloplanktis GenBank Gene Database AJ427921 UniProtKB Q8RJN8 UniProt Accession Q8RJN8_PSEHA EC 3.2.1.8 Endo-1,4-beta-xylanase precursor >Endo-1,4-beta-xylanase MKVFFKITTLLLILISYQSLAAFNNNPSSVGAYSSGTYRNLAQEMGKTNIQQKVNSTFDN MFGYNNTQQLYYPYTENGVYKAHYIKAINPDEGDDIRTEGQSWGMTAAVMLNKQEEFDNL WRFAKAYQKNPDNHPDAKKQGVYAWKLKLNQNGFVYKVDEGPAPDGEEYFAFALLNASAR WGNSGEFNYYNDAITMLNTIKNKLMENQIIRFSPYIDNLTDPSYHIPAFYDYFANNVTNQ ADKNYWRQVATKSRTLLKNHFTKVSGSPHWNLPTFLSRLDGSPVIGYIFNGQANPGQWYE FDAWRVIMNVGLDAHLMGAQAWHKSAVNKALGFLSYAKTNNSKNCYEQVYSYGGAQNRGC AGEGQKAANAVALLASTNAGQANEFFNEFWSLSQPTGDYRYYNGSLYMLAMLHVSGNFKF YNNTFN >1281 bp ATGAAAGTATTTTTTAAAATAACAACTTTATTGTTAATACTAATAAGCTATCAATCACTT GCTGCATTTAATAATAACCCATCGAGTGTAGGCGCCTACAGTTCAGGGACATACCGTAAC CTCGCACAAGAAATGGGTAAAACAAATATACAGCAAAAGGTGAATAGTACTTTTGACAAT ATGTTTGGCTATAACAACACACAACAACTTTACTACCCGTACACCGAAAACGGTGTTTAT AAAGCACACTACATAAAAGCAATTAACCCAGACGAAGGCGACGATATAAGAACAGAAGGG CAATCGTGGGGAATGACCGCCGCTGTCATGCTTAATAAACAAGAAGAATTTGATAACCTA TGGCGCTTTGCAAAAGCGTATCAAAAAAATCCAGACAATCACCCTGATGCTAAAAAACAA GGCGTTTACGCGTGGAAACTAAAGCTTAATCAAAACGGCTTTGTTTATAAAGTGGATGAG GGCCCCGCTCCCGATGGCGAAGAGTACTTTGCGTTTGCACTACTTAATGCCTCTGCTCGT TGGGGGAATTCGGGTGAGTTTAACTACTACAACGATGCCATTACCATGTTAAACACAATT AAAAATAAGCTGATGGAAAACCAAATAATCCGCTTTTCACCTTACATTGATAACCTAACA GACCCTTCTTACCATATACCTGCGTTTTACGACTACTTTGCAAATAACGTAACTAACCAA GCAGACAAAAATTACTGGCGACAAGTAGCCACAAAAAGTAGAACCTTACTTAAAAACCAT TTTACAAAAGTAAGTGGTAGCCCGCATTGGAACTTACCTACATTTTTATCGCGCTTAGAT GGCAGCCCTGTTATTGGCTACATTTTTAACGGCCAAGCAAACCCAGGTCAATGGTATGAA TTTGATGCATGGCGCGTAATTATGAATGTGGGTTTAGACGCGCATTTAATGGGTGCTCAA GCGTGGCATAAAAGTGCAGTTAATAAAGCACTGGGCTTTTTAAGTTATGCAAAAACAAAC AACAGTAAAAACTGTTACGAGCAAGTGTATTCGTACGGTGGAGCGCAAAACAGAGGCTGT GCAGGCGAAGGTCAAAAAGCCGCGAATGCAGTAGCGTTACTTGCTTCAACAAATGCTGGG CAAGCAAATGAGTTTTTTAACGAATTTTGGTCTTTATCGCAACCAACGGGTGACTACCGT TACTATAATGGTTCGTTATATATGTTAGCTATGCTGCATGTATCGGGCAATTTTAAGTTT TATAACAACACGTTTAATTAA PF01270 Glyco_hydro_8 function hydrolase activity, acting on glycosyl bonds function hydrolase activity, hydrolyzing O-glycosyl compounds function catalytic activity function hydrolase activity process carbohydrate metabolism process physiological process process metabolism process macromolecule metabolism BE0004338 Lactase-phlorizin hydrolase Human # Berman HM, Westbrook J, Feng Z, Gilliland G, Bhat TN, Weissig H, Shindyalov IN, Bourne PE: The Protein Data Bank. Nucleic Acids Res. 2000 Jan 1;28(1):235-42. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/10592235 unknown Lactase-phlorizin hydrolase Carbohydrate transport and metabolism LPH splits lactose in the small intestine LCT 2q21 Apical cell membrane 1883-1901 6.3 218570.8 Human HUGO Gene Nomenclature Committee (HGNC) GNC:6530 GeneCards LCT GenBank Gene Database X07994 GenBank Protein Database 34400 UniProtKB P09848 UniProt Accession LPH_HUMAN Lactase Lactase-glycosylceramidase Phlorizin hydrolase >Lactase-phlorizin hydrolase MELSWHVVFIALLSFSCWGSDWESDRNFISTAGPLTNDLLHNLSGLLGDQSSNFVAGDKD MYVCHQPLPTFLPEYFSSLHASQITHYKVFLSWAQLLPAGSTQNPDEKTVQCYRRLLKAL KTARLQPMVILHHQTLPASTLRRTEAFADLFADYATFAFHSFGDLVGIWFTFSDLEEVIK ELPHQESRASQLQTLSDAHRKAYEIYHESYAFQGGKLSVVLRAEDIPELLLEPPISALAQ DTVDFLSLDLSYECQNEASLRQKLSKLQTIEPKVKVFIFNLKLPDCPSTMKNPASLLFSL FEAINKDQVLTIGFDINEFLSCSSSSKKSMSCSLTGSLALQPDQQQDHETTDSSPASAYQ RVWEAFANQSRAERDAFLQDTFPEGFLWGASTGAFNVEGGWAEGGRGVSIWDPRRPLNTT EGQATLEVASDSYHKVASDVALLCGLRAQVYKFSISWSRIFPMGHGSSPSLPGVAYYNKL IDRLQDAGIEPMATLFHWDLPQALQDHGGWQNESVVDAFLDYAAFCFSTFGDRVKLWVTF HEPWVMSYAGYGTGQHPPGISDPGVASFKVAHLVLKAHARTWHHYNSHHRPQQQGHVGIV LNSDWAEPLSPERPEDLRASERFLHFMLGWFAHPVFVDGDYPATLRTQIQQMNRQCSHPV AQLPEFTEAEKQLLKGSADFLGLSHYTSRLISNAPQNTCIPSYDTIGGFSQHVNHVWPQT SSSWIRVVPWGIRRLLQFVSLEYTRGKVPIYLAGNGMPIGESENLFDDSLRVDYFNQYIN EVLKAIKEDSVDVRSYIARSLIDGFEGPSGYSQRFGLHHVNFSDSSKSRTPRKSAYFFTS IIEKNGFLTKGAKRLLPPNTVNLPSKVRAFTFPSEVPSKAKVVWEKFSSQPKFERDLFYH GTFRDDFLWGVSSSAYQIEGAWDADGKGPSIWDNFTHTPGSNVKDNATGDIACDSYHQLD ADLNMLRALKVKAYRFSISWSRIFPTGRNSSINSHGVDYYNRLINGLVASNIFPMVTLFH WDLPQALQDIGGWENPALIDLFDSYADFCFQTFGDRVKFWMTFNEPMYLAWLGYGSGEFP PGVKDPGWAPYRIAHAVIKAHARVYHTYDEKYRQEQKGVISLSLSTHWAEPKSPGVPRDV EAADRMLQFSLGWFAHPIFRNGDYPDTMKWKVGNRSELQHLATSRLPSFTEEEKRFIRAT ADVFCLNTYYSRIVQHKTPRLNPPSYEDDQEMAEEEDPSWPSTAMNRAAPWGTRRLLNWI KEEYGDIPIYITENGVGLTNPNTEDTDRIFYHKTYINEALKAYRLDGIDLRGYVAWSLMD NFEWLNGYTVKFGLYHVDFNNTNRPRTARASARYYTEVITNNGMPLAREDEFLYGRFPEG FIWSAASAAYQIEGAWRADGKGLSIWDTFSHTPLRVENDAIGDVACDSYHKIAEDLVTLQ NLGVSHYRFSISWSRILPDGTTRYINEAGLNYYVRLIDTLLAASIQPQVTIYHWDLPQTL QDVGGWENETIVQRFKEYADVLFQRLGDKVKFWITLNEPFVIAYQGYGYGTAAPGVSNRP GTAPYIVGHNLIKAHAEAWHLYNDVYRASQGGVISITISSDWAEPRDPSNQEDVEAARRY VQFMGGWFAHPIFKNGDYNEVMKTRIRDRSLAAGLNKSRLPEFTESEKRRINGTYDFFGF NHYTTVLAYNLNYATAISSFDADRGVASIADRSWPDSGSFWLKMTPFGFRRILNWLKEEY NDPPIYVTENGVSQREETDLNDTARIYYLRTYINEALKAVQDKVDLRGYTVWSAMDNFEW ATGFSERFGLHFVNYSDPSLPRIPKASAKFYASVVRCNGFPDPATGPHACLHQPDAGPTI SPVRQEEVQFLGLMLGTTEAQTALYVLFSLVLLGVCGLAFLSYKYCKRSKQGKTQRSQQE LSPVSSF >5784 bp ATGGAGCTGTCTTGGCATGTAGTCTTTATTGCCCTGCTAAGTTTTTCATGCTGGGGGTCA GACTGGGAGTCTGATAGAAATTTCATTTCCACCGCTGGTCCTCTAACCAATGACTTGCTG CACAACCTGAGTGGTCTCCTGGGAGACCAGAGTTCTAACTTTGTAGCAGGGGACAAAGAC ATGTATGTTTGTCACCAGCCACTGCCCACTTTCCTGCCAGAATACTTCAGCAGTCTCCAT GCCAGTCAGATCACCCATTATAAGGTATTTCTGTCATGGGCACAGCTCCTCCCAGCAGGA AGCACCCAGAATCCAGACGAGAAAACAGTGCAGTGCTACCGGCGACTCCTCAAGGCCCTC AAGACTGCACGGCTTCAGCCCATGGTCATCCTGCACCACCAGACCCTCCCTGCCAGCACC CTCCGGAGAACCGAAGCCTTTGCTGACCTCTTCGCCGACTATGCCACATTCGCCTTCCAC TCCTTCGGGGACCTAGTTGGGATCTGGTTCACCTTCAGTGACTTGGAGGAAGTGATCAAG GAGCTTCCCCACCAGGAATCAAGAGCGTCACAACTCCAGACCCTCAGTGATGCCCACAGA AAAGCCTATGAGATTTACCACGAAAGCTATGCTTTTCAGGGCGGAAAACTCTCTGTTGTC CTGCGAGCTGAAGATATCCCGGAGCTCCTGCTAGAACCACCCATATCTGCGCTTGCCCAG GACACGGTCGATTTCCTCTCTCTTGATTTGTCTTATGAATGCCAAAATGAGGCAAGTCTG CGGCAGAAGCTGAGTAAATTGCAGACCATTGAGCCAAAAGTGAAAGTTTTCATCTTCAAC CTAAAACTCCCAGACTGCCCCTCCACCATGAAGAACCCAGCCAGTCTGCTCTTCAGCCTT TTTGAAGCCATAAATAAAGACCAAGTGCTCACCATTGGGTTTGATATTAATGAGTTTCTG AGTTGTTCATCAAGTTCCAAGAAAAGCATGTCTTGTTCTCTGACTGGCAGCCTGGCCCTT CAGCCTGACCAGCAGCAGGACCACGAGACCACGGACTCCTCTCCTGCCTCTGCCTATCAG AGAGTCTGGGAAGCATTTGCCAATCAGTCCAGAGCGGAAAGGGATGCCTTCCTGCAGGAT ACTTTCCCTGAAGGCTTCCTCTGGGGTGCCTCCACAGGAGCCTTTAACGTGGAAGGAGGC TGGGCCGAGGGTGGGAGAGGGGTGAGCATCTGGGATCCACGCAGGCCCCTGAACACCACT GAGGGCCAAGCGACGCTGGAGGTGGCCAGCGACAGTTACCACAAGGTAGCCTCTGACGTC GCCCTGCTTTGCGGCCTCCGGGCTCAGGTGTACAAGTTCTCCATCTCCTGGTCCCGGATC TTCCCCATGGGGCACGGGAGCAGCCCCAGCCTCCCAGGCGTTGCCTACTACAACAAGCTG ATTGACAGGCTACAGGATGCGGGCATCGAGCCCATGGCCACGCTGTTCCACTGGGACCTG CCTCAGGCCCTGCAGGATCATGGTGGATGGCAGAATGAGAGCGTGGTGGATGCCTTCCTG GACTATGCGGCCTTCTGCTTCTCCACATTTGGGGACCGTGTGAAGCTGTGGGTGACCTTC CATGAGCCGTGGGTGATGAGCTACGCAGGCTATGGCACCGGCCAGCACCCTCCCGGCATC TCTGACCCAGGAGTGGCCTCTTTTAAGGTGGCTCACTTGGTCCTCAAGGCTCATGCCAGA ACTTGGCACCACTACAACAGCCATCATCGCCCACAGCAGCAGGGGCACGTGGGCATTGTG CTGAACTCAGACTGGGCAGAACCCCTGTCTCCAGAGAGGCCTGAGGACCTGAGAGCCTCT GAGCGCTTCTTGCACTTCATGCTGGGCTGGTTTGCACACCCCGTCTTTGTGGATGGAGAC TACCCAGCCACCCTGAGGACCCAGATCCAACAGATGAACAGACAGTGCTCCCATCCTGTG GCTCAACTCCCCGAGTTCACAGAGGCAGAGAAGCAGCTCCTGAAAGGCTCTGCTGATTTT CTGGGTCTGTCGCATTACACCTCCCGCCTCATCAGCAACGCCCCACAAAACACCTGCATC CCTAGCTATGATACCATTGGAGGCTTCTCCCAACACGTGAACCATGTGTGGCCCCAGACC TCATCCTCTTGGATTCGTGTGGTGCCCTGGGGGATAAGGAGGCTGTTGCAGTTTGTATCC CTGGAATACACAAGAGGAAAAGTTCCAATATACCTTGCCGGGAATGGCATGCCCATAGGG GAAAGTGAAAATCTCTTTGATGATTCCTTAAGAGTAGACTACTTCAATCAATATATCAAT GAGGTGCTCAAGGCTATCAAGGAAGACTCTGTGGATGTTCGTTCCTACATTGCTCGTTCC CTCATTGATGGCTTCGAAGGCCCTTCTGGTTACAGCCAGCGGTTTGGCCTGCACCACGTC AACTTCAGCGACAGCAGCAAGTCAAGGACTCCCAGGAAATCTGCCTACTTTTTCACTAGC ATCATAGAAAAGAACGGTTTCCTCACCAAGGGGGCAAAAAGACTGCTACCACCTAATACA GTAAACCTCCCCTCCAAAGTCAGAGCCTTCACTTTTCCATCTGAGGTGCCCTCCAAGGCT AAAGTCGTTTGGGAAAAGTTCTCCAGCCAACCCAAGTTCGAAAGAGATTTGTTCTACCAC GGGACGTTTCGGGATGACTTTCTGTGGGGCGTGTCCTCTTCCGCTTATCAGATTGAAGGC GCGTGGGATGCCGATGGCAAAGGCCCCAGCATCTGGGATAACTTTACCCACACACCAGGG AGCAATGTGAAAGACAATGCCACTGGAGACATCGCCTGTGACAGCTATCACCAGCTGGAT GCCGATCTGAATATGCTCCGAGCTTTGAAGGTGAAGGCCTACCGCTTCTCTATCTCCTGG TCTCGGATTTTCCCAACTGGGAGAAACAGCTCTATCAACAGTCATGGGGTTGATTATTAC AACAGGCTGATCAATGGCTTGGTGGCAAGCAACATCTTTCCCATGGTGACATTGTTCCAT TGGGACCTGCCCCAGGCCCTCCAGGATATCGGAGGCTGGGAGAATCCTGCCTTGATTGAC TTGTTTGACAGCTACGCAGACTTTTGTTTCCAGACCTTTGGTGATAGAGTCAAGTTTTGG ATGACTTTTAATGAGCCCATGTACCTGGCATGGCTAGGTTATGGCTCAGGGGAATTTCCC CCAGGGGTGAAGGACCCAGGCTGGGCACCATATAGGATAGCCCACACCGTCATCAAAGCC CATGCCAGAGTCTATCACACGTACGATGAGAAATACAGGCAGGAGCAGAAGGGGGTCATC TCGCTGAGCCTCAGTACACACTGGGCAGAGCCCAAGTCACCAGGGGTCCCCAGAGATGTG GAAGCCGCTGACCGAATGCTGCAGTTCTCCCTGGGCTGGTTTGCTCACCCCATTTTTAGA AACGGAGACTATCCTGACACCATGAAGTGGAAAGTGGGGAACAGGAGTGAACTGCAGCAC TTAGCCACCTCCCGCCTGCCAAGCTTCACTGAGGAAGAGAAGAGGTTCATCAGGGCGACG GCCGACGTCTTCTGCCTCAACACGTACTACTCCAGAATCGTGCAGCACAAAACACCCAGG CTAAACCCACCCTCCTACGAAGACGACCAGGAGATGGCTGAGGAGGAGGACCCTTCGTGG CCTTCCACGGCAATGAACAGAGCTGCGCCCTGGGGGACGCGAAGGCTGCTGAACTGGATC AAGGAAGAGTATGGTGACATCCCCATTTACATCACCGAAAACGGAGTGGGGCTGACCAAT CCGAACACGGAGGATACTGATAGGATATTTTACCACAAAACCTACATCAATGAGGCTTTG AAAGCCTACAGGCTCGATGGTATAGACCTTCGAGGGTATGTCGCCTGGTCTCTGATGGAC AACTTTGAGTGGCTAAATGGCTACACGGTCAAGTTTGGACTGTACCATGTTGATTTCAAC AACACGAACAGGCCTCGCACAGCAAGAGCCTCCGCCAGGTACTACACAGAGGTCATTACC AACAACGGCATGCCACTGGCCAGGGAGGATGAGTTTCTGTACGGACGGTTTCCTGAGGGC TTCATCTGGAGTGCAGCTTCTGCTGCATATCAGATTGAAGGTGCGTGGAGAGCAGATGGC AAAGGACTCAGCATTTGGGACACGTTTTCTCACACACCACTGAGGGTTGAGAACGATGCC ATTGGAGACGTGGCCTGTGACAGTTATCACAAGATTGCTGAGGATCTGGTCACCCTGCAG AACCTGGGTGTGTCCCACTACCGTTTTTCCATCTCCTGGTCTCGCATCCTCCCTGATGGA ACCACCAGGTACATCAATGAAGCGGGCCTGAACTACTACGTGAGGCTCATCGATACACTG CTGGCCGCCAGCATCCAGCCCCAGGTGACCATTTACCACTGGGACCTACCACAGACGCTC CAAGATGTAGGAGGCTGGGAGAATGAGACCATCGTGCAGCGGTTTAAGGAGTATGCAGAT GTGCTCTTCCAGAGGCTGGGAGACAAGGTGAAGTTTTGGATCACGTTGAATGAGCCCTTT GTCATTGCTTACCAGGGCTATGGCTACGGAACAGCAGCTCCAGGAGTCTCCAATAGGCCT GGCACTGCCCCCTACATTGTTGGCCACAATCTAATAAAGGCTCATGCTGAGGCCTGGCAT CTGTACAACGATGTGTACCGCGCCAGTCAAGGTGGCGTGATTTCCATCACCATCAGCAGT GACTGGGCTGAACCCAGAGATCCCTCTAACCAGGAGGATGTGGAGGCAGCCAGGAGATAT GTTCAGTTCATGGGAGGCTGGTTTGCACATCCTATTTTCAAGAATGGAGATTACAATGAG GTGATGAAGACGCGGATCCGTGACAGGAGCTTGGCTGCAGGCCTCAACAAGTCTCGGCTG CCAGAATTTACAGAGAGTGAGAAGAGGAGGATCAACGGCACCTATGACTTTTTTGGGTTC AATCACTACACCACTGTCCTCGCCTACAACCTCAACTATGCCACTGCCATCTCTTCTTTT GATGCAGACAGAGGAGTTGCTTCCATCGCAGATCGCTCGTGGCCAGACTCTGGCTCCTTC TGGCTGAAGATGACGCCTTTTGGCTTCAGGAGGATCCTGAACTGGTTAAAGGAGGAATAC AATGACCCTCCAATTTATGTCACAGAGAATGGAGTGTCCCAGCGGGAAGAAACAGACCTC AATGACACTGCAAGGATCTACTACCTTCGGACTTACATCAATGAGGCCCTCAAAGCTGTG CAGGACAAGGTGGACCTTCGAGGATACACAGTTTGGAGTGCGATGGACAATTTTGAGTGG GCCACAGGCTTTTCAGAGAGATTTGGTCTGCATTTTGTGAACTACAGTGACCCTTCTCTG CCAAGGATCCCCAAAGCATCAGCGAAGTTCTACGCCTCTGTGGTCCGATGCAATGGCTTC CCTGACCCCGCTACAGGGCCTCACGCTTGTCTCCACCAGCCAGATGCTGGACCCACCATC AGCCCCGTGAGACAGGAGGAGGTGCAGTTCCTGGGGCTAATGCTCGGCACCACAGAAGCA CAGACAGCTTTGTACGTTCTCTTTTCTCTTGTGCTTCTTGGAGTCTGTGGCTTGGCATTT CTGTCATACAAGTACTGCAAGCGCTCTAAGCAAGGGAAAACACAACGAAGCCAACAGGAA TTGAGCCCGGTGTCTTCATTCTGA PF00232 Glyco_hydro_1 function hydrolase activity function hydrolase activity, acting on glycosyl bonds function hydrolase activity, hydrolyzing O-glycosyl compounds function catalytic activity process metabolism process macromolecule metabolism process carbohydrate metabolism process physiological process BE0002828 Endoxylanase Cellvibrio mixtus unknown Endoxylanase Involved in hydrolase activity, hydrolyzing O-glycosyl compounds xynC Cytoplasmic None 7.89 42914.0 Cellvibrio mixtus GenBank Gene Database AF049493 UniProtKB O68541 UniProt Accession O68541_9GAMM >Endoxylanase MNLSRRQLLALTSAGIAMGQASKLAAATKAAEQTGLKSAYKDNFLIGAALNATIASGADE RLNTLIAKEFNSITPENCMKWGVLRDAQGQWNWKDADAFVAFGTKHNLHMVGHTLVWHSQ IHDEVFKNADGSYISKAALQKKMEEHITTLAGRYKGKLAAWDVVNEAVGDDLKMRDSHWY KIMGDDFIYNAFTLANEVDPKAHLMYNDYNIERTGKREATVEMIERLQKRGMPIHGLGIQ GHLGIDTPPIAEIEKSIIAFAKLGLRVHFTELDVDVLPSVWELPVAEVSTRFEYKPERDP YTKGLPQEMQDKLAKRYEDLFKLFIKHSDKIDRATFWGVSDDASWLNGFPIPGRTNYPLL FDRKLQPKDAYFRLLDLKR >1140 bp ATGAATCTTTCACGTCGGCAACTTCTCGCACTAACCAGTGCGGGCATCGCGATGGGCCAA GCCAGCAAGCTTGCGGCAGCAACCAAAGCGGCGGAGCAAACCGGGCTTAAAAGTGCCTAC AAGGATAACTTTTTAATCGGCGCCGCACTCAATGCGACTATTGCGAGCGGTGCGGATGAA CGCCTTAATACCTTGATTGCCAAAGAGTTTAATTCAATTACGCCAGAAAACTGCATGAAA TGGGGTGTATTGCGCGATGCCCAAGGCCAGTGGAATTGGAAAGACGCCGATGCATTTGTT GCATTTGGCACCAAACACAATCTGCACATGGTCGGCCACACCTTGGTATGGCACAGCCAG ATCCACGATGAAGTATTTAAAAACGCCGATGGTAGTTACATCAGCAAAGCTGCGTTGCAG AAAAAAATGGAAGAGCACATCACCACCCTCGCGGGCCGCTATAAAGGCAAACTTGCCGCC TGGGATGTAGTGAATGAAGCGGTGGGCGATGATTTGAAAATGCGTGACAGCCATTGGTAC AAGATTATGGGCGATGATTTTATCTACAACGCCTTTACCCTTGCCAATGAAGTCGACCCC AAAGCGCACTTGATGTACAACGATTACAACATTGAACGCACCGGCAAACGCGAAGCAACA GTGGAAATGATCGAGCGCTTGCAAAAACGCGGCATGCCGATTCACGGTTTAGGAATTCAA GGACATTTGGGAATAGATACTCCGCCTATTGCCGAGATCGAAAAGAGTATTATCGCCTTC GCCAAATTGGGCCTGCGCGTGCACTTCACCGAGCTGGATGTAGACGTACTGCCTTCGGTA TGGGAACTGCCGGTAGCTGAAGTTTCTACCCGCTTTGAATACAAACCCGAGCGCGACCCC TATACCAAAGGTTTGCCGCAGGAAATGCAAGACAAATTGGCAAAACGCTACGAAGATTTA TTCAAATTATTTATCAAACACAGCGATAAAATCGACCGCGCCACCTTCTGGGGTGTAAGC GATGACGCAAGCTGGCTCAACGGCTTCCCGATTCCCGGTCGCACCAACTACCCACTGTTG TTTGATCGCAAACTACAACCGAAAGACGCTTACTTCCGTTTACTGGATTTAAAACGTTAA PF00331 Glyco_hydro_10 function hydrolase activity, acting on glycosyl bonds function hydrolase activity, hydrolyzing O-glycosyl compounds function catalytic activity function hydrolase activity process physiological process process metabolism process macromolecule metabolism process carbohydrate metabolism BE0001847 Beta-amylase Bacillus cereus # Overington JP, Al-Lazikani B, Hopkins AL: How many drug targets are there? Nat Rev Drug Discov. 2006 Dec;5(12):993-6. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/17139284 # Imming P, Sinning C, Meyer A: Drugs, their targets and the nature and number of drug targets. Nat Rev Drug Discov. 2006 Oct;5(10):821-34. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/17016423 unknown Beta-amylase Involved in beta-amylase activity Hydrolysis of 1,4-alpha-D-glucosidic linkages in polysaccharides so as to remove successive maltose units from the non-reducing ends of the chains spoII Cytoplasmic None 6.72 61629.0 Bacillus cereus GenBank Gene Database AB024519 GenBank Protein Database 4520330 UniProtKB P36924 UniProt Accession AMYB_BACCE 1,4-alpha-D-glucan maltohydrolase Beta-amylase precursor EC 3.2.1.2 >Beta-amylase precursor MKNQFQYCCIVILSVVMLFVSLLIPQASSAAVNGKGMNPDYKAYLMAPLKKIPEVTNWET FENDLRWAKQNGFYAITVDFWWGDMEKNGDQQFDFSYAQRFAQSVKNAGMKMIPIISTHQ CGGNVGDDCNVPIPSWVWNQKSDDSLYFKSETGTVNKETLNPLASDVIRKEYGELYTAFA AAMKPYKDVIAKIYLSGGPAGELRYPSYTTSDGTGYPSRGKFQAYTEFAKSKFRLWVLNK YGSLNEVNKAWGTKLISELAILPPSDGEQFLMNGYLSMYGKDYLEWYQGILENHTKLIGE LAHNAFDTTFQVPIGAKIAGVHWQYNNPTIPHGAEKPAGYNDYSHLLDAFKSAKLDVTFT CLEMTDKGSYPEYSMPKTLVQNIATLANEKGIVLNGENALSIGNEEEYKRVAEMAFNYNF AGFTLLRYQDVMYNNSLMGKFKDLLGVTPVMQTIVVKNVPTTIGDTVYITGNRAELGSWD TKQYPIQLYYDSHSNDWRGNVVLPAERNIEFKAFIKSKDGTVKSWQTIQQSWNPVPLKTT SHTSSW >1641 bp ATGAAAAATCAGTTTCAATATTGTTGTATTGTCATTTTGTCTGTAGTGATGTTATTTGTA TCATTATTAATTCCGCAAGCGAGTTCGGCAGCTGTAAATGGAAAAGGAATGAATCCAGAT TACAAAGCATATTTAATGGCGCCATTAAAAAAGATACCGGAAGTAACAAATTGGGAGACA TTTGAAAATGATTTACGATGGGCAAAACAAAATGGTTTTTATGCTATTACAGTTGATTTT TGGTGGGGGGATATGGAAAAGAACGGAGATCAGCAATTTGATTTTTCATACGCACAGCGC TTTGCTCAATCGGTAAAAAATGCAGGTATGAAAATGATTCCTATTATTTCCACACATCAG TGCGGTGGAAATGTTGGGGATGATTGCAATGTACCAATTCCTTCATGGGTTTGGAATCAA AAATCCGATGATAGCCTTTATTTTAAGTCTGAAACAGGAACTGTCAATAAAGAAACATTA AATCCACTTGCTTCAGATGTAATTCGAAAGGAATATGGTGAACTATATACAGCATTCGCA GCAGCTATGAAACCGTATAAAGATGTAATTGCAAAAATATATTTATCTGGAGGACCAGCT GGTGAACTAAGATATCCTTCATATACAACTTCCGATGGGACAGGATATCCCTCACGTGGA AAGTTTCAAGCGTATACAGAGTTTGCAAAATCTAAATTTCGTTTATGGGTATTAAATAAA TATGGTTCTCTAAATGAAGTGAATAAAGCATGGGGCACGAAACTGATTTCAGAGTTAGCA ATTTTACCACCAAGCGATGGGGAACAATTCTTAATGAATGGATATCTTTCTATGTATGGA AAAGACTATTTAGAATGGTATCAGGGCATCTTGGAAAATCATACAAAATTAATTGGTGAA TTAGCACATAACGCATTTGACACAACTTTCCAAGTACCAATTGGTGCAAAAATTGCAGGC GTACATTGGCAATATAATAACCCAACAATACCTCATGGAGCTGAAAAGCCTGCAGGGTAT AATGATTATAGCCATTTACTTGATGCTTTCAAAAGTGCAAAGCTAGATGTAACATTTACT TGCTTAGAAATGACAGATAAAGGTAGTTATCCGGAATATTCAATGCCAAAAACATTGGTA CAAAATATTGCAACATTAGCCAATGAAAAGGGAATTGTATTAAACGGTGAAAATGCTTTA AGTATCGGAAATGAAGAAGAGTATAAAAGAGTTGCAGAAATGGCTTTCAATTATAATTTT GCTGGATTTACGTTACTTCGTTATCAAGATGTAATGTATAACAATTCATTAATGGGGAAA TTTAAAGATTTATTAGGTGTAACCCCTGTTATGCAAACGATTGTAGTAAAAAATGTTCCT ACAACAATAGGAGATACTGTTTATATTACTGGGAATCGTGCGGAATTAGGAAGTTGGGAC ACAAAACAGTATCCAATTCAATTATATTATGATTCTCATAGTAATGATTGGAGAGGAAAT GTTGTGTTGCCAGCTGAAAGAAATATAGAATTTAAAGCATTTATTAAAAGTAAAGATGGA ACGGTTAAATCATGGCAAACAATACAACAAAGTTGGAATCCAGTGCCACTAAAGACTACC TCTCATACAAGTAGTTGGTAA PF00686 CBM_20 PF01373 Glyco_hydro_14 function hydrolase activity function hydrolase activity, acting on glycosyl bonds function hydrolase activity, hydrolyzing O-glycosyl compounds function amylase activity function beta-amylase activity function catalytic activity process metabolism process macromolecule metabolism process carbohydrate metabolism process polysaccharide metabolism process polysaccharide catabolism process physiological process "
owl:sameAs

All properties reside in the graph file:///home/swish/src/ClioPatria/guidelines3/drugbank_small.nt

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