Endo-1,4-beta-xylanase A
Details
- Name
- Endo-1,4-beta-xylanase A
- Synonyms
- 1,4-beta-D-xylan xylanohydrolase A
- 3.2.1.8
- Xylanase A
- Gene Name
- xynA
- Organism
- Thermotoga maritima (strain ATCC 43589 / MSB8 / DSM 3109 / JCM 10099)
- Amino acid sequence
>lcl|BSEQ0020682|Endo-1,4-beta-xylanase A MQVRKRRGLLDVSTAVLVGILAGFLGVVLAASGVLSFGKEASSKGDSSLETVLALSFEGT TEGVVPFGKDVVLTASQDVAADGEYSLKVENRTSPWDGVEIDLTGKVKSGADYLLSFQVY QSSDAPQLFNVVARTEDEKGERYDVILDKVVVSDHWKEILVPFSPTFEGTPAKYSLIIVA SKNTNFNFYLDKVQVLAPKESGPKVIYETSFENGVGDWQPRGDVNIEASSEVAHSGKSSL FISNRQKGWQGAQINLKGILKTGKTYAFEAWVYQNSGQDQTIIMTMQRKYSSDASTQYEW IKSATVPSGQWVQLSGTYTIPAGVTVEDLTLYFESQNPTLEFYVDDVKIVDTTSAEIKIE MEPEKEIPALKEVLKDYFKVGVALPSKVFLNPKDIELITKHFNSITAENEMKPESLLAGI ENGKLKFRFETADKYIQFVEENGMVIRGHTLVWHNQTPDWFFKDENGNLLSKEAMTERLK EYIHTVVGHFKGKVYAWDVVNEAVDPNQPDGLRRSTWYQIMGPDYIELAFKFAREADPDA KLFYNDYNTFEPRKRDIIYNLVKDLKEKGLIDGIGMQCHISLATDIKQIEEAIKKFSTIP GIEIHITELDMSVYRDSSSNYPEAPRTALIEQAHKMMQLFEIFKKYSNVITNVTFWGLKD DYSWRATRRNDWPLIFDKDHQAKLAYWAIVAPEVLPPLPKESRISEGEAVVVGMMDDSYL MSKPIEILDEEGNVKATIRAVWKDSTIYIYGEVQDKTKKPAEDGVAIFINPNNERTPYLQ PDDTYAVLWTNWKTEVNREDVQVKKFVGPGFRRYSFEMSITIPGVEFKKDSYIGFDAAVI DDGKWYSWSDTTNSQKTNTMNYGTLKLEGIMVATAKYGTPVIDGEIDEIWNTTEEIETKA VAMGSLDKNATAKVRVLWDENYLYVLAIVKDPVLNKDNSNPWEQDSVEIFIDENNHKTGY YEDDDAQFRVNYMNEQTFGTGGSPARFKTAVKLIEGGYIVEAAIKWKTIKPTPNTVIGFN IQVNDANEKGQRVGIISWSDPTNNSWRDPSKFGNLRLIK
- Number of residues
- 1059
- Molecular Weight
- 119642.43
- Theoretical pI
- 4.77
- GO Classification
- Functionscarbohydrate binding / endo-1,4-beta-xylanase activityProcessesxylan catabolic process
- General Function
- Endo-1,4-beta-xylanase activity
- Specific Function
- Not Available
- Pfam Domain Function
- Transmembrane Regions
- Not Available
- Cellular Location
- Cytoplasmic
- Gene sequence
>lcl|BSEQ0020683|Endo-1,4-beta-xylanase A (xynA) ATGCAAGTCAGGAAGAGACGGGGTCTTCTGGATGTTTCAACCGCCGTACTGGTGGGGATT TTAGCGGGTTTTCTCGGTGTCGTACTGGCAGCATCGGGTGTTCTGAGTTTCGGGAAAGAA GCCTCCTCTAAGGGAGATTCTTCTCTCGAAACAGTTCTTGCTTTGAGTTTTGAAGGAACA ACAGAAGGTGTGGTCCCATTTGGAAAAGACGTTGTTCTCACAGCTTCTCAGGATGTAGCA GCAGATGGTGAGTACTCTCTAAAGGTCGAGAACAGAACCTCCCCATGGGATGGGGTAGAA ATCGACCTGACCGGAAAGGTAAAATCCGGAGCAGATTACCTTCTTTCCTTCCAGGTCTAT CAATCTTCTGATGCTCCACAGCTGTTCAACGTAGTCGCGAGAACAGAAGATGAGAAGGGA GAGAGGTACGACGTCATACTCGACAAGGTTGTCGTATCAGATCACTGGAAAGAGATCTTA GTACCGTTCTCACCCACGTTCGAAGGCACACCCGCAAAATACTCTCTCATCATCGTAGCG TCTAAAAACACGAATTTCAATTTCTACCTTGACAAGGTTCAGGTACTTGCTCCAAAAGAA TCGGGCCCAAAGGTCATCTACGAAACATCCTTTGAAAACGGTGTTGGAGACTGGCAGCCC AGAGGAGACGTGAACATCGAAGCTTCATCTGAAGTGGCACATTCAGGTAAGAGTTCGCTC TTTATCTCCAACAGGCAGAAGGGCTGGCAGGGTGCCCAGATCAACTTGAAAGGAATCCTG AAAACAGGAAAAACCTACGCCTTTGAAGCCTGGGTCTATCAGAACTCCGGTCAAGATCAG ACGATCATCATGACAATGCAGAGAAAGTACTCATCCGACGCGAGCACACAGTACGAATGG ATAAAATCAGCCACTGTACCATCTGGTCAGTGGGTGCAGCTTTCTGGAACGTACACAATC CCGGCCGGAGTTACCGTGGAAGATCTCACGCTTTACTTCGAATCTCAAAATCCAACTCTC GAGTTCTACGTAGACGACGTGAAGATAGTGGATACAACTTCCGCAGAGATAAAGATTGAA ATGGAACCTGAAAAAGAGATACCTGCTCTGAAAGAAGTACTAAAAGACTACTTCAAAGTC GGAGTTGCACTGCCGTCCAAGGTCTTCCTCAACCCGAAGGACATAGAACTCATCACGAAA CACTTCAACAGCATCACCGCAGAAAACGAGATGAAACCAGAGAGCCTGCTCGCGGGCATC GAAAACGGTAAGCTGAAGTTCAGGTTTGAAACAGCAGACAAATACATTCAGTTCGTCGAG GAAAACGGCATGGTTATAAGAGGTCACACACTGGTGTGGCACAACCAGACACCCGACTGG TTCTTCAAAGACGAAAACGGAAACCTCCTCTCCAAAGAAGCGATGACGGAAAGACTCAAA GAGTACATCCACACCGTTGTCGGACACTTCAAAGGAAAAGTCTACGCATGGGACGTGGTG AACGAAGCGGTCGATCCGAACCAGCCGGATGGACTGAGAAGATCCACCTGGTACCAGATC ATGGGGCCTGACTACATAGAACTCGCCTTCAAGTTCGCAAGAGAAGCAGATCCAGATGCA AAACTCTTCTACAACGACTACAACACATTCGAGCCCAGAAAGAGAGATATCATCTACAAC CTCGTGAAGGATCTCAAGGAGAAGGGACTCATCGATGGGATAGGCATGCAGTGTCACATC AGTCTTGCAACAGACATCAAACAGATCGAAGAGGCCATCAAAAAGTTCAGCACCATACCC GGTATAGAAATTCACATCACAGAACTCGATATGAGTGTCTACAGAGATTCCAGTTCCAAC TACCCAGAGGCACCGAGGACGGCACTCATCGAACAGGCTCACAAAATGATGCAGCTCTTT GAGATTTTCAAGAAGTACAGCAACGTGATCACGAACGTCACATTCTGGGGTCTCAAGGAC GATTACTCCTGGAGAGCAACAAGAAGAAACGACTGGCCGCTCATCTTCGACAAAGATCAC CAGGCGAAACTCGCTTACTGGGCGATAGTGGCACCTGAGGTCCTTCCACCACTTCCAAAA GAAAGCAGGATCTCCGAAGGCGAGGCTGTGGTAGTGGGGATGATGGATGACTCGTACCTG ATGTCGAAGCCGATAGAGATCCTTGACGAAGAAGGGAACGTGAAGGCAACGATCAGGGCG GTGTGGAAAGACAGCACGATCTACATCTACGGAGAGGTACAGGACAAGACGAAAAAACCA GCAGAAGACGGAGTGGCCATATTCATCAACCCGAACAACGAAAGAACACCCTATCTGCAG CCTGATGACACCTACGCTGTGCTGTGGACAAACTGGAAGACGGAGGTCAACAGAGAAGAC GTACAGGTGAAGAAATTCGTTGGGCCTGGCTTTAGAAGATACAGCTTCGAGATGTCGATC ACGATACCGGGTGTGGAGTTCAAGAAAGACAGCTACATAGGATTCGACGCTGCGGTGATA GACGACGGGAAGTGGTACAGCTGGAGCGACACGACGAACAGCCAGAAGACGAACACGATG AACTACGGAACGCTGAAACTCGAAGGAATAATGGTAGCGACAGCAAAATACGGAACACCG GTCATCGATGGAGAGATAGACGAGATCTGGAACACGACAGAGGAGATAGAGACGAAAGCG GTGGCCATGGGATCGCTTGACAAGAACGCGACAGCGAAAGTGAGGGTGCTGTGGGACGAG AACTACCTGTACGTACTTGCAATCGTGAAAGACCCCGTTCTGAACAAAGACAACAGCAAC CCGTGGGAACAGGATTCCGTGGAGATCTTCATCGACGAGAACAACCACAAGACAGGATAC TACGAAGACGACGACGCACAGTTCAGGGTGAACTACATGAACGAGCAGACGTTTGGAACG GGAGGAAGTCCAGCGAGGTTCAAGACAGCGGTGAAACTGATCGAAGGAGGATACATAGTT GAGGCAGCGATCAAGTGGAAGACGATCAAACCCACACCGAACACGGTGATAGGATTCAAC ATCCAGGTGAACGATGCGAACGAGAAAGGGCAGAGGGTCGGTATCATCTCCTGGAGCGAT CCCACAAACAACAGCTGGAGAGATCCTTCAAAGTTCGGTAACCTCAGGCTCATCAAGTGA
- Chromosome Location
- Not Available
- Locus
- Not Available
- External Identifiers
Resource Link UniProtKB ID Q60037 UniProtKB Entry Name XYNA_THEMA GenBank Gene ID Z46264 - General References
- Winterhalter C, Heinrich P, Candussio A, Wich G, Liebl W: Identification of a novel cellulose-binding domain within the multidomain 120 kDa xylanase XynA of the hyperthermophilic bacterium Thermotoga maritima. Mol Microbiol. 1995 Feb;15(3):431-44. [Article]
- Nelson KE, Clayton RA, Gill SR, Gwinn ML, Dodson RJ, Haft DH, Hickey EK, Peterson JD, Nelson WC, Ketchum KA, McDonald L, Utterback TR, Malek JA, Linher KD, Garrett MM, Stewart AM, Cotton MD, Pratt MS, Phillips CA, Richardson D, Heidelberg J, Sutton GG, Fleischmann RD, Eisen JA, White O, Salzberg SL, Smith HO, Venter JC, Fraser CM: Evidence for lateral gene transfer between Archaea and bacteria from genome sequence of Thermotoga maritima. Nature. 1999 May 27;399(6734):323-9. [Article]