Endo-1,4-beta-xylanase Y

NameEndo-1,4-beta-xylanase Y
Synonyms
  • 1,4-beta-D-xylan xylanohydrolase Y
  • 3.2.1.8
  • Xylanase Y
  • XylY
Gene NamexynY
OrganismClostridium thermocellum
Amino acid sequence
>lcl|BSEQ0012104|Endo-1,4-beta-xylanase Y
MKNKRVLAKITALVVLLGVFFVLPSNISQLYADYEVVHDTFEVNFDGWCNLGVDTYLTAV
ENEGNNGTRGMMVINRSSASDGAYSEKGFYLDGGVEYKYSVFVKHNGTGTETFKLSVSYL
DSETEEENKEVIATKDVVAGEWTEISAKYKAPKTAVNITLSITTDSTVDFIFDDVTITRK
GMAEANTVYAANAVLKDMYANYFRVGSVLNSGTVNNSSIKALILREFNSITCENEMKPDA
TLVQSGSTNTNIRVSLNRAASILNFCAQNNIAVRGHTLVWHSQTPQWFFKDNFQDNGNWV
SQSVMDQRLESYIKNMFAEIQRQYPSLNLYAYDVVNEAVSDDANRTRYYGGAREPGYGNG
RSPWVQIYGDNKFIEKAFTYARKYAPANCKLYYNDYNEYWDHKRDCIASICANLYNKGLL
DGVGMQSHINADMNGFSGIQNYKAALQKYINIGCDVQITELDISTENGKFSLQQQADKYK
AVFQAAVDINRTSSKGKVTAVCVWGPNDANTWLGSQNAPLLFNANNQPKPAYNAVASIIP
QSEWGDGNNPAGGGGGGKPEEPDANGYYYHDTFEGSVGQWTARGPAEVLLSGRTAYKGSE
SLLVRNRTAAWNGAQRALNPRTFVPGNTYCFSVVASFIEGASSTTFCMKLQYVDGSGTQR
YDTIDMKTVGPNQWVHLYNPQYRIPSDATDMYVYVETADDTINFYIDEAIGAVAGTVIEG
PAPQPTQPPVLLGDVNGDGTINSTDLTMLKRSVLRAITLTDDAKARADVDKNGSINSTDV
LLLSRYLLRVIDKFPVAENPSSSFKYESAVQYRPAPDSYLNPCPQAGRIVKETYTGINGT
KSLNVYLPYGYDPNKKYNIFYLMHGGGENENTIFSNDVKLQNILDHAIMNGELEPLIVVT
PTFNGGNCTAQNFYQEFRQNVIPFVESKYSTYAESTTPQGIAASRMHRGFGGFSMGGLTT
WYVMVNCLDYVAYFMPLSGDYWYGNSPQDKANSIAEAINRSGLSKREYFVFAATGSDHIA
YANMNPQIEAMKALPHFDYTSDFSKGNFYFLVAPGATHWWGYVRHYIYDALPYFFHE
Number of residues1077
Molecular Weight119671.86
Theoretical pI5.19
GO Classification
Functions
  • endo-1,4-beta-xylanase activity
Processes
  • xylan catabolic process
Components
  • cellulosome
General FunctionEndo-1,4-beta-xylanase activity
Specific FunctionNot Available
Pfam Domain Function
Transmembrane RegionsNot Available
GenBank Protein IDNot Available
UniProtKB IDP51584
UniProtKB Entry NameXYNY_CLOTM
Cellular LocationCytoplasmic
Gene sequence
>lcl|BSEQ0005873|3234 bp
ATGAAAAACAAGAGAGTTTTGGCAAAAATAACGGCTCTTGTGGTATTGCTGGGAGTGTTT
TTTGTATTACCGTCAAACATAAGTCAGCTATATGCTGATTATGAAGTGGTTCATGACACT
TTTGAAGTTAACTTTGACGGATGGTGTAACTTGGGAGTCGACACATATTTAACGGCAGTT
GAAAATGAAGGAAACAACGGTACAAGAGGTATGATGGTAATAAATCGCTCCAGTGCGAGT
GACGGTGCGTATTCGGAAAAAGGTTTCTATCTCGACGGTGGTGTAGAATACAAGTACAGT
GTTTTTGTAAAACACAACGGGACCGGCACCGAAACTTTCAAACTTTCTGTGTCCTATTTG
GATTCGGAAACAGAAGAAGAAAATAAGGAAGTAATTGCAACAAAGGATGTTGTGGCCGGA
GAATGGACTGAGATTTCGGCAAAATACAAAGCACCCAAAACTGCAGTGAATATTACTTTG
TCAATTACAACCGACAGCACTGTAGATTTCATTTTTGACGATGTAACCATAACCCGTAAA
GGAATGGCTGAGGCAAACACAGTATATGCAGCAAACGCTGTGCTGAAAGATATGTATGCA
AACTATTTCAGAGTTGGTTCGGTACTTAACTCCGGAACGGTAAACAATTCATCAATAAAG
GCCTTGATTTTAAGAGAGTTTAACAGTATTACCTGTGAAAATGAAATGAAGCCTGATGCC
ACACTGGTTCAATCAGGATCAACCAATACAAATATCAGGGTTTCTCTTAATCGTGCAGCA
AGTATTTTAAACTTCTGTGCACAAAATAATATAGCCGTCAGAGGTCATACACTGGTTTGG
CACAGCCAGACACCTCAATGGTTTTTCAAAGACAATTTCCAGGACAACGGAAACTGGGTT
TCCCAATCAGTTATGGACCAGCGTTTGGAAAGCTACATAAAAAATATGTTTGCTGAAATC
CAAAGACAGTATCCGTCTTTGAATCTTTATGCCTATGACGTTGTAAATGAGGCAGTAAGT
GATGATGCAAACAGGACCAGATATTATGGCGGGGCGAGGGAACCTGGATACGGAAATGGT
AGATCTCCATGGGTTCAGATCTACGGAGACAACAAATTTATTGAGAAAGCATTTACATAT
GCAAGAAAATATGCTCCGGCAAATTGTAAGCTTTACTACAACGATTACAACGAATATTGG
GATCATAAGAGAGACTGTATTGCCTCAATTTGTGCAAACTTGTACAACAAGGGCTTGCTT
GACGGTGTGGGAATGCAGTCCCATATTAATGCGGATATGAATGGATTCTCAGGTATACAA
AATTATAAAGCAGCTTTGCAGAAATATATAAATATCGGTTGTGATGTCCAAATTACCGAG
CTTGATATTAGTACAGAAAACGGCAAATTTAGCTTACAGCAGCAGGCTGATAAATATAAA
GCTGTTTTCCAGGCAGCTGTTGATATAAACAGAACCTCCAGCAAAGGAAAGGTTACGGCT
GTCTGTGTATGGGGACCTAATGACGCCAATACTTGGCTCGGTTCACAAAATGCACCTCTT
TTGTTTAACGCAAACAATCAACCGAAACCGGCATACAATGCGGTTGCATCCATTATTCCT
CAGTCCGAATGGGGCGACGGTAACAATCCGGCCGGCGGCGGAGGAGGAGGCAAACCGGAA
GAGCCGGATGCAAACGGATATTATTATCATGACACTTTTGAAGGAAGCGTAGGACAGTGG
ACAGCCAGAGGACCTGCGGAAGTTCTGCTTAGCGGAAGAACGGCTTACAAAGGTTCAGAA
TCACTCTTGGTAAGGAACCGTACGGCAGCATGGAACGGAGCACAACGGGCGCTGAATCCC
AGAACGTTTGTTCCCGGAAACACATATTGTTTCAGCGTAGTGGCATCGTTTATTGAAGGT
GCGTCTTCCACAACATTCTGCATGAAGCTGCAATACGTAGACGGAAGCGGCACTCAACGG
TATGATACCATAGATATGAAAACTGTGGGTCCAAATCAGTGGGTTCACCTGTACAATCCG
CAATACAGAATTCCTTCCGATGCAACAGATATGTATGTTTATGTGGAAACAGCGGATGAC
ACCATTAACTTCTACATAGATGAGGCAATCGGAGCGGTTGCCGGAACTGTAATCGAAGGA
CCTGCTCCACAGCCTACACAGCCTCCGGTACTGCTTGGCGATGTAAACGGTGATGGAACC
ATTAACTCAACTGACTTGACAATGTTAAAGAGAAGCGTGTTGAGGGCAATCACCCTTACC
GACGATGCAAAGGCTAGAGCAGACGTTGACAAGAATGGATCGATAAACAGCACTGATGTT
TTACTTCTTTCACGCTACCTTTTAAGAGTAATCGACAAATTTCCTGTAGCAGAAAATCCT
TCTTCTTCTTTTAAATATGAGTCGGCCGTGCAATATCGGCCGGCTCCTGATTCTTATTTA
AACCCTTGTCCGCAGGCGGGAAGAATTGTCAAGGAAACATATACAGGAATAAACGGAACT
AAGAGTCTTAATGTATATCTTCCATACGGTTATGATCCGAACAAAAAATATAACATTTTC
TACCTTATGCATGGCGGCGGTGAAAATGAGAATACGATTTTCAGCAACGATGTTAAATTG
CAAAATATCCTTGACCACGCGATTATGAACGGTGAACTTGAGCCTTTGATTGTAGTAACA
CCCACTTTCAACGGCGGAAACTGCACGGCCCAAAACTTTTATCAGGAATTCAGGCAAAAT
GTCATTCCTTTTGTGGAAAGCAAGTACTCTACTTATGCAGAATCAACAACCCCACAGGGA
ATAGCCGCTTCAAGAATGCACAGAGGTTTCGGCGGATTCTCAATGGGAGGATTGACAACA
TGGTATGTAATGGTTAACTGCCTTGATTACGTTGCATATTTTATGCCTTTAAGCGGTGAC
TACTGGTATGGAAACAGTCCGCAGGATAAGGCTAATTCAATTGCTGAAGCAATTAACAGA
TCCGGACTTTCAAAGAGGGAGTATTTCGTATTTGCGGCCACCGGTTCCGACCATATTGCA
TATGCTAATATGAATCCTCAAATTGAAGCTATGAAGGCTTTGCCGCATTTTGATTATACT
TCGGATTTTTCCAAAGGTAATTTTTACTTTCTTGTAGCTCCGGGCGCCACTCACTGGTGG
GGATACGTAAGACATTATATTTATGATGCACTTCCATATTTCTTCCATGAATGA
GenBank Gene IDX83269
GeneCard IDNot Available
GenAtlas IDNot Available
HGNC IDNot Available
Chromosome LocationNot Available
LocusNot Available
References
  1. Fontes CM, Hazlewood GP, Morag E, Hall J, Hirst BH, Gilbert HJ: Evidence for a general role for non-catalytic thermostabilizing domains in xylanases from thermophilic bacteria. Biochem J. 1995 Apr 1;307 ( Pt 1):151-8. 7717969