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EBI DbfetchID Z49970; SV 1; linear; genomic DNA; STD; PRO; 3105 BP. XX AC Z49970; XX DT 02-AUG-1995 (Rel. 44, Created) DT 18-APR-2005 (Rel. 83, Last updated, Version 3) XX DE Ruminococcus sp. DNA for Xyn1 gene XX KW xylanase 1. XX OS Ruminococcus sp. OC Bacteria; Firmicutes; Clostridia; Clostridiales; Ruminococcaceae; OC Ruminococcus. XX RN [1] RP 1-3105 RA Arakaki C., Breves R., Czihal A., Baeumlein H., Carillo B., Hofemeister J.; RT "Xylanase1 from Ruminococcus sp. with a new pattern of domain shuffling"; RL Unpublished. XX RN [2] RP 1-3105 RA Hofemeister J.; RT ; RL Submitted (28-JUN-1995) to the EMBL/GenBank/DDBJ databases. RL Hofemeister J., Institut fuer Pflanzengenetik und Kulturpflanzenforschung, RL Bakteriengenetik, Corrensstrasse 3, Gatersleben, Sachsen-Anhalt, Germany, RL 06466 XX FH Key Location/Qualifiers FH FT source 1..3105 FT /organism="Ruminococcus sp." FT /mol_type="genomic DNA" FT /db_xref="taxon:41978" FT RBS 514..520 FT CDS 529..2898 FT /transl_table=11 FT /gene="Xyn1" FT /product="xylanase 1" FT /function="hydrolysis of 1,4-beta-D-xylosidic linkages in FT xylans" FT /EC_number="3.2.1.8" FT /note="gtg start codon" FT /db_xref="GOA:Q59790" FT /db_xref="HSSP:1F5J" FT /db_xref="InterPro:IPR018208" FT /db_xref="UniProtKB/TrEMBL:Q59790" FT /experiment="experimental evidence, no additional details FT recorded" FT /protein_id="CAA90271.1" FT /translation="MKKTVKQFISSAVTALMVAASLPAVPSVNAADAQQRGNIGGFDYE FT MWNQNGQGQVSMTPKAGSFTCSWSNIENFLARMGKNYDSQKKNYKAFGDITLSYDVEYT FT PKGNSYMCVYGWTRNPLMEYYIVEGWGDWRPPGNDGENKGTVTLNGNTYDIRKTMRYNQ FT PSLDGTATFPQYWSVRQKSGSQNNTTNYMKGTISVSKHFDAWSKAGLDMSGTLYEVSLN FT IEGYRSSGNANVKAISFDGSIPEPTSEPVTQPVVKAEPDANGYYFKEKFESGAGDWSAR FT GTGAKVTSSDGFNGSKGILVSGRGDNWHGAQLTLDSSAFTAGETYSFGALVKQDGESST FT AMKLTLQYNDASGTANYDKVAEFTAPKGEWVDLSNTSFTIPSGASDLILYVEAPDSLTD FT FYIDNAFGGIKNTSPLEDVGSHTISTPGSETTTVTTASNKGIRGDINGDGVINSFDLAP FT LRRGILKMMSGSGSTPENADVNGDGTVNVADLLLLQKFILGMEKSFPDPVTTTTTKPIT FT TTTEKIVTTTTSSSSSSSGKNLNADIRKDMPTSVPGGNEKSGGCKVEKKTYNCKFTGGQ FT KSCNVILPPNYSASKQYPVMYVLHGIGGNEGSMVSGMGVQELLAGLTANGKAEEMIIVL FT PSQYTSKNGNQGGGFGINQEVCAAYDNFLYDISDSLIPFIEANYPVKTGRENRAITGFS FT MGGREAIYIGLMRPDLFAYVGGACPAPGITPGKDMFMEHPGCMQESEMKFRDVGPEPNV FT FMITGGTNDGVVGTFPKQYSDILTRNGVDQRLPVYP" FT sig_peptide 529..627 FT mat_peptide 628..2898 FT /product="xylanase 1" FT stem_loop 2984..3011 XX SQ Sequence 3105 BP; 921 A; 757 C; 684 G; 743 T; 0 other; gatctttttc ataagtatgc ccccattatt aagtttttta gatgcttgcc tataatttcc 60 cttctggttt tgtgaacttc ttaacggtca gagttcacac tttctttata tattgtctat 120 attataatgt atattgtagt aataatatac caaaattttc ctttaagtaa caatatcttt 180 accctattta gcaattttta acgatatttt ataatttgat tatttttaaa ctatacagtg 240 taaatactat tatttaaaaa gtccaccaaa aatgtaaaat acaatgatat cttaaacgta 300 aaaacctgta caatgattgt tcatcttttt acattattgt tatatatcgt cttggtatag 360 tcagcaattt ttagtcaaga tatacaaggt ccgcaaattt taacttgcaa ttaacaggtc 420 agatgtttta taatgatatc atagaaataa aaggagcact tggctcctta tggggattac 480 tgaaatcata agtttgcttt ttttctaaaa aacaaaggag tgattgaagt gaaaaaaaca 540 gttaaacaat tcatcagcag tgccgttaca gcgttaatgg tggctgcaag cctgcctgcc 600 gttccttccg tgaacgcagc cgacgcccag cagagaggca atatcggcgg tttcgattac 660 gaaatgtgga accagaacgg tcagggacag gtatcaatga cgcctaaggc aggctctttc 720 acctgctcat ggagcaacat tgaaaacttc ctcgcacgta tgggcaagaa ctacgacagc 780 cagaaaaaga actacaaggc tttcggagac attaccctct cctacgacgt agagtacacc 840 cccaagggca actcttatat gtgcgtatac ggctggacga ggaaccctct catggaatac 900 tacatcgtcg aaggctgggg cgactggcgt ccacccggaa atgacggcga aaacaagggt 960 acagttaccc tgaacggcaa cacctacgat atccgcaaaa caatgcgtta taatcagcca 1020 tctctggacg gcacggctac attccctcag tactggagcg tacgtcagaa gagcggttca 1080 cagaataata ccaccaacta tatgaagggt actatcagcg tatccaagca ctttgacgca 1140 tggtcaaagg caggtctgga tatgagcggt actctctacg aggtatccct caacatcgag 1200 ggctacagat caagcggaaa cgctaacgtt aaagctatct cattcgacgg cagtataccc 1260 gagcccacaa gcgagcccgt aactcagccc gttgtcaagg cagagcctga cgcaaacggc 1320 tactacttca aagaaaaatt cgagagcggc gcaggcgact ggtcagcccg cggaacagga 1380 gctaaggtaa caagctctga cggattcaac ggttcaaagg gcatactggt atcaggacgc 1440 ggcgacaact ggcacggcgc acagctcaca ctcgactcaa gtgctttcac agcaggcgaa 1500 acatacagct tcggcgcact tgtaaagcag gacggcgagt cctcaacagc tatgaagctc 1560 actctccagt ataacgacgc aagcggcaca gccaattacg ataaggtggc agagttcaca 1620 gctccaaagg gtgaatgggt agacctttcc aatacatcgt tcactatccc gtcaggcgct 1680 tcagacctca ttctctatgt tgaagctccc gacagcctta cggatttcta tatcgacaac 1740 gctttcggcg gcatcaagaa cacatctcct cttgaagatg tcggaagcca tactatcagc 1800 actccgggca gcgagacaac aacagtcaca actgcatcaa ataagggtat cagaggcgat 1860 atcaacggcg acggcgttat caactcattc gaccttgctc ctctcagaag aggcattctc 1920 aagatgatgt caggcagcgg ctcgactccc gaaaatgctg acgtaaacgg cgacggcact 1980 gtaaatgttg cagacctcct gcttctccag aagtttatac tcggtatgga gaagtcattc 2040 cccgatcctg taacaactac cacgaccaag ccgataacaa caactaccga gaagatagtt 2100 accacaacta cttcttcatc ttcttcaagc tcaggcaaga acctcaatgc agatatccgc 2160 aaggatatgc ctacttcagt tcccggcgga aacgaaaaga gcggcggctg caaggtcgag 2220 aagaagacat acaactgcaa gttcacaggc ggtcagaaga gctgcaacgt tatcctgcct 2280 cctaactaca gcgcaagcaa gcagtaccct gttatgtacg ttctccacgg tatcggcgga 2340 aacgagggaa gcatggtaag cggcatgggc gttcaggagc ttcttgcagg acttaccgca 2400 aacggcaagg cagaggaaat gataatcgtt ctcccgagcc agtacaccag caagaacggc 2460 aatcagggcg gcggcttcgg aatcaatcag gaagtatgcg cagcttacga taacttcctc 2520 tatgatatct cagacagcct tatcccattc atcgaggcta actatcccgt taagacaggc 2580 agagaaaacc gtgctatcac aggcttctca atgggcggac gtgaagctat ctatatcggt 2640 cttatgcgtc ccgacctctt cgcttacgtt ggcggagctt gccctgcacc cggtatcacc 2700 ccaggcaagg atatgttcat ggagcaccca ggctgtatgc aggagagcga aatgaagttc 2760 agagacgttg gacctgagcc gaatgtattc atgataacag gcggcacaaa cgacggcgtc 2820 gtaggaacat tccccaagca gtacagcgat atccttacaa gaaacggcgt tgaccaacgt 2880 ttaccagtct atccctaacg gcggacacga cgcaggctct gtaaagcctc atctctacac 2940 attcatgaga tacgcattca aataatgata tagttgacat atgaaggaca gcgctttatg 3000 cgctgtcttt ctttttgtgc aaaaagaaaa gccatttgag cttttgaagc tcaaatggct 3060 tatatttata atagtatagc ttattctgtt ctgagagcct ccaca 3105 // |
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