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EBI DbfetchID AB110787; SV 2; linear; genomic DNA; STD; PRO; 1911 BP. XX AC AB110787; XX DT 28-MAY-2003 (Rel. 75, Created) DT 06-FEB-2009 (Rel. 99, Last updated, Version 5) XX DE Arthrobacter globiformis g2d gene for isomaltodextranase, complete cds. XX KW . XX OS Arthrobacter globiformis OC Bacteria; Actinobacteria; Actinobacteridae; Actinomycetales; OC Micrococcineae; Micrococcaceae; Arthrobacter. XX RN [1] RP 1-1911 RA Tonozuka T., Suzuki S., Ikehara Y., Mizuno M., Kim Y., Watanabe K., Ito H., RA Matsui H., Hatada Y., Ito S., Nishikawa A., Sakano Y.; RT ; RL Submitted (26-MAY-2003) to the EMBL/GenBank/DDBJ databases. RL Contact:Takashi Tonozuka Tokyo University of Agriculture and Technology, RL Department of Applied Biological Science; 3-5-8 Saiwai-cho, Fuchu, Tokyo RL 183-8509, Japan XX RN [2] RC Publication_Status: Available-Online RA Tonozuka T., Suzuki S., Ikehara Y., Mizuno M., Kim Y., Nishikawa A., RA Sakano Y.; RT "Heterologous Production and Characterization of Arthrobacter globiformis RT T6 Isomalto-dextranase"; RL J. Appl. Glycosci. (1999) 51:27-32(2004). XX RN [3] RC Publication_Status: Available-Online RX PUBMED; 4826536. RA Sawai T., Toriyama K., Yano K.; RT "A bacterial dextranase releasing only isomaltose from dextrans"; RL J. Biochem. 75(1):105-112(1974). XX RN [4] RC Publication_Status: Available-Online RX PUBMED; 8002600. RA Iwai A., Ito H., Mizuno T., Mori H., Matsui H., Honma M., Okada G., RA Chiba S.; RT "Molecular cloning and expression of an isomalto-dextranase gene from RT Arthrobacter globiformis T6"; RL J. Bacteriol. 176(24):7730-7734(1994). XX FH Key Location/Qualifiers FH FT source 1..1911 FT /organism="Arthrobacter globiformis" FT /mol_type="genomic DNA" FT /note="To clone the gene for the isomalto-dextranase, a FT genomic DNA library of A. globiformis T6 was screened using FT a hybridization technique and a DNA fragment, which were FT designed from the nucleotide sequence appeared in DDBJ FT D30761. The open reading frame of the cloned DNA was FT sequenced, and many bases were different from that of DDBJ FT D30761. The changes in the bases could occur spontaneously FT due to long-term storage and/or serial transplantation of FT A. globiformis T6 since Sawai et al. first found this FT organism in 1976 (Ref)." FT /db_xref="taxon:1665" FT CDS 1..1911 FT /codon_start=1 FT /transl_table=11 FT /gene="g2d" FT /product="isomaltodextranase" FT /db_xref="GOA:Q7WSN5" FT /db_xref="InterPro:IPR000111" FT /db_xref="InterPro:IPR005084" FT /db_xref="InterPro:IPR006311" FT /db_xref="InterPro:IPR008979" FT /db_xref="InterPro:IPR013785" FT /db_xref="InterPro:IPR017853" FT /db_xref="InterPro:IPR017909" FT /db_xref="UniProtKB/TrEMBL:Q7WSN5" FT /protein_id="BAC76886.2" FT /translation="MMNLSRRTLLTTGSAATLAYALGMAGSAQAATAVTARPGVPVTAA FT PPLRLASRNSVFTRSGAGPRYWNIYGYSFPHNAPIPENEWKVNIDWLAGNFADFGYDIA FT CTDGWIEGSSRTTGNGYITSYNDSWQHDWAYWANYLAARKMKLGVYYNPLWVHRAAVED FT ASKTVLGRPDVKIADLVVPGDFFARDIGGNQLYWLDVTKSGAKEYVQGYVRYFKDLGVP FT YLRIDFLSWYEDGRDANIGQVNAPHGRANYELALSWINEAAGEDMEVSLVMPHMFQDGS FT AELANGDLVRINADADKGGWDRLSGMRQNWQDAWPNWANPFCGFTGWSHRNGRGQLILD FT GDFMRASTFASDEERKTMMNLMVAAGSPLAIADTYQQIGNNAWVYTNKEVLQLNADGLV FT GKPLYRSATPFSKDPGSRDTERWAGQLPDGSWGVALFNRSDTETVTKTIDFAKDLGLAT FT GGNVRDLWEHRNLGMDSRATAALAPHASAIFRVTPPKMHGTTRYPAAFAAWGGGAGFNY FT NHPGYDGNGFVDGLQAGSGSADPLVTFAVQVPHRGSYAIRYRYANATGDTSTMTVTAEK FT ADRSTVDGPVHVSFPGLATWDTWGVADGTITLDAGLNLVTIGRGATDKGAINLNWIELD FT M" XX SQ Sequence 1911 BP; 362 A; 691 C; 582 G; 276 T; 0 other; atgatgaacc tgtcccgccg cacattgctc accaccggca gcgccgccac cctcgcctac 60 gccttgggca tggcaggctc cgcccaggcc gccaccgccg tcaccgcccg cccgggcgtc 120 cccgtcacgg ccgcgccgcc cttgcgcctg gccagccgga acagcgtgtt cacccgcagc 180 ggtgccggcc cccggtactg gaacatctac ggctactcgt tcccgcacaa cgcccccatt 240 ccggaaaacg agtggaaggt caacatcgac tggctggccg gaaacttcgc cgatttcggt 300 tacgacatcg cctgcaccga cggctggatc gaaggctcca gccgcaccac cggcaacggc 360 tacatcacca gctacaacga ttcctggcag cacgactggg cttactgggc aaactacctg 420 gccgcgcgga agatgaagct gggtgtctac tacaaccccc tctgggtgca ccgggccgcc 480 gtcgaagacg cttccaagac cgtcctgggc cggcccgacg tcaagatcgc ggacctggtg 540 gtgcccgggg acttcttcgc ccgggacatc ggcggaaacc agctgtactg gctggacgtg 600 accaagtccg gcgccaagga atacgtccag ggctacgtgc gctacttcaa ggacctcggc 660 gttccctacc tgcggatcga cttcctctcc tggtacgagg acggaaggga cgcgaacatc 720 gggcaggtca acgcaccgca cggccgggcc aactacgaac tcgccctctc ctggatcaac 780 gaggccgccg gcgaggacat ggaagtttcg ctcgtaatgc cgcacatgtt ccaggacggt 840 tccgcggaac tggccaacgg cgacctggtg cggatcaatg ccgacgccga caagggcggc 900 tgggaccggc tgagcgggat gcgccagaac tggcaggacg cgtggcccaa ctgggccaac 960 ccgttctgcg ggttcaccgg atggtcccac cgcaacggca ggggccagct gatcctggac 1020 ggcgacttca tgcgcgccag cacctttgcc agcgacgagg aacgcaagac catgatgaac 1080 ctgatggtcg cggccggatc acccttggcc atcgctgaca cctaccagca aatcggcaac 1140 aacgcctggg tttacaccaa caaggaagtc ctccagctca atgccgacgg cctggtgggc 1200 aagcccctct accggtccgc caccccgttc tccaaggacc ccggctcccg cgacaccgaa 1260 cgctgggccg ggcaacttcc ggacggttcg tggggcgttg cgctcttcaa ccgcagcgac 1320 actgaaacgg tcaccaagac catcgacttc gcaaaggacc tcggcctggc aaccggcggc 1380 aacgtccggg acctctggga gcacaggaac ctgggcatgg actcccgcgc cacggccgcg 1440 ctggccccgc acgcctcggc catcttccgc gtcactccgc cgaagatgca cggcaccacc 1500 cggtaccccg cggccttcgc agcctgggga ggcggggctg gcttcaacta caaccacccc 1560 gggtatgacg gcaacggctt cgtggacgga ctccaggcgg gctccggcag cgcggacccg 1620 ctggtcacgt tcgcggtcca ggtgccgcac cgcggcagct acgccatccg ctaccggtat 1680 gccaatgcca ccggcgatac cagcaccatg acggtcaccg ccgaaaaggc ggaccgttcc 1740 accgtggacg gtccggtcca cgtcagcttc ccgggcctgg ccacctggga cacctggggc 1800 gtggcggacg gcaccatcac gctcgatgcc ggcctgaacc tggtcaccat cggcaggggc 1860 gccacggaca agggagccat caacctgaac tggatagagt tggacatgtg a 1911 // |
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