Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Achl_1264 |
Symbol | |
ID | 7292710 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Arthrobacter chlorophenolicus A6 |
Kingdom | Bacteria |
Replicon accession | NC_011886 |
Strand | + |
Start bp | 1387516 |
End bp | 1390854 |
Gene Length | 3339 bp |
Protein Length | 1112 aa |
Translation table | 11 |
GC content | 69% |
IMG OID | 643589670 |
Product | glycosyl transferase, family 2 |
Protein accession | YP_002487344 |
Protein GI | 220912035 |
COG category | [R] General function prediction only |
COG ID | [COG1216] Predicted glycosyltransferases |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | n/a |
Plasmid unclonability p-value | n/a |
Plasmid hitchhiking | n/a |
Plasmid clonability | n/a |
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Fosmid Coverage information |
Num covering fosmid clones | 13 |
Fosmid unclonability p-value | 0.000000048928 |
Fosmid Hitchhiker | Yes |
Fosmid clonability | hitchhiker |
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Sequence |
Gene sequence | GTGGTTGCCC ACAACGGCAG TGCCTATCTC CCCAGAACGC TTGCAGGATT GGCGGACCAG ACCCGGCCCG TCGACTACGC GATAGGCGTC GACACAGGGT CCGGCGATGA CTCCCGGCTC CTTCTCGAGA ACACGTTGGG CCGAGCCCAT GTCGTCTCCC ATGATCATGG GAAGGGCGGC ATGGGCGCCG CTGTGTCCGC AGCCCTTTCA GAACTGGCCC CGGGCGGAGC AGGCAGGCCC GACGGCAAAC CGGAGTGGAT CTGGCTGCTG CACGACGACG CCGCCCCCGC CCCGGAAGCC CTGGCTGAAC TGCTCGGTGC CGTGGAACGT GCCCCGTCCG TGACCGTGGC CGGCTGCAAG CAACTGGACT GGCACGAGGA ACGGAAGCTC ATCGACGTCG GGCTGTCCAC CAGCAGGTGG GCGGAACGGC TGACGCTCAT CGACGCCGAC GAGCTGGACC AGGGCCAGTA CGACGGCCGC AGTGACACCT TTGCCGTCAA CTCGGCGGGA ATGCTTGTGC GGCGGGACGT GTGGGATCAG CTGGGCGGGT TCGACCCCGG GCTCCCGGGC ACCGGAGATG ACGTCGATTT TTGCTGGCGC AACCGCCTGG CTGGGAACCG GGTCGTCGTC GTACCGGCGG CTCGAATGTT CCATGTGGCG CACAGGCCGC ACGGCCTGGG CAACCCGGCA GCAGCCAGGA AAGCCCAGGT ACACCTGCGG CTGAAGCACG CGCCGCTGTG GATGGTCCCG GTGCACGCCA TGGGAGCCTT GCTCGGAAGC CTTTTCAGGC TGGTACTGAG CATCGTGGTG AAGGACCCGG CCCACGGAAT AACGCAACTC GCGGCCACCT TCGCCGCCTT GGCCCGGCCC CGGGCCCTTG CGCGGGCAAG GAAATCGGCG CGGCAGACCC GGCGAATCCG CCGGTCCGTC ATCCGTAAGC TCCAGACGCC GCGACGGGAA GTCTGGAGCC ACCGGCGGTC CCTGATGGAA GCCATTGGCG CGGACGACAA CCCCGCAGAT GAACTTGAAC AGGACCCCCT GGCGCACCAG CCGACGGGTG ACTCCGCAGA CGATTTCGCC GCACTGGCCA CCCGGAAGCG GGGCTGGGTG GGCAACGGTG CCCTGGCCGC CTTTATCATC GCCTCCCTTG CCTCGCTGTT GGGCCTGGCA GGCCTTCTCC GCGCGGAAGC TGTGTCCGGC GGTGGCCTCA TCCCCATCTC CACTGGCCTG GGGGACATCT GGCAGAACGC CTCCGGTTGG TGGATCAGCC TTGGTGCGGG ACTTCCCGGC CACGGAGACC CTTTCGATTA CGTCCTGTGG ACCCTGGGGG TCCTGGGCGG CGGCAACGCA AACGCCGCCA TGGCGTGGCT CATCATCCTT GGCACGCCAC TGTCCGGGCT GACGGCCTGG TTCGCGGCGG GCGGGCTGAC CACCCGGCGG CGCCTCCGCC TGGCTGCCGC GCTGTTCTGG TCGGCGGCGC CGGCATTGCA GGTTGCCCTG AACCAGGGGC GGGCCGGAGC ACTGCTGGCG CACCTGATGC TTCCTTTGGT CGTGCTGGCC CTGCTGCGGG CCACCGGTTC AGCAGTAGGC CACGGCCGTC ATGCGCTGCC CCAGCCGGGC CCACGCCCGG CCGAGAAACC GGCCGTCAGG CCGGGAATCA ACGGAACGCC TTCCTGGACC GCCGCGGCCG CGGCAGGACT TGCCCTCGCC GTCACGGTTG CTGCCGCACC TTCCCTCCTG GTCCCGGCAG CCCTGGTCAT CATTTTCTGT GGGCTTCGTA TGGGCCGCCG CGGCCGCACC GTTTGGTGGG CCCTCCTGCC GAGCGCTGCG TTGTTCATTC CGTTCGGCAT GTCAGTGCTG GACAGGCCGC GTGCCCTGCT TGCCGACCCC GGCATGCCCC TGCCTTTTGA GGCTGCCCCG CTCTGGCAGC AGCTCCTGGG CCAGCCGCTG GCGTTCGACC CCGCCAAGGG GCTGGTGGGG CTGCCGCTAT TCGAGGACGG CGTGCTGCCG TGGGCCCTCG TGCTGACGGT CCTCCTGGCG GGACCGGTCC TGATCCTTGC CATCTGGGCC CTTCTCGCCC CGGGACGCGG ATCGGCGTTG GCGCGGACGT TCTGGGCAGC GGCCACCACA GCGCTGGCCT GCGGATGGCT CGCCACCCAG GTGGCCACCG GGGCCACTGC GGACAGCCTC GTTACCCCGT TCACCGGGCC GGCCGTTTCC GCTGCTGCGT TTGCGTTCCT GGGTGCGGGC CTGCTCGGCG CGGAACGGCT CCTCAACGCA GCGGGCCGGG CGGCCGCCAA GGAACCGCGC CTTGCCGCGG TGGCCAATGC GGCAGTGGCA GTGGGCATGG CGGTCCTCCT GGCGGGACCG CTGGCCGGCA TGGCCGCGTG GTCTGCCCAA AACCTGCTCC GGACCGGCAC GGCTACTGCG GCCCAGGCCG TTCCCGAAGA ATCCGGGACA CCCGGGCTGG GTACCGCCAG GCTGGTAGAG GCTGCCGGTA CCCGCACCCT TCCAGCCACC GCAATCGACC GCGGGACCGG CGCTGAGCAG ACGCGGACAC TGCTGATCGG CACCCGCGAG GACGGCACCT ATGACGCTTC TCTGATGCGT GGTGCGGGAA CCACCCTGGA CAGCCTGTCC ACCATTGCCT CTGCCCGGAG CATCACGGGG ACGGCGGGAG CCGAAACGGT GCGCGGGGAC GACGACGTCA CGGCGTCCGT CCGCAGGGTA GTGGCCACGC TGGTTGCCGG GCAGGGCGTT GACCCGCGCG AAGACCTTGA GAAGCTCGGC GCCGGATTCG TGGTCCTGCG CTCCGCCGAT ACGGCGGCCC AACTGACCGC AAGCCGGATG GACGCCGTCC CGGGGCTTGT GGCTGTGGGA CAGACGGACG TTGGCTGGCT TTGGCGCATC ACGCCCCGGA ACCAGTCCGC CACGCAGGCA GCGGAAGTTG CCCACCGTGT CCGGATAACG GACAGCAACG GTGCCACCCT GGCCATGGTG CCGTCGGGCG TGAACGACGT CGACGCATCC GTTGACGGCG GCCCGGAAGG CCGCCTGGTG GTCCTCGCCG AACGCGCCGA TGCCGGCTGG ACGGCCTGGC TCGATGGCCG GAAACTCACA TCCACCACCT CCGGGTGGGC GCAGGCGTTC ACGCTGCCGG CTTCGGGCGG GCACCTGACG ATCCGCTACG AAAACCCCTG GTCCTGGTGG GTAGGAGCAG CCCAGGTCAC CATTATCGGC CTGACGGTGA TGCTCGCCAT TCCCATGCCG GTCAACAGGC CCAGGACCGG GCTGTCACGC GACGAAGGCG CCCTGCGTAA GGAAAAGCAG AATGCATGA
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Protein sequence | MVAHNGSAYL PRTLAGLADQ TRPVDYAIGV DTGSGDDSRL LLENTLGRAH VVSHDHGKGG MGAAVSAALS ELAPGGAGRP DGKPEWIWLL HDDAAPAPEA LAELLGAVER APSVTVAGCK QLDWHEERKL IDVGLSTSRW AERLTLIDAD ELDQGQYDGR SDTFAVNSAG MLVRRDVWDQ LGGFDPGLPG TGDDVDFCWR NRLAGNRVVV VPAARMFHVA HRPHGLGNPA AARKAQVHLR LKHAPLWMVP VHAMGALLGS LFRLVLSIVV KDPAHGITQL AATFAALARP RALARARKSA RQTRRIRRSV IRKLQTPRRE VWSHRRSLME AIGADDNPAD ELEQDPLAHQ PTGDSADDFA ALATRKRGWV GNGALAAFII ASLASLLGLA GLLRAEAVSG GGLIPISTGL GDIWQNASGW WISLGAGLPG HGDPFDYVLW TLGVLGGGNA NAAMAWLIIL GTPLSGLTAW FAAGGLTTRR RLRLAAALFW SAAPALQVAL NQGRAGALLA HLMLPLVVLA LLRATGSAVG HGRHALPQPG PRPAEKPAVR PGINGTPSWT AAAAAGLALA VTVAAAPSLL VPAALVIIFC GLRMGRRGRT VWWALLPSAA LFIPFGMSVL DRPRALLADP GMPLPFEAAP LWQQLLGQPL AFDPAKGLVG LPLFEDGVLP WALVLTVLLA GPVLILAIWA LLAPGRGSAL ARTFWAAATT ALACGWLATQ VATGATADSL VTPFTGPAVS AAAFAFLGAG LLGAERLLNA AGRAAAKEPR LAAVANAAVA VGMAVLLAGP LAGMAAWSAQ NLLRTGTATA AQAVPEESGT PGLGTARLVE AAGTRTLPAT AIDRGTGAEQ TRTLLIGTRE DGTYDASLMR GAGTTLDSLS TIASARSITG TAGAETVRGD DDVTASVRRV VATLVAGQGV DPREDLEKLG AGFVVLRSAD TAAQLTASRM DAVPGLVAVG QTDVGWLWRI TPRNQSATQA AEVAHRVRIT DSNGATLAMV PSGVNDVDAS VDGGPEGRLV VLAERADAGW TAWLDGRKLT STTSGWAQAF TLPASGGHLT IRYENPWSWW VGAAQVTIIG LTVMLAIPMP VNRPRTGLSR DEGALRKEKQ NA
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