Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | BCE_2026 |
Symbol | |
ID | 2748176 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Bacillus cereus ATCC 10987 |
Kingdom | Bacteria |
Replicon accession | NC_003909 |
Strand | + |
Start bp | 1958926 |
End bp | 1961487 |
Gene Length | 2562 bp |
Protein Length | 853 aa |
Translation table | 11 |
GC content | 31% |
IMG OID | 637278846 |
Product | glycosyl transferase, group 2 family protein |
Protein accession | NP_978342 |
Protein GI | 42781095 |
COG category | [M] Cell wall/membrane/envelope biogenesis [S] Function unknown |
COG ID | [COG0463] Glycosyltransferases involved in cell wall biogenesis [COG1215] Glycosyltransferases, probably involved in cell wall biogenesis [COG4627] Uncharacterized protein conserved in bacteria |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 9 |
Plasmid unclonability p-value | 0.739679 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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Sequence |
Gene sequence | ATGAGAACTC GTATTGAAAG AAATGAAGAG GTGGTAGATC AACTTCCGTT GGTAAGTGTA TTAATTCCTA CATATAATCG TCCACGCTAC TTTGAAGAGG CGTTATGTAG TGTGTTAGAA CAAACGTACC CTAATATAGA AATTATAGTT GGAGATGATA GTACGAATGA TGAAACAGAA AAGGTGTTAC AAAAATACTT ATGTGATCAT TCAAATATTA CTTATATAAA AAACAGGTCA ACTCTCGGGC AGTTTGAAAA TGCTCTAATG TTATTTAATG AAGCGAGCGG TGAGTATATA AATTTTTTAA TGGACGATGA TATCTTTCAT GTGGATAAAA TTGAAAAAAT GATGAAGTAT TTTTTCAATG ATCTAGCTAA TGAAATTAAG CTTGTAACAT CCCATCGTCA AGTAATTGAT GAAAAAGGGA AAGAACTACG ACATATTTAT TCAACTGTCC GTTTATTTAA AGAGGATACG ATTATAGAGG GAACAGAATT AGCAAATAGG GTAATTGTCG ATCAAAAAAA TTATATTGGA GAACCGACAA CAGTTTTATT TCGTAAAAAT GATTTACAAG AACCGTATGG GATTTTTGAT AAGAGGAGGT ATCTTTGTAA CGTAGATATA GCTTCATGGT TATCTTTATT AAGTAAAGGA AAAGCAGTAT ATATAGCAGA GACACTGAGT TACTTTCGAT TACATCCAGA TCAACAGTTA AATGAATCTA ATAAAATGAT GGATGGATTA GAAGATTTTT CACATAGTAT TTTAGCAGGA GAAAAATATG GTTTCTTATC TAACGAAACA GAGTTAGATA AAGCGATAAC TAATTTTCTA GATTATGCAA GAAGGATAGT TCCATCATCA ATATTATATA CATTAGACTA TTATCAAAAA ATTAAAGAAA AGAAAATAAA CATAGAAAAG AAAAAACAAC ATATAAATAA TAATTCGCCT TTACCGAAAG TAAGTATACT TATTCCTGCG TACAATAGGC CGTATTACTT GGAATTGGCG CTTAACAGCG CTCTGAATCA AACATATGAA AATATTGAAA TTATTATTTC TGACGACAGT ACAAATAATG AAGTCAATGC TATGATTCAA CCGTATTTAC GTGAATATGA GTGTATTACA TATGTTAAAA ATGAAACGCC GTTAGTTGCT GAAAACTTTA ATAAGTGTAT AGAACTTGCG AACGGGGATT ATATAAACTT TTTATTAGAT GATGACTTAT TTCATCATGA AAAGATCGAG AGAATGATGA AATACTTTTT GACGTTAGAA AATATTTCAT TTGTGACGTC TTATCGTGAA CTGATTGATG AGAACGGAGA GATATTACCA CCTTCAACTT TGAATATGAA AATTGCGAAA GAAACTACAC TTTTTGAAGG AAAAGAATTA GGGAATTACA TATTGAAAAA TTTAAAAAAT ATAGTGGGTG AGCCGACAAC TGTTCTGTTT AATCGGAACT TGTTTGAAGG GAAGTTTGGG TATTTTAAAG GGAAGGCTTA TTCTGCTATT AATGACATTG CAACTTGGTT AGATATGATG AGGAAAGGGA AAGTAGTTTA TATAAAAGAG CCTCTTAGTT ATTTTAGACA ACATAGTGGA CAAAATCAAA AACAAATGCA TTTTATTTTA ATGACAATTG ACGAATGGAT TGAATTAATT ATAGATGCAT ATAATAGTGG TTTTTTAAGT TCTGAGAGGG ATTATAAAGA GAGCCTATCT TATTGTTTAG AAAATGCAGG ATTTATAGTT AAAGATGCAG TAAAAAATGG AGAACTAGAT CAAATTTATA ATGAAAAGAT TAAAAAAGGA TTAAACAAGC TAGTTGCTCA TATGTTTGAG AAAGAACCTT GTTATTGTCA ATATTGCAAT CAACAATTTG AAAAATTTTT ACCTTGGCCA GCAGATTATG ATTTTCCGAA ATATAAATTT GAGATGTGGA ATAAAGATAC AGGGATATGT CCAGTTTGTA GTTCAATGGA TCGTGAAAGA TTATATCGTG CGTACATTGA AACGGAAACG GACTTGTTAA GTAGAAAATA TACTATGCTT CATATTGCAC CTGAAGCGAA TTTAAGGGAT TGGTTTAACG AGTATAAAAA TATTACGTAT GTATGTGGGG ATATAGAACC AAAGGATCCA TTAATGAAGG AAATTGATGT TACAAGTATT ACATATGATA GTAATACGTT TGATGTAATT TTGTGTAGCC ATGTATTAGA ACACGTTCTT GACGATGATA AAGCAATGCG AGAGTTATAT AGGGTTTTAA AACCAAATGG ATGGGGAATT ATTCAAGTAC CAATCGTAAT GAATGTAGAT TCTATTATAG AGAATAAATT AATTGTAACA CCACAATTGA GAAAATTAGC TTTTGGTCAA GAAGATCATG TGAGAATTTA TAATCAATCG GGATTCATTC AACGATTAAC GAATGCAGGA TTTAAGGTGG AATTATATAA CATAGCTGAA AGACAAGGAA TGAAAAGTGC GAGGAAATTT GGATTATCTG AAACAGATAT GCTCTATATT GTCCGAAAAT GA
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Protein sequence | MRTRIERNEE VVDQLPLVSV LIPTYNRPRY FEEALCSVLE QTYPNIEIIV GDDSTNDETE KVLQKYLCDH SNITYIKNRS TLGQFENALM LFNEASGEYI NFLMDDDIFH VDKIEKMMKY FFNDLANEIK LVTSHRQVID EKGKELRHIY STVRLFKEDT IIEGTELANR VIVDQKNYIG EPTTVLFRKN DLQEPYGIFD KRRYLCNVDI ASWLSLLSKG KAVYIAETLS YFRLHPDQQL NESNKMMDGL EDFSHSILAG EKYGFLSNET ELDKAITNFL DYARRIVPSS ILYTLDYYQK IKEKKINIEK KKQHINNNSP LPKVSILIPA YNRPYYLELA LNSALNQTYE NIEIIISDDS TNNEVNAMIQ PYLREYECIT YVKNETPLVA ENFNKCIELA NGDYINFLLD DDLFHHEKIE RMMKYFLTLE NISFVTSYRE LIDENGEILP PSTLNMKIAK ETTLFEGKEL GNYILKNLKN IVGEPTTVLF NRNLFEGKFG YFKGKAYSAI NDIATWLDMM RKGKVVYIKE PLSYFRQHSG QNQKQMHFIL MTIDEWIELI IDAYNSGFLS SERDYKESLS YCLENAGFIV KDAVKNGELD QIYNEKIKKG LNKLVAHMFE KEPCYCQYCN QQFEKFLPWP ADYDFPKYKF EMWNKDTGIC PVCSSMDRER LYRAYIETET DLLSRKYTML HIAPEANLRD WFNEYKNITY VCGDIEPKDP LMKEIDVTSI TYDSNTFDVI LCSHVLEHVL DDDKAMRELY RVLKPNGWGI IQVPIVMNVD SIIENKLIVT PQLRKLAFGQ EDHVRIYNQS GFIQRLTNAG FKVELYNIAE RQGMKSARKF GLSETDMLYI VRK
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