Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | BCAH187_C0151 |
Symbol | |
ID | 7072717 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Bacillus cereus AH187 |
Kingdom | Bacteria |
Replicon accession | NC_011655 |
Strand | + |
Start bp | 79284 |
End bp | 82679 |
Gene Length | 3396 bp |
Protein Length | 1131 aa |
Translation table | 11 |
GC content | 35% |
IMG OID | 643448291 |
Product | S-layer domain ribonuclease |
Protein accession | YP_002335887 |
Protein GI | 217956793 |
COG category | [R] General function prediction only |
COG ID | [COG5263] FOG: Glucan-binding domain (YG repeat) |
TIGRFAM ID | |
| 

|
Plasmid Coverage information |
Num covering plasmid clones | 20 |
Plasmid unclonability p-value | 0.965938 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
| |
Fosmid Coverage information |
Num covering fosmid clones | 63 |
Fosmid unclonability p-value | 0.000000320353 |
Fosmid Hitchhiker | Yes |
Fosmid clonability | hitchhiker |
| |
Sequence |
Gene sequence | ATGAATACAA TTAAGAAATT ATTTTTAAGT TTTATCGTAT GTATTTTGTT ATTCAGTACA GTAGGAACAG CGTATGCAGA ACAAAATGGT CAAGTGAATT CATCATCTTT TATTGACGTT CCTAAAACTC ACTGGGCGTA TAAAGAAATG ATGTATATGG TGGAGAATAA GATTATAACA GGATACGGAA ATGGGTATTT CGGTGCAGCC GATCCTATTA CTCGCGAACA TCTCGCTGCT TTCTTGTATC GATATTTAAA ACCGCAAGAT AGTACAAATA ATCCATTTGT TGATATTGGC GACAGCAATT TCAAAAAGGA AATTTTGGCA CTAACAGCAC GTGGCATTTT CAGTGTAAAT GCTGAAAAAA AATTCAATCC AAAAAATAAT ATGACACGTG CCGAAATGGC AACTGTGCTT GTCAAAACAT TTGATTTAAA ACCGCAAGGA AATGTTGAAT TTACGGATAT GAAAGGTCAC TGGGCCAACG AATATGTCAA AATATTAGCC GGTAACAACA TAACAAGTGG TACAGGTGAC GGGAATTTTA ATCCAAATGG CATTGTTACT AGAGAGCAAT TTTCTATGTT CTTATATAGG ACGATTATGA AAGTAACAAA TATGCAAAAT GATGAATCAG TTGGCTGGGT GAAGGAGAAC GAGAATTGGT ACTATTACAA CAAAGATGGT AGTAAGCAAA GGGATAACAT TACGTTAGAT GGAATAGAGT ACGCCTTTTT TAAAGATGGA AGGCTATTCC AAGGGAGTAA GCAGGTAGGG AAAGATACTT TATATTATAG TGAACCTGGT AAACTAAAGA CTGGATGGAG TTTCTCTGCA ACTTCATGGA GCTATTTAAA AGATGGGAAG TATGTGACAG GAACATTTAC TTATCAAGGA AAACCATTTG AAATTAATAA GTACGGGGAT ATGGAAAAGG GATGGATTAC TCTACGTTCT GCTGTTAAAA GAATCTATCC AAAGCCCGAA ACAAAGTTTC TATCGAAATC TAAGCCTGTA AAGGATGGAG ATGTTTTAGA AGTCATATCC AAGCAAGGTT TATGGTATCA GGTAAAATAC CAAGGAGAAA TTGGATATGT CCGAGTACTA GAGTCTGTTG TAATTGGTGA ATCACCAGTT CGTTCATGGG ATGTAGCAAA AGAAGCAACG AATTTGTCTC ATTTCATGAT AACTGAGTAT CATAAAGATC CCGAAAAATA TTTTCCACCA AATATTCAAA AGAAATTTGA TAAACAACTT GATAGTGATC TAAATGTTCT CGCGAATGGA TTACAATGGA TTGATCAATT AAAAGAAGTA CTCTATTTAG ATAATAAACA AGGGTGGGTA CAAGAAGAAG GAAAATGGAC GTATTATAAA AAAGATGGGC AAAGAGTAAC AGGTTTCCAA TCAATTGATG GGAAACGATA TTATTTTGGT ACCGATGGTT TTATGCAAAC GGGCTGGTTA CATACAGGTG GATATGATTA TTATCTAGGA ACCGATGGCG TGGTACAAAC TGGAATCCAA CATATCGATG GGAAAATCTA TTACTTTGGT CCGTTGGGTC CTGTGCAATC GGGATTTACA AATGTTGATG GGAAACCGTA TTATTTTGAT GCTTCTCATG AATCAAGAAA TGGTTGGATG AAGCAAGAGT TTAGTTGGTA TTTACTACAG CCTTCAGGTG CATTACAAAC AGGAGATTTT ACATATAAAG ACAAGAAGTT CTCCTTTAAT CAAGACGGAG AAATGATTAA AGGGTGGGTT ACATTAGAAT CCCTTGTTAA AAAAGTATAT CCTGAGCCAG ATTTGAAAAA AGCATTACGT GCAAAAAGTG TGAACAAGGG TGAAGTGATA GAAGTAGTGG GGAAAGTCGG TTCTTGGTAT GAGGTTAATT ACCAAGGTGA AAAGGGATAT GTACGCATTC ATGATGCTAT TATTTTTGAT CAGGAGGCTA AAAGTCCACT TACTTTGCTT GATGGAAAAA TAAAGATATT TGAAGGTGTA TTAGATTACT TAAAAAGTGA CGAAACATAC ATAAATAACA CGATCAAAAT TTTAGAAGAA GAAGAACAAC GTTGGGTAGA TGATGTAGAA AACTTAGAGA ATCTTTCCAG AGACATTAAT GATGCAAAGC AAGATGTACA GTATAAAAGG CAAGTCATCA TAGAAGCACA TGATAAGTTA GAAGAATTAG TAAATGCTAT GAAAGGTGAT ATAAGAAATT TAACAGTTAC CCAAAGGAAA GAACTTGCAA AATTGCTTGG AGCCGATGGA AAAGAGTTAC TAGATTTTAG TGTGGAAACA TATACTTTTA TACTTCAACA ATATGTATCC ATGGCTCAAG CATATGGTGA AACTTACAAG GTATTAAGTA TATATGCAGA TAAAACAAGT GAATTTCTAG AAGATGTTAG CAAAGATATT CATCAAATCA CATTGAATAT GCAAGAGTTA TCGAAGGGAT TTTCTGGTGT AGTTAAAGAT TTAGGTCCAG TTGTAAATAG TTCCATTCGT TTGAAGCATT CTATAGATGA AGCAAAACCT GGTATGGAGG AACTTGTACA GGTAACAAGA AAAAACGTTC CAGTCATTGC GCAAGATTTA CAAGCGTTAG ATGCGAAAGT ACCAGGATTC TTCACAGATT TCAATATGGG AATAGATCTT GCAAATACAT TTATGGACTC CGCTAATAAA ATAGCAAGTC ATAAGATTAA TATTCCAGCT GCTACCATCA ATGTGGGGAA TATTGACTTG AGTAATGCAC TACGTGATTT AGGTGGTGAT CCATCTAGAG TATATGATCG TAAGAATGAT GGAGATGTAT CATTCATATT GGGTATTACA CCTATAATTG GTACAGGAAA AGAAATTGGA CAGCTTATCA AAGGTGAAGA CTTAGTAACA GGTCAAAAAT ACGGTCCAGA TGATTATGCA TGGGGTACAT TGGCTGTCGT ATCTGGTGGC ACAACACGGG TTATCGGTAA AGTTGTAGGG AAGGTTGGAG ACCTTGAGAA GAAAGGTAAG GCTTTAGAAG CGGCAGCCAA AAATACAAAA TTCACGAAAT ATCCTACAGG TTTTGATGAA GTCGCTCAGT ATATAAAACA AAATAAGAAA TTACCGGATA ATTTCATCAC AAAGCAACAA GCTGAAGCTT TAGGATGGGA TAGAAAGAAA GGAAATCTCC ACGAAGTAGC TCCAGGAAAA AGTATTGGTG GAAATGTTTA CTATAATAAT GAAAGGCTAT TACCAAGTGC TCCAAATAGG ACTTGGTATG AAGCGGATAT TAATTATTCA TCAGGGTATC GAGGTAATGA TAGAATTCTT TATTCTAATG ATGGATTAGT GTATAAAACT TCTGATCATT ATAAAACGTT TACCGAAGTA AAATAG
|
Protein sequence | MNTIKKLFLS FIVCILLFST VGTAYAEQNG QVNSSSFIDV PKTHWAYKEM MYMVENKIIT GYGNGYFGAA DPITREHLAA FLYRYLKPQD STNNPFVDIG DSNFKKEILA LTARGIFSVN AEKKFNPKNN MTRAEMATVL VKTFDLKPQG NVEFTDMKGH WANEYVKILA GNNITSGTGD GNFNPNGIVT REQFSMFLYR TIMKVTNMQN DESVGWVKEN ENWYYYNKDG SKQRDNITLD GIEYAFFKDG RLFQGSKQVG KDTLYYSEPG KLKTGWSFSA TSWSYLKDGK YVTGTFTYQG KPFEINKYGD MEKGWITLRS AVKRIYPKPE TKFLSKSKPV KDGDVLEVIS KQGLWYQVKY QGEIGYVRVL ESVVIGESPV RSWDVAKEAT NLSHFMITEY HKDPEKYFPP NIQKKFDKQL DSDLNVLANG LQWIDQLKEV LYLDNKQGWV QEEGKWTYYK KDGQRVTGFQ SIDGKRYYFG TDGFMQTGWL HTGGYDYYLG TDGVVQTGIQ HIDGKIYYFG PLGPVQSGFT NVDGKPYYFD ASHESRNGWM KQEFSWYLLQ PSGALQTGDF TYKDKKFSFN QDGEMIKGWV TLESLVKKVY PEPDLKKALR AKSVNKGEVI EVVGKVGSWY EVNYQGEKGY VRIHDAIIFD QEAKSPLTLL DGKIKIFEGV LDYLKSDETY INNTIKILEE EEQRWVDDVE NLENLSRDIN DAKQDVQYKR QVIIEAHDKL EELVNAMKGD IRNLTVTQRK ELAKLLGADG KELLDFSVET YTFILQQYVS MAQAYGETYK VLSIYADKTS EFLEDVSKDI HQITLNMQEL SKGFSGVVKD LGPVVNSSIR LKHSIDEAKP GMEELVQVTR KNVPVIAQDL QALDAKVPGF FTDFNMGIDL ANTFMDSANK IASHKINIPA ATINVGNIDL SNALRDLGGD PSRVYDRKND GDVSFILGIT PIIGTGKEIG QLIKGEDLVT GQKYGPDDYA WGTLAVVSGG TTRVIGKVVG KVGDLEKKGK ALEAAAKNTK FTKYPTGFDE VAQYIKQNKK LPDNFITKQQ AEALGWDRKK GNLHEVAPGK SIGGNVYYNN ERLLPSAPNR TWYEADINYS SGYRGNDRIL YSNDGLVYKT SDHYKTFTEV K
|
| |