Gene BCAH820_B0121 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagBCAH820_B0121 
Symbol 
ID7170061 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameBacillus cereus AH820 
KingdomBacteria 
Replicon accessionNC_011777 
Strand
Start bp93325 
End bp96720 
Gene Length3396 bp 
Protein Length1131 aa 
Translation table11 
GC content35% 
IMG OID643559499 
ProductS-layer domain-containing ribonuclease 
Protein accessionYP_002455003 
Protein GI218848264 
COG category[R] General function prediction only 
COG ID[COG5263] FOG: Glucan-binding domain (YG repeat) 
TIGRFAM ID 


Plasmid Coverage information

Num covering plasmid clonesn/a 
Plasmid unclonability p-valuen/a 
Plasmid hitchhikingn/a 
Plasmid clonabilityn/a 
 

Fosmid Coverage information

Num covering fosmid clones136 
Fosmid unclonability p-value0.00104142 
Fosmid HitchhikerYes 
Fosmid clonabilityhitchhiker 
 

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
GGCAATTTTA 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 GGTATGGCGG 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 ATCTGGTGGT 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 TATCGAAGTA 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 GMAELVQVTR 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 SDHYKTFIEV K