Gene Bcer98_2658 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagBcer98_2658 
Symbol 
ID5347217 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameBacillus cytotoxicus NVH 391-98 
KingdomBacteria 
Replicon accessionNC_009674 
Strand
Start bp2745869 
End bp2747713 
Gene Length1845 bp 
Protein Length614 aa 
Translation table11 
GC content38% 
IMG OID640840161 
ProductGTP-binding protein TypA 
Protein accessionYP_001375887 
Protein GI152976370 
COG category[T] Signal transduction mechanisms 
COG ID[COG1217] Predicted membrane GTPase involved in stress response 
TIGRFAM ID[TIGR00231] small GTP-binding protein domain
[TIGR01394] GTP-binding protein TypA/BipA 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value0.0030836 
Plasmid hitchhikingYes 
Plasmid clonabilityhitchhiker 
 

Fosmid Coverage information

Num covering fosmid clonesn/a 
Fosmid unclonability p-valuen/a 
Fosmid Hitchhikern/a 
Fosmid clonabilityn/a 
 

Sequence

Gene sequence
ATGTTGAAAA AACGACAAGA TTTACGTAAT ATAGCAATTA TTGCCCACGT TGACCATGGT 
AAAACAACAC TTGTTGACCA GTTATTACGT CAAGCGGGAA CGTTCCGTGC AAATGAGCAT 
GTAGAAGAAC GTGCAATGGA TTCGAATGAT TTAGAGAGAG AACGCGGTAT TACGATTTTA 
GCGAAAAATA CAGCGATTCA CTATGGAGAT AAACGAATTA ACATTTTAGA TACACCTGGA 
CACGCTGATT TCGGTGGTGA AGTAGAACGA ATCATGCGAA TGGTTGATGG TGTTTTACTT 
GTTGTTGATG CATATGAAGG TTGTATGCCA CAAACACGAT TTGTATTAAA GAAAGCACTT 
GAACAAAACT TAACGCCAAT CGTTGTTGTA AACAAAATTG ATCGCGACTT TGCTCGTCCG 
GAAGAAGTTG TTGATGAAGT ATTAGATTTA TTCATTGAGC TAGGTGCAAA TGAAGATCAA 
TTAGAGTTTC CGGTTGTATT CGCTTCAGCG ATGAACGGAA CAGCAAGCTT GGATCCAAAT 
CCAGCAAATC AAGAAGAGAA TATGAAGTCA TTATTTGAAA CAATTATCAA TCATATTCCG 
GCACCAATCG ATAATAGCGA TGAGCCATTG CAATTCCAAG TAGCTCTTCT TGACTATAAT 
GATTATGTAG GCCGTATCGG AGTTGGGCGT GTATTCCGCG GTACAATGAA AGTAGGACAG 
CAAGTTGCTT TAATGAAAGT GGACGGAAGT GTGAAGCAAT TCCGCGTAAC AAAAATCTTT 
GGTTACATGG GATTAAAACG TCAAGAAATT GAAGAAGCAA AAGCCGGCGA TTTAGTAGCT 
GTTTCTGGTA TGGAAGACAT TAACGTTGGG GAAACAGTAT GTCCGATTGA CCATCAAGAA 
GCTCTACCTT TATTGCGCAT TGATGAGCCG ACATTACAAA TGACGTTCCT TGTAAATAAT 
AGCCCATTTG CAGGTCGTGA AGGGAAATAT ATTACATCTC GTAAAATCGA AGAGCGTCTT 
CGCTCGCAAT TAGAAACAGA TGTAAGTTTA CGTGTAGAGA ATACAGACTC TCCTGATGCA 
TGGATTGTAT CTGGCCGTGG GGAATTACAT TTGTCAATCT TAATTGAAAA TATGCGTCGT 
GAAGGCTATG AATTACAAGT ATCAAAACCA GAAGTAATTA TTAAAGAAAT CGATGGTGTG 
AGATGTGAGC CTGTAGAGCG CGTGCAAATC GATGTACCAG AAGAATATAC TGGTTCCATT 
ATGGAATCTA TGGGAGCTCG CAAAGGCGAA ATGTTAGATA TGGTGAATAA CGGAAATGGT 
CAAGTTCGTC TAACATTTAT GGTGCCAGCA CGTGGATTAA TTGGTTATAC AACAGAATTC 
TTAACGTTAA CACGTGGTTA TGGTATTTTG AACCACACAT TTGACAGCTA TCAACCAGTA 
CATGCTGGAC AAGTTGGTGG ACGTCGTCAA GGTGTTCTTG TTTCACTTGA AACAGGGAAA 
GCATCACAAT ATGGTATTAT GCAAGTTGAA GATCGCGGTG TCATCTTCGT TGAACCTGGT 
ACAGAAGTAT ATACAGGTAT GATTGTTGGA GAGCATACAC GTGAAAATGA TTTAACGGTT 
AACATTGTAA AAATGAAGCA ACAAACTAAT ATTCGTTCTG CAACAAAAGA CCAAACTTCA 
ACAATGAAAA AACCACGCAT TATGACATTA GAAGAATCAT TAGAGTATTT AAATGATGAT 
GAGTATTGTG AAGTAACGCC AGAATCTATT CGTTTGCGCA AAAAAATTCT AGATAAAAAT 
GAACGTGAAA AAGCTGCGAA GAGAAAAAAA TCTGTAGAAG CTTAA
 
Protein sequence
MLKKRQDLRN IAIIAHVDHG KTTLVDQLLR QAGTFRANEH VEERAMDSND LERERGITIL 
AKNTAIHYGD KRINILDTPG HADFGGEVER IMRMVDGVLL VVDAYEGCMP QTRFVLKKAL 
EQNLTPIVVV NKIDRDFARP EEVVDEVLDL FIELGANEDQ LEFPVVFASA MNGTASLDPN 
PANQEENMKS LFETIINHIP APIDNSDEPL QFQVALLDYN DYVGRIGVGR VFRGTMKVGQ 
QVALMKVDGS VKQFRVTKIF GYMGLKRQEI EEAKAGDLVA VSGMEDINVG ETVCPIDHQE 
ALPLLRIDEP TLQMTFLVNN SPFAGREGKY ITSRKIEERL RSQLETDVSL RVENTDSPDA 
WIVSGRGELH LSILIENMRR EGYELQVSKP EVIIKEIDGV RCEPVERVQI DVPEEYTGSI 
MESMGARKGE MLDMVNNGNG QVRLTFMVPA RGLIGYTTEF LTLTRGYGIL NHTFDSYQPV 
HAGQVGGRRQ GVLVSLETGK ASQYGIMQVE DRGVIFVEPG TEVYTGMIVG EHTRENDLTV 
NIVKMKQQTN IRSATKDQTS TMKKPRIMTL EESLEYLNDD EYCEVTPESI RLRKKILDKN 
EREKAAKRKK SVEA