Gene Sfri_1939 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagSfri_1939 
Symbol 
ID4278851 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameShewanella frigidimarina NCIMB 400 
KingdomBacteria 
Replicon accessionNC_008345 
Strand
Start bp2299505 
End bp2301421 
Gene Length1917 bp 
Protein Length638 aa 
Translation table11 
GC content40% 
IMG OID638134723 
Productmethyl-accepting chemotaxis sensory transducer 
Protein accessionYP_750623 
Protein GI114563110 
COG category[N] Cell motility
[T] Signal transduction mechanisms 
COG ID[COG0840] Methyl-accepting chemotaxis protein 
TIGRFAM ID 


Plasmid Coverage information

Num covering plasmid clones13 
Plasmid unclonability p-value0.573171 
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

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

Sequence

Gene sequence
ATGGTCAATA CATTTAATCT CAATATCGGC AACCGTATAA TCTTAGGTAT TACGGTCATA 
TTGATCTTGG TCATGGGTAC TGTTATCCCC TTCGTATTAT CAGAATTCAC AACCAATATT 
GATAGTGCAG AGCAACGCGA GTTACATAAA CTCTATGAAA CCGCTACCGC TGAAATTGAG 
TCAACTGGGA AATTAGCCCA AGCGTTGGCA ACCGTCGTTG CTCGCAATTC AGACTTACAA 
AAGTTGTTTG CCGAAGGCGA CCGAGAGACG TTAGCATTAA AAACATTACC ATTATTTGAA 
ACCTTGAAAG AAGATTATGC CGTTCGTCAA TTCCAGTTTC ACTTGCCACC TGCTACCTCA 
TTCTTAAGAG TACATAAGCC TGAGAAGTTT GGAGACGATT TATCATCATT TAGACAAACC 
GTTATCGTTA CCAATAGAGA CCAAAAACCA GTAAGAGGAT TAGAGAAAGG CGTTGCAGGC 
ATCGGAATTC GTGGAATTAT GCCTGTCAAT TATCAGAATG CACATATTGG TTCTGTAGAG 
TTTGGTATGT CTTTCGGCCA GGCATTTTTT GACCAATTTA AGAATGATTA TAAGGTCGAT 
ATTGCGCTTT ATACTCAAAA AAATGGACAA TTTGAAGCAT TTGGAGCGAC GACTGAACCT 
CATAGTTTTT CTGATAATAC TCGTCTAGCA CAAGCATTCA ATGGAGTAAT ACTGAACAAC 
CAATCTACAT TACACGACAC TTCCTATGCT GTTTATTTAC ATCAAGTTAA AGATTTCTCT 
GGACAGCCAA TAGGTGTCCT AGAAATAGCG TTGGATCGCA CACACAATGT AAATGCTATC 
AATGATGTGA CCTTTACTAT GATTAGTGTT GGTGTCATCG CCTTGTTATT AGGTATCGCT 
ATTGCTTGGG TTATTAGCAG AAGTATCACC ACCCCAATAA ATATGACAAC CCATACAATG 
AACAACATTG CCGATGGCGA TGGTGATTTA ACGCTCCGTT TATCAGTAAG CGGAAATGAT 
GAAATTACCG CATTATCCAA AGCATTCAAT CAATTTGCAA CAAAGGTACA TAATACAATT 
AATCAAGTTA TGTCCGCCAC ACAGCAACTG AATCACTCTG CCGAGCGTTT ATCAGGCATC 
ACACTCGAAA CTCAAGCTGA TGCAGTAAAA CAGCAGCAAG AAACTGAGCA GGTTGCTACA 
GCAATGAATG AAATGAGCGC GACAGTTCAA GATGTTGCAC AAAATGCAAC AGAAGCTGCT 
GATGCGGCTC AAAAAGCAAA TGAGGCTACT CAAGCTGGTA AGCAGGTAGT TAGCAAGGTT 
TCATCGGAAA TCAATCAATT GGCTTCTGAA ATCAATATTG CAACACATGC AGTGTCCGAT 
TTACAAAATC AAACGACAGC CATTGATAGT GTTCTAGAAG TTATTCGAAA TATTTCAGAC 
CAAACAAATT TATTAGCGCT GAATGCAGCT ATCGAAGCAG CCAGAGCAGG AGAGCAAGGT 
CGAGGATTTG CAGTTGTTGC CGACGAGGTT CGTACCTTAG CCAGTCGTAC ACAAGCTTCC 
ACGCAAGATA TACAAGCAAT GATAGAACAA TTGCAAAGTG GTGCGGCTAA AGCTGTTCAA 
GTAATGAAAG ATAGCGGTAA AGTTACAGAC TCATGCGTTA CTCAGGCAAT AAATGCAGAC 
CATGCACTCG ATGACATTTT TGCAGCGGTA AACACCATTA CAGAAATGAA TATTCAAATC 
GCCAGCGCAG CAAACGAACA ATGTGCAGTC TCAAATGAAA TAAATAAAAA CATTACCAAT 
ATCAACGATA TTGTTACCAA AACAACCGAA GGGTCAATGC AAACAGCAAG TGCAAGTGAA 
GATCTGGCTG ATTTATCTAA ACAACTGAAT TCCTTAGTAG GCCAATTTAA GATTTAA
 
Protein sequence
MVNTFNLNIG NRIILGITVI LILVMGTVIP FVLSEFTTNI DSAEQRELHK LYETATAEIE 
STGKLAQALA TVVARNSDLQ KLFAEGDRET LALKTLPLFE TLKEDYAVRQ FQFHLPPATS 
FLRVHKPEKF GDDLSSFRQT VIVTNRDQKP VRGLEKGVAG IGIRGIMPVN YQNAHIGSVE 
FGMSFGQAFF DQFKNDYKVD IALYTQKNGQ FEAFGATTEP HSFSDNTRLA QAFNGVILNN 
QSTLHDTSYA VYLHQVKDFS GQPIGVLEIA LDRTHNVNAI NDVTFTMISV GVIALLLGIA 
IAWVISRSIT TPINMTTHTM NNIADGDGDL TLRLSVSGND EITALSKAFN QFATKVHNTI 
NQVMSATQQL NHSAERLSGI TLETQADAVK QQQETEQVAT AMNEMSATVQ DVAQNATEAA 
DAAQKANEAT QAGKQVVSKV SSEINQLASE INIATHAVSD LQNQTTAIDS VLEVIRNISD 
QTNLLALNAA IEAARAGEQG RGFAVVADEV RTLASRTQAS TQDIQAMIEQ LQSGAAKAVQ 
VMKDSGKVTD SCVTQAINAD HALDDIFAAV NTITEMNIQI ASAANEQCAV SNEINKNITN 
INDIVTKTTE GSMQTASASE DLADLSKQLN SLVGQFKI