Gene Maqu_2809 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagMaqu_2809 
Symbol 
ID4656111 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameMarinobacter aquaeolei VT8 
KingdomBacteria 
Replicon accessionNC_008740 
Strand
Start bp3148530 
End bp3150359 
Gene Length1830 bp 
Protein Length609 aa 
Translation table11 
GC content57% 
IMG OID639812790 
Productlong-chain-acyl-CoA synthetase 
Protein accessionYP_960071 
Protein GI120555720 
COG category[I] Lipid transport and metabolism
[Q] Secondary metabolites biosynthesis, transport and catabolism 
COG ID[COG0318] Acyl-CoA synthetases (AMP-forming)/AMP-acid ligases II 
TIGRFAM ID 


Plasmid Coverage information

Num covering plasmid clones13 
Plasmid unclonability p-value
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
ATGAGCCAAG ACATCGTAAC CGCACGCGAC ATCATGCGCA GCCTGCCCAC GGTTCTGAAA 
AAATTTCCCT TCGTGGCAAA AGGGCTTTAC TACTACCGGG TAAAGGACGA CAAAAAAGAG 
CTGACCCTTG GCAAGCTGGT AGAGCGCAAC GCTGACAAAC ACCCCACGCG CCCTGCCATT 
CTCTTCGATG ATCGCAGCAT TACCTGGGCA GAACTGGATG CCTGGAGCAA TCGAATTGCC 
CATTACCTGA AAGATCAGGG GCTGGTAAAG GGCGATGCCA TTGCGGTACT GCTGGAAAAC 
CGACCGGAAC TACTGGCGAC CGTGGTTGGC GCAGCCAAGG TCGGCGTGGC CTGCGCCATG 
CTGAACACCT CCCAGAAAGG CAAAGTGCTG GCCCACAGTA TCAACCTGAT CGAGCCACGA 
CTGCTGGTGG TTGGTAGCGA ACTGATCGAC AATGCCGAGT CGGTTCGTGG AGAGGTTCAG 
CTCCGGCACA CGCATCCCTT GCTCTACCTG CACGACGGCA ACACTCTGAA CACCTTTGGT 
GACGCGCCGG AGGGCTACGT CAACCTGGCC CTGGAAGTCA GCCGCCGGCC CTCAACCCGA 
CCGGTCCTGA GCAACCCGGT AACCATGGGC GATACCGCCG TGTATCTTTA CACCTCAGGC 
ACCACCGGCC TGCCCAAGGC GGCGCCCGGC TCACATCGCA AATTTATCAA AGCCTACGGC 
GGCTTTGGCA TGCTCTCCCT GGCCATGGAA CCGGAAGACG TCCTGTATTG TACGCTGCCG 
CTGTATCATG GCACCGCCCT GCTGGTGTGT TGGGGCTCGG TCCTCGCCGG TGGCTCTGCC 
ATCGCACTGC GCCGAAAATT CTCCGCCAGC GCCTTCTGGG ACGACGTCCG ACGCTACAAC 
GCCACCACCT TCGGCTACGT GGGCGAACTG TGCCGCTACC TGCTGAATCA ACCTCCCAGC 
AGCCAGGACC GCAACCACGG CCTGACCAAA ATGATCGGCA ACGGCCTGCG CCCCTCCATC 
TGGAAAGAAT TCAAGGAACG TTTTGGCATC GACAAGGTGG CTGAACTGTA TGCCTCATCA 
GAAGGCAATA TCGGCTTCAG CAACTTTTTC AACATGGACA ACACCGTGGG CTTCTCCACC 
GCGCCCTACA AACTGGTCAA GTACCACGAA GGCACCCGGG ACCCGATCCG CAACGACAAG 
GGCCGTCTGG AGGAAGTGGA AAAAGGCCAG CCCGGCCTGT TGATCGGGGA GATCAACAAG 
AAGTGGGCAT TCGAGGGATA CACCCAGAAG GAAGCCACCG AGAAATCCAT CCTGCGCGAT 
GGCTTCAAGA AAGGCGATGC CTGGTTCAAT ACCGGTGATG TATTAAAAGA AATCGGCTGC 
CGTCACCTGC AGTTTGTCGA TCGCATGGGC GACACCTTCC GCTGGAAGGG AGAAAACGTA 
TCGACGACGG AGGTGGAAAA CATCATTGAT GGCTCCGGCA TGGTGGAAGA AGCCATTGTG 
TACGGTGTCG AGATTCCCAA AACCAACGGC AAGGCGGGCA TGGTAACGCT GGTGCCTCAG 
TCCAATGGTT CGGCCTTCGA TATCAACAAG CTGTTTGACT ATCTGCAGGA GAATCTGCCG 
GCCTATGCGG TGCCGGTGTT TGTGCGGGTG ACCAATGCCA TCGAGAAGAC GGGAACGTTC 
AAGTACCGGA AGGTGGACAT CCAGAAGCTA GGCTATTCGC TGGAGCGGTC AGAAGGCGAT 
GTTTACGCCT GGCTGCCCGG TTCGTCCGGT TATACGTTGC TGACTCCGGA GCTAGTCTCG 
GATATTGATT CGGGGGATGT TCGGTTTTGA
 
Protein sequence
MSQDIVTARD IMRSLPTVLK KFPFVAKGLY YYRVKDDKKE LTLGKLVERN ADKHPTRPAI 
LFDDRSITWA ELDAWSNRIA HYLKDQGLVK GDAIAVLLEN RPELLATVVG AAKVGVACAM 
LNTSQKGKVL AHSINLIEPR LLVVGSELID NAESVRGEVQ LRHTHPLLYL HDGNTLNTFG 
DAPEGYVNLA LEVSRRPSTR PVLSNPVTMG DTAVYLYTSG TTGLPKAAPG SHRKFIKAYG 
GFGMLSLAME PEDVLYCTLP LYHGTALLVC WGSVLAGGSA IALRRKFSAS AFWDDVRRYN 
ATTFGYVGEL CRYLLNQPPS SQDRNHGLTK MIGNGLRPSI WKEFKERFGI DKVAELYASS 
EGNIGFSNFF NMDNTVGFST APYKLVKYHE GTRDPIRNDK GRLEEVEKGQ PGLLIGEINK 
KWAFEGYTQK EATEKSILRD GFKKGDAWFN TGDVLKEIGC RHLQFVDRMG DTFRWKGENV 
STTEVENIID GSGMVEEAIV YGVEIPKTNG KAGMVTLVPQ SNGSAFDINK LFDYLQENLP 
AYAVPVFVRV TNAIEKTGTF KYRKVDIQKL GYSLERSEGD VYAWLPGSSG YTLLTPELVS 
DIDSGDVRF