Gene Maqu_2623 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagMaqu_2623 
Symbol 
ID4655192 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameMarinobacter aquaeolei VT8 
KingdomBacteria 
Replicon accessionNC_008740 
Strand
Start bp2951059 
End bp2952471 
Gene Length1413 bp 
Protein Length470 aa 
Translation table11 
GC content56% 
IMG OID639812604 
Productsulfate adenylyltransferase, large subunit 
Protein accessionYP_959885 
Protein GI120555534 
COG category[P] Inorganic ion transport and metabolism 
COG ID[COG2895] GTPases - Sulfate adenylate transferase subunit 1 
TIGRFAM ID[TIGR00231] small GTP-binding protein domain
[TIGR02034] sulfate adenylyltransferase, large subunit 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value0.0651162 
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
ATGTCGCATG CATCGGTTTT GATTGAGAAA GACATCCTCG CGTACCTGGA TCAACACGAA 
AACAAGGATT TGCTCCGGTT TCTAACCTGT GGAAGTGTGG ACGATGGTAA GTCCACCCTG
ATTGGTCGCT TGCTGTTCGA TTCCAAGCTG ATTTTTGAAG ACCACCTGGC GGCGTTGCAC
AAGGATAACG AGCGTCAGGG CAATGCGGGT GAAGCCCTGG ATTTGGCGCT GCTGGTTGAT
GGCCTGGCGT CAGAGCGGGA GCAGGGCATT ACCATTGATG TGGCGTACCG GTATTTCAGC
ACCGACAAAC GCAAGTTCAT CATCGCGGAT TGCCCGGGCC ACGAGCAGTA CACCCGCAAT
ATGGCCACCG GGGCGTCTAC CTGTGATCTG GCCGTGGTGA TGATCGACGC CCGTAAAGGC
GTGCTCACCC AGTCCCGCCG CCACAGCTTT ATTGTCAGCT TGCTGGGCCT GAAGCATGTG
GTGGTGGCTA TTAACAAGAT GGACCTGGTG GAATTCAGCG AAGAGCGCTT TAACGAGATC
CGCGCCGAAT ACCAGAAGCT GGCCGATCAG TTGGGGCTGC AAGACGTATA CTACGTGCCA
ATTTCCGCCC TGAATGGCGA TAATGTGGTG AACCGAAGCC AGCATACACC CTGGTACCAC
GGCGAGACTC TGATGACCAT TCTGGAGCAG GTCGAGCTAC GCAAAGACCA GAACGTGGAG
GATTTCCGCT TTCCGGTGCA GTTCGTAAAC CGCCCGAACC TGGATTTTCG TGGGTACTGT
GGCACGGTCG CCAGTGGTGT GGTGCACAAG GGTGACGAGC TGGCGGTGCT GCCGTCTGGC
AAGACGTCCC GGGTGAAGGG TATCCACACG TATGAGGGCG AGATTCCCCG CGCATGGCCT
GGTGATGCGG TGACCCTTAC CTTGGAAGAC GAAATCGATA TTTCCCGGGG CGACCTGTTG
GTGCACGCCA ACCAGAAACC GGAGATGGGC CAGCGGTTTG CTGCCCATGT GGTTTGGATG
AATGAGAATG CGTTGGTACC TGGCCGCGAA TACGGCATTA AAATCGGCAC CAAAGTGACT
GGCTGCTTTG TGAATAAGGT GCTGGAAGAG GTGGATGTGA ACACCTTGGC GCGGAATACC
AGTGTAGCCG GTGGCCTGGA ATTGAATGCC ATTGGCCTGT GCGATGTGGA GCTATCTGAG
CCTGTGGTGG TTGAAGATTA CCAGGCGCAC CCGGGCACCG GCGCCTTCAT CTTGATTGAC
CGCCTGACGA ACGTGACGGT GGCTGCAGGA ATGGTGGCGC AGGCATTGGA TGGTGCTGGT
GAGGCACCTA AGCGCGAATA TACTGAAGCC GAGCGGAACC TGAACCGGTT TATCCGCGAG
AATTATCCGG AATGGGGCTG TAAAGCTGTA TGA
 
Protein sequence
MSHASVLIEK DILAYLDQHE NKDLLRFLTC GSVDDGKSTL IGRLLFDSKL IFEDHLAALH 
KDNERQGNAG EALDLALLVD GLASEREQGI TIDVAYRYFS TDKRKFIIAD CPGHEQYTRN
MATGASTCDL AVVMIDARKG VLTQSRRHSF IVSLLGLKHV VVAINKMDLV EFSEERFNEI
RAEYQKLADQ LGLQDVYYVP ISALNGDNVV NRSQHTPWYH GETLMTILEQ VELRKDQNVE
DFRFPVQFVN RPNLDFRGYC GTVASGVVHK GDELAVLPSG KTSRVKGIHT YEGEIPRAWP
GDAVTLTLED EIDISRGDLL VHANQKPEMG QRFAAHVVWM NENALVPGRE YGIKIGTKVT
GCFVNKVLEE VDVNTLARNT SVAGGLELNA IGLCDVELSE PVVVEDYQAH PGTGAFILID
RLTNVTVAAG MVAQALDGAG EAPKREYTEA ERNLNRFIRE NYPEWGCKAV