Gene Rru_A2290 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagRru_A2290 
Symbol 
ID3835718 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameRhodospirillum rubrum ATCC 11170 
KingdomBacteria 
Replicon accessionNC_007643 
Strand
Start bp2648138 
End bp2650063 
Gene Length1926 bp 
Protein Length641 aa 
Translation table11 
GC content65% 
IMG OID637826392 
Productbifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein 
Protein accessionYP_427377 
Protein GI83593625 
COG category[P] Inorganic ion transport and metabolism 
COG ID[COG0529] Adenylylsulfate kinase and related kinases
[COG2895] GTPases - Sulfate adenylate transferase subunit 1 
TIGRFAM ID[TIGR00231] small GTP-binding protein domain
[TIGR00455] adenylylsulfate kinase (apsK)
[TIGR02034] sulfate adenylyltransferase, large subunit 


Plasmid Coverage information

Num covering plasmid clones
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
ATGGACGGCG TCAGCGACGC GGCCCGCCAG GTCGAAAACT ATCTGGCCCA CCACGAGGAC 
AAGGGGTTGT TGCGCCTGCT CACCTGCGGC AGCGTCGACG ACGGCAAATC GACCCTGATC
GGCCGGCTGC TCCACGATTG CAAGCTGATC TTCGATGATC TGATGGGGGC GCTGGAGCGC
GACAGCAAGA CCTCGGGCAC CACCGGGCCG GGCAAGCTGG ATTTCGCCCT ACTGCTTGAT
GGCCTGCAGG CCGAGCGCGA GCAGGGCATC ACCATCGATA TCGCCTATCG CTATTTCGCC
ACCGACAAGC GCAAGTTCAT CGTCGCCGAC GCCCCCGGCC ATGAACAATA CACCCGCAAT
ATGGCGACCG CCGCCTCGAC CGCCGAACTG GCGATCTTGC TGATCGACGC CCGCAAGGGG
GTGATCACCC AGACCCGGCG CCATACGGCC GTTTGCGCCA TGATGGGGGT GCGCAAGCTG
GTGCTGGCGG TCAACAAGAT GGATCTGGTC GGCTATGAGC AGGCGACCTT CGACCGCATC
GTCGCCGATT ATCGCGCCTT CGCCGCCAAG CTGGGGATCG AGGCGGTGAC CGCCATCCCG
CTATCGGCGC TGGAAGGCCA AAACATGATC GTCCGCAGCC CGGCCATGCC CTGGTACACC
GGCCCGGCGC TGCTGCCCTA TCTGGAAGAG GTCGATGTCA CCACCGACCG CGAGCTTTTG
CCGATGCGCT TCCCCGTCCA ATGGGTCAAC CGGCCCAATC TGGACTTCCG CGGCTTTTCC
GGCACGCTGG TTTCCGGGGC GGTCAGCGTT GGCGACGGCG TCAGCGTGCT GCCCGGCGGC
CAGACCTCAC GGGTGAAGCG CATCGTCACC AAGGACGGCG ATTTGCCGCG CGCCGTCGCC
GGTCAGGCGA TCACCCTGAC CCTGGCCGAC GAGATCGACA TCAGCCGGGG CGATCTGCTG
GTTCCCACCG GCGACCAGCC GGCCCAGGCC GATCATTTCG CCGCCCATCT GCTGTGGATG
GACGCCAAGG CCTTGATGCC CGGGCGTGAT TATCTGGTGC GCATGGGGCC GCTGCAGATG
CGCGGCCAGA TCACCGCGAT CAAGCACAAG ATCGACGTCA ACACCATGGA GGAGCGTCCG
GCGCCGACCC TGGAGCTTAA CGACGTCGGC TCGGTCAATC TTCAGGTCGA TCGCGCCGTG
CCCTTCGACC CTTACGACCA GAACCGCGAT ACTGGATCGT TCATTCTGAT CGATCGCCTG
ACCAACGCCA CCGTCGGCGC CGGCATGATC CGCTTTTCGC TGTGGCGCTC GACCAATCTG
GTCTGGCAAC ACATCGAGGT GGGCGCCGCC CAGCGCGCCG CCCAGAAAGG CCAGAAGCCC
TGCGTCATCT GGCTGACCGG GCTGTCGGGA TCGGGCAAAT CGACGATCGC CAATCTGCTC
GACAAGCGGC TTTACGCCGA GGCCCACCAC ACCACCATGC TTGACGGCGA CAACGTCCGC
CACGGGCTGA ACCGCGATCT TGGCTTCACC GAGCAAGACC GGGTGGAGAA CATCCGCCGC
GTCGCCGAGG TCGCCAAGCT GATGGCCGAC GCCGGCTTGA TCACCCTGGT CTCCTTCATC
TCGCCCTACC GCGAGGAACG GTTGGCGGCG CGCGCCCGCA TCGGCGAAGA GCGCTTCGTC
GAGGTCTATG TCAAAGCCAG CGTCGCCGAT TGCGCGGCGC GCGATCCCAA GGGTCTGTAT
CGCAAGGCCA TGGCCGGCGA GATCCGCAAT TTCACCGGCA TCGACGCCCC CTATGAGGAA
CCGGTGACGC CCGATCTGCT GATCGATACC GCCGTGCTCA CCCCCGAAGC CGCGGTCGAG
GTGCTGATGG CTTGGCTGCG CGCCAAGGGC TATCTGTCGG CCGAAAGCGA GGGCTCGGGG
ATCTGA
 
Protein sequence
MDGVSDAARQ VENYLAHHED KGLLRLLTCG SVDDGKSTLI GRLLHDCKLI FDDLMGALER 
DSKTSGTTGP GKLDFALLLD GLQAEREQGI TIDIAYRYFA TDKRKFIVAD APGHEQYTRN
MATAASTAEL AILLIDARKG VITQTRRHTA VCAMMGVRKL VLAVNKMDLV GYEQATFDRI
VADYRAFAAK LGIEAVTAIP LSALEGQNMI VRSPAMPWYT GPALLPYLEE VDVTTDRELL
PMRFPVQWVN RPNLDFRGFS GTLVSGAVSV GDGVSVLPGG QTSRVKRIVT KDGDLPRAVA
GQAITLTLAD EIDISRGDLL VPTGDQPAQA DHFAAHLLWM DAKALMPGRD YLVRMGPLQM
RGQITAIKHK IDVNTMEERP APTLELNDVG SVNLQVDRAV PFDPYDQNRD TGSFILIDRL
TNATVGAGMI RFSLWRSTNL VWQHIEVGAA QRAAQKGQKP CVIWLTGLSG SGKSTIANLL
DKRLYAEAHH TTMLDGDNVR HGLNRDLGFT EQDRVENIRR VAEVAKLMAD AGLITLVSFI
SPYREERLAA RARIGEERFV EVYVKASVAD CAARDPKGLY RKAMAGEIRN FTGIDAPYEE
PVTPDLLIDT AVLTPEAAVE VLMAWLRAKG YLSAESEGSG I