Gene RoseRS_2823 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagRoseRS_2823 
Symbol 
ID5209792 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameRoseiflexus sp. RS-1 
KingdomBacteria 
Replicon accessionNC_009523 
Strand
Start bp3517371 
End bp3519203 
Gene Length1833 bp 
Protein Length610 aa 
Translation table11 
GC content65% 
IMG OID640596422 
Productmagnesium chelatase ATPase subunit D 
Protein accessionYP_001277144 
Protein GI148656939 
COG category[H] Coenzyme transport and metabolism 
COG ID[COG1239] Mg-chelatase subunit ChlI 
TIGRFAM ID[TIGR02031] magnesium chelatase ATPase subunit D 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value0.00357294 
Plasmid hitchhikingYes 
Plasmid clonabilityhitchhiker 
 

Fosmid Coverage information

Num covering fosmid clones16 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGGCGACAC TTCCCCTGCC TGCACTGGTT GGTCTGGAAC TTGCGCAACA GGCGTTGCTG 
CTGCTGGCAG TCGAGCCGCG CCTGCGGGGG ATGGCAGTGG GTGCGCCTGC AGGCGCAGGG
AAGAGCAGCC TGGCGCGTGG CATGCGTGAT CTGCTTTGCT CTGATGACCG GTCGGTTCCA
TTTGTGGAAT TGCCGCTCGG CATCGACGAA GCCGGTCTGC TGGGGGGACT GGATATCGAA
GCGACGCTGC GCGTCGGGCG GCGGGTCGCA CGGGCAGGGG CGCTGGCGCG CGCCGATGGC
GGCATCCTCT ATGCCGATCA GGTCAATCTG CTGCCTGATG CGATCATCAA TCCGCTGATC
GCCGCAATCG ATACGGGCGA AGTGCGTCTG GAGCGCGAGG GTCTCAGCAT CCGGTCTCCC
GCGCGTTTCG TCTTTATCGG ATCCTACGAT CCGGCTGAGG GTCTGCCACG TCGCCATCTG
CTCGACCGGC TCGGTCTGCT GCTGGTGTTG CCGCGCACGA TGAACGAGCA GGCGCGCGCC
GAAATTGTGC GGCGCAACAT GAGTCGCGCA CCCGCGCAGG CTTCTGATGC GTACACCGAT
GAACTCGATC TGTTGCGCGG GCTGGTGCTG GCGGCGCGTG AGCAACTGCC GCAGGTGCAG
ATCGCAGACG AGCAGATCGA ACAGTTGCTG GCGATGGCAA CGCTCTGTGG CGTTGAAGGG
CATCGCGCCG ATACGTTTGC CGTCTATGCC GCCTGTGCCA CAGCCGCGCT TGGTCTGCGC
GACCGGGTCG AGCAGGAAGA CCTGGAGCTG GCAGTTCGGT TGGTGATTCT ACCGCGCGCG
ACCCGTCTTC CCCCTCCGCC GGATCAACCG CCCGATCAGG CGCCGCCTCC GCCTCCCCCC
GATGCCGAAA ACGACACGTC TGACGCACCG CCTGAACCGC CCTCGGACGA AGAGTTGACC
ATTCCGCCCG AACAGGTGCT CAGTGCGCTG GCTGCCGAAT TGCCGGTGGA ACTGGAGCAA
CTGCCGTTCC GCGCGTTGCG GCGCGGCAAG ACCGGTTCGC GTGGAACGGT TGCAGGGAAG
CGCGGACGGC ATATTCGGAG CATCCCCGGA GATCCGCGAC GCGGCAGGAT CGATGTATCC
GCCACCCTGC GAGTTGCTGC GCCATTCCAG CCGCTCCGTC GTTCGCAGGC TGGCGCGGAT
GCTCAATCAT CGCGGGTGTT GCTGCGCGCC GATGATCTGC GGATCAAACA GTACCGGAGC
AAGGCTGGCG CGCTGTTCCT TTTCGCGGTG GACGCCAGCG GCAGTATGGC GTTGCACCGC
ATGCGTCAGG CGAAAGGCGC AGTTCACGCC CTGCTTCAGA AGGCGTATGT CCACCGTGAT
CGGGTGGCGT TGCTGGCATT TCGCGGGCAA AGCGCCGAAC TCCTCCTGCC GCCGTCGCAG
AGTGTCGAGC TTGCGCGACG CGCACTCGAT CTGCTTCCGA CCGGCGGCGG CACACCGCTG
GCAGCCGCGC TGCTGGCAGC CATCGACGTG GCGCAACAGG CGCGCGCGCG CGGCATTATG
CAAACGGTGC TGGTGTTGTT GACCGATGGG CGAGCGAACG TTGGATTGCG CGCCGGGCGC
GATCAGGTTG CCGAAGAGTT GCAAACACTC GGTCGTGCGG TGGTAGCATC CGGTATTCAG
ACAATTGTGG TTGATACGCA GCGAACATAC CTGAGCCGGG GCGAGGCGCG CAAACTCGCC
GAATGGCTCG CCGGAGAGTA TGTGTACCTC CCCAATGCAC AGGGCGATCA GATCGCCGCG
CTGGCGGTCG AGCGTGTGGA TCGGAGGCTC TGA
 
Protein sequence
MATLPLPALV GLELAQQALL LLAVEPRLRG MAVGAPAGAG KSSLARGMRD LLCSDDRSVP 
FVELPLGIDE AGLLGGLDIE ATLRVGRRVA RAGALARADG GILYADQVNL LPDAIINPLI
AAIDTGEVRL EREGLSIRSP ARFVFIGSYD PAEGLPRRHL LDRLGLLLVL PRTMNEQARA
EIVRRNMSRA PAQASDAYTD ELDLLRGLVL AAREQLPQVQ IADEQIEQLL AMATLCGVEG
HRADTFAVYA ACATAALGLR DRVEQEDLEL AVRLVILPRA TRLPPPPDQP PDQAPPPPPP
DAENDTSDAP PEPPSDEELT IPPEQVLSAL AAELPVELEQ LPFRALRRGK TGSRGTVAGK
RGRHIRSIPG DPRRGRIDVS ATLRVAAPFQ PLRRSQAGAD AQSSRVLLRA DDLRIKQYRS
KAGALFLFAV DASGSMALHR MRQAKGAVHA LLQKAYVHRD RVALLAFRGQ SAELLLPPSQ
SVELARRALD LLPTGGGTPL AAALLAAIDV AQQARARGIM QTVLVLLTDG RANVGLRAGR
DQVAEELQTL GRAVVASGIQ TIVVDTQRTY LSRGEARKLA EWLAGEYVYL PNAQGDQIAA
LAVERVDRRL