Gene BOV_0186 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagBOV_0186 
SymbolcysNC 
ID5203509 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameBrucella ovis ATCC 25840 
KingdomBacteria 
Replicon accessionNC_009505 
Strand
Start bp204999 
End bp206933 
Gene Length1935 bp 
Protein Length644 aa 
Translation table11 
GC content58% 
IMG OID640577240 
Productbifunctional sulfate adenylyltransferase subunit 1/adenylylsulfate kinase protein 
Protein accessionYP_001258223 
Protein GI148559962 
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[TIGR02034] sulfate adenylyltransferase, large subunit
[TIGR00231] small GTP-binding protein domain
[TIGR00455] adenylylsulfate kinase (apsK) 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value0.0471725 
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
ATGAATGTTG TAATGAAGCC TTCGCAGAAG AACACTGCCG TTGCCGATTT TCTGGCCGAT 
CAGGAACACA AATCCCTTCT GCGCTTTCTC ACCTGCGGTT CCGTCGATGA CGGCAAATCG
ACCCTGATCG GGCGGCTTCT TTATGATACG AAGCTCATCT TTGAGGACCA GCTTGCCTCG
CTGAAAAACG ACAGCCGGAA GTTTGGCACC ACCGATGATG ATTTTGATTT CGCACTTCTG
GTGGACGGGC TGGAGGCTGA GCGTGAGCAG GGCATCACCA TCGATGTCGC TTATCGTTTC
TTCTCGACGC CGCGCCGCAA GTTCATCGTG GCCGATACAC CGGGCCATGC GCAATATACG
CGCAATATGG CAACGGGCGC TTCCACTGCC GATCTAGCCG TGGTTCTGGT GGATGCGCGC
CAGGGCGTGT TGACCCAGAC GCGCCGCCAT TCCTTCATCG CGGCAGCACT TGGCATTCTC
CATATCGTGC TCGCGGTCAA CAAGATCGAT CTTGTTGATT TTTCGCAAGA CAGATTCGAT
GGGATCGTCG CGGATTATCT TTCCTTTGCG CAGGATCTGG GCTTTACGAG TATTCAGCCG
ATCCCGCTTT CGGCCCGCTT TGGCGATAAT GTGACGGCTT CCTCGCCACG CATCGGCTGG
TATGAGGGGC CGCATCTCCT GGAACATCTG GAAACGGTGC GTATCGATAC GGAAGCGGCG
GCAAAACCGT TCCGCTTTCC CGTGCAATAT GTGAACCGCC CCAATCTGGA TTTTCGCGGT
TTTTCCGGCA CGGTCGCTTC CGGCTCGATC CATGTCGGCG ACCCGGTCGT GGTGGCCAAA
TCCGGCAAGC AATCGCGCGT GAAGCGTATC GCCACCTATG ACGGCGATTT GCAGCGCGCC
TCCGAGGGGC AGGCGGTGAC GCTCGTTCTT GAAGACGAGA TCGAGGTTTC ACGCGGCAAT
ATGCTTGCCG GCGTGGAATT GCGGCCGGAA GTTGCCGATC GATTTGCCGC CGATATCGTC
TGGTTTGGAG AGGATCCGTT GTTGCCGGGC CGCTCCTATC TCCTGCGCAC CGAAACCGAC
CAGACGCCAG TGACGGTGAA TGCGATCAGG CATCGCACGG ACGTCAACAC TTTCATACAG
GAAGAAACAG CCCGGCTCGA TCTCAACGAG ATTGGCCGCT GCCATTTGCA GACGGTCGAT
CCGATCGCTT TCGATCCATA CGGCGAAAAT CGTGCGACAG GCGCTTTCGT GCTGATCGAT
CGCCTCACCA ATGCAACCGT TGGCGCGGGC ATGATCGATG CTGCCTTGCG GCAGGCGACC
AATGTGCATT TGCAGGCTTT CGACCTTAAC AAGCAGGCGC GTGCGGCGCA GAAATTCCAG
AAACCGGCGG TGCTGTGGTT TACCGGCCTT TCCGCATCGG GCAAGTCCAC CATTGCCAAT
AGGCTGGAAC AGCGCCTCCA TGCGCTGGGC AAGCATACCT ATCTGCTCGA CGGCGATAAT
GTGCGCCACG GCCTCAACAG CGATCTCGGC TTTTCCGATG CGGACCGGGT GGAAAATATC
CGCCGGGTGG GCGAGGTGGC GCGGCTGATG GCCGATGCGG GGCTGATCAC GCTGGTTTCA
TTCATCTCGC CGTTCCGCGA GGAGCGCGAT CAGGTGCGCG CCCGGTTGCC GGAGGGCGAG
TTCATTGAAA TTTTCATCGA TACGCCGATT GAGGAATGCA TGGCGCGTGA CCCGAAGGGG
CTTTACGCAC AGGCGCTTCG CGGCGAGATC AAGGCCTTTA CCGGGATCGA TTCGCCTTAT
GAGCCGCCTG TTGCGCCGGA ACTTCGCCTC AATACGGCGG GAAGGACCGT TGACGAACTC
ATCGCCGAGG TGGAAAACTA CCTTGCCGAA CGTGGTGTGA TCGGCAGTTA TGGCAGCGAT
TCCTGGTCGA TCTGA
 
Protein sequence
MNVVMKPSQK NTAVADFLAD QEHKSLLRFL TCGSVDDGKS TLIGRLLYDT KLIFEDQLAS 
LKNDSRKFGT TDDDFDFALL VDGLEAEREQ GITIDVAYRF FSTPRRKFIV ADTPGHAQYT
RNMATGASTA DLAVVLVDAR QGVLTQTRRH SFIAAALGIL HIVLAVNKID LVDFSQDRFD
GIVADYLSFA QDLGFTSIQP IPLSARFGDN VTASSPRIGW YEGPHLLEHL ETVRIDTEAA
AKPFRFPVQY VNRPNLDFRG FSGTVASGSI HVGDPVVVAK SGKQSRVKRI ATYDGDLQRA
SEGQAVTLVL EDEIEVSRGN MLAGVELRPE VADRFAADIV WFGEDPLLPG RSYLLRTETD
QTPVTVNAIR HRTDVNTFIQ EETARLDLNE IGRCHLQTVD PIAFDPYGEN RATGAFVLID
RLTNATVGAG MIDAALRQAT NVHLQAFDLN KQARAAQKFQ KPAVLWFTGL SASGKSTIAN
RLEQRLHALG KHTYLLDGDN VRHGLNSDLG FSDADRVENI RRVGEVARLM ADAGLITLVS
FISPFREERD QVRARLPEGE FIEIFIDTPI EECMARDPKG LYAQALRGEI KAFTGIDSPY
EPPVAPELRL NTAGRTVDEL IAEVENYLAE RGVIGSYGSD SWSI