Gene SeSA_A3159 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagSeSA_A3159 
SymbolrecC 
ID6517071 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameSalmonella enterica subsp. enterica serovar Schwarzengrund str. CVM19633 
KingdomBacteria 
Replicon accessionNC_011094 
Strand
Start bp3056988 
End bp3060359 
Gene Length3372 bp 
Protein Length1123 aa 
Translation table11 
GC content54% 
IMG OID642748170 
Productexonuclease V subunit gamma 
Protein accessionYP_002115945 
Protein GI194737570 
COG category[L] Replication, recombination and repair 
COG ID[COG1330] Exonuclease V gamma subunit 
TIGRFAM ID[TIGR01435] glutamate--cysteine ligase/gamma-glutamylcysteine synthetase, Streptococcus agalactiae type
[TIGR01450] exodeoxyribonuclease V, gamma subunit 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones19 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGTTAAGGG TCTACCACTC CAATCGTCTG GATGTGCTGG AAGCGTTGAT GGAGTTCATC 
GTCGAACGCG AGCGGCTGGA TGATCCCTTT GAACCAGAAA TGATTCTGGT TCAAAGCACG
GGTATGGCGC AGTGGCTGCA GATGACCCTT TCACAAAAGT TTGGTATTGC GGCGAATATC
GCTTTTCCGT TACCGGCGAG TTTTATCTGG GAGATGTTTG TCCGCGTGTT GCCGGATATC
CCCAAAGAAA GCGCTTTCAG CAAACAAAGC ATGAGCTGGA AACTGATGAC CTTGCTGCCA
CAGTTGCTGG ATAAGGATGA GTTTGTACTG CTGCGCCATT ATCTGACCGA CGACACCGAT
AAACGCAAAC TCTTTCAGCT TTCCGCGCGC GCTGCCGACC TGTTCGATCA GTATCTGGTT
TATCGGCCTG ACTGGCTTAC GCAGTGGGAA GCAGGAAAAA GCGTGGAAGG TCTGGGGGAG
GCGCAAAACT GGCAGGCGCT GCTGTGGAAA GCATTGGTGG AATATACCGC CGCGCTGGGG
CAGCCACGCT GGCATCGCGC CAATCTCTAC CAACGCTTTA TTCAAACGCT GGAAAGCGCG
ACCGCCTGCC CGCCAGGGTT GCCGTCCCGC GTTTTTATTT GCGGCATTTC CGCGTTACCG
CCAGTGTATC TCAGAGCGTT GCAGGCGCTG GGCAAACATA TTGAAATCCA TCTCCTTTTT
ACTAATCCGT GTCGGTATTA CTGGGGGGAC ATTAAAGACC CAGCCTGGCT GGCAAAACTC
ATGGCCCGCC AGCGTCGTCA CAGTTTTGAA GACCGTCATT TACCGTTGTT CCGTGAAAAC
CAGAATCCGG AAGCCTTGTT TAACAGCGAC GGCGAACAGG ATATCGGTAA TCCGCTACTG
GCCTCATGGG GAAAACTGGG GCGGGATTAT ATCTACCTGC TATCTGAACT GGAAAACAGC
CAGGAGCTGG ATGCGTTTGT TGATATTACG CCAGATAATC TTTTGCATCG GATTCAGGCG
GATATTCTTG AACTGGAAAG CCATGCGGTG GCGGGCGTAA ATCTTGAGGA GTATTCGCGC
AGCGACAATA AGCGTCTGCT CGATCCTGAG GATAACAGCC TCTCTTTTCA CGTTTGTCAC
AGCCCGCAGC GCGAGGTGGA AATACTGCAC GATCGCCTGC TGGCGATGCT GGAAGCCGAT
CCGACACTAA CGCCGCGCGA CATTATCGTT ATGGTGGCTG ATATTGACAG CTATAGCCCG
TTTATCCAGG CGGTATTTGG TAGCGCGCCA ACGGAGCGCT ATCTGCCTTA TGCCATTTCC
GATCGGCGGG CGCGTCAGTC ACATCCGGTG TTACAGGCAT TTATCAGCCT ACTTTCGTTA
CCGGACAGCC GCTTCGTCTC CGAGGATGTT CTGGCGTTGT TAGACGTACC GGTATTGGCT
GCCCGCTTTA CGATCAACGA AGAAGGGCTG CGTTATTTGC GCTTGTGGGT CAATGAGTCA
GGCATTCGCT GGGGAATTGA CGATGACAAC GTACGCGAGC TGGAACTTCC TGCCACGGGA
CAGCATACAT GGCAATTTGG CCTGACGCGT ATGCTGCTGG GGTATGCCAT GGAAAGCGCC
CAGGGCGAGT GGCAGTCGGT TCTGCCTTAT GACGAATCCA GCGGTCTGAT TGCTGAGCTG
GTCGGGCATC TGGCTTCGCT GCTGATGCAG CTTAATATCT GGCGGCGCGG TCTGGCGCAG
GAGCGACCGC TGGAAGAGTG GTTGCCCGTT TGTCGCGACA TGCTCAATGA TTTCTTCCTG
CCCGATGCGG ACACGGAAGC GGCAATGACA TTGATTGAAC AGCAGTGGCA GGCCATTATC
GCCGAAGGCG TCGCGGCGGA ATATGGCGAC GCGGTACCGA TTTCGCTACT GCGGGATGAA
CTGGCGCAGC GTCTGGATCA GGAACGTATT AGCCAGCGCT TCCTGGCGGG CCCCATCAAT
ATTTGTACGC TGATGCCGAT GCGTTCCATT CCGTTCAGAG TCGTTTGCCT GCTGGGAATG
AACGACGGCG TATACCCGCG CCAGCTTGCG CCGTTGGGCT TTGACCTGAT GAGCCAAAAA
CCCATGCGCG GGGATCGTAG CCGTCGCGAC GATGACCGAT ACCTGTTTCT GGAAGCGTTA
ATCTCGGCGC AGCAGACGCT GTATATCAGC TACATCGGTC GCTCCATCCA GGATAATAGC
GAACGCTTTC CCTCTGTACT GGTGCAAGAA TTGGTGGATT ACATCGGACA AAGCCACTAT
TTGCCGGGCG ACGAAACGCT GACCTGTGAT GAGAGCGAAG CACGAGTCAA AGCGCATATT
ACGCGTCTGC ATACCCGTAT GCCTTTTGAT GCGCAAAATT ACCAACCCGG CGAACAGCAA
AGTTATGCCA GAGAGTGGTT GCCCGCGGCG AGTCAGTCGG GAAAAGCGCA TTCTGACTTT
GTGCAGCCGC TTTCTTTTAC GATGCCGGAA ACATTGACTC TGGAAAGTCT GCAGCGTTTT
TGGGCCCATC CGGTACGCGC ATTTTTTCAG ATGCGGCTTC AGGTTAATTT CCGCTCGGAA
GAGAGTGAGA TTCCTGATGC GGAACCGTTT GAATTAGAGG GATTGACGCG ATATCAACTT
AACCAACAGT TGCTCAATAC GCTGGTTGAA GAGGACGACG CCGAACGCTT GTTCCGCCGT
TTCCGGGCTG CGGGAGAGTT GCCTTACGGC GCGTTTGGCG AAATATTCTG GGATGCGCAA
TGCCAGGAGA TGCAGCAACT GGCAAGCCGG GTCATCGCCT GTCGTAAGCC GAGCCAAAGC
CTGGAAGTGG ATCTGCTTTG CAATGGCGTT CAGCTAACCG GCTGGCTACC GCAGGTACAG
GAGGATGGAT TATTGCGCTG GCGTCCCGCT TTAATCAGCG TTGCGCAAGG TGTGCAACTT
TGGCTGGAAC ACCTTGTCTA TTGTGCCAGC GGCGGGAGTG GCGAAAGTCG TCTGTTTTTG
CGCAAAGAGG GAGAATGGCG ATTTCCGCCA CTTGATAAAG CGCAGGCAAT GGCTTACCTG
GCGCAACTGA TTGAAGGCTA CCGGGAAGGC ATGTCTTCTC CGCTATTGGT ACTGCCGGAA
AGCGGCGGCG CATGGATAAA AGCCTGTTAT GACGCTGAAA ATGATGTCAT GTTAGACGAT
GATGATACCT TACAGAAGGC CAGGACAAAG TTTTTACTGG CTTATGAAGG CAACATGATG
GTGAGCGGCG AAGGCGAAGA TATCTGGTAT CAACGTCTTT GGCGTCAGCT GGAATCTGAA
ACGTTGCAGG CTATCATTGC GCAGTCCCGA CATTACCTGT TACCGCTGTT TCGTTTTAAT
CAGTCTCGTT GA
 
Protein sequence
MLRVYHSNRL DVLEALMEFI VERERLDDPF EPEMILVQST GMAQWLQMTL SQKFGIAANI 
AFPLPASFIW EMFVRVLPDI PKESAFSKQS MSWKLMTLLP QLLDKDEFVL LRHYLTDDTD
KRKLFQLSAR AADLFDQYLV YRPDWLTQWE AGKSVEGLGE AQNWQALLWK ALVEYTAALG
QPRWHRANLY QRFIQTLESA TACPPGLPSR VFICGISALP PVYLRALQAL GKHIEIHLLF
TNPCRYYWGD IKDPAWLAKL MARQRRHSFE DRHLPLFREN QNPEALFNSD GEQDIGNPLL
ASWGKLGRDY IYLLSELENS QELDAFVDIT PDNLLHRIQA DILELESHAV AGVNLEEYSR
SDNKRLLDPE DNSLSFHVCH SPQREVEILH DRLLAMLEAD PTLTPRDIIV MVADIDSYSP
FIQAVFGSAP TERYLPYAIS DRRARQSHPV LQAFISLLSL PDSRFVSEDV LALLDVPVLA
ARFTINEEGL RYLRLWVNES GIRWGIDDDN VRELELPATG QHTWQFGLTR MLLGYAMESA
QGEWQSVLPY DESSGLIAEL VGHLASLLMQ LNIWRRGLAQ ERPLEEWLPV CRDMLNDFFL
PDADTEAAMT LIEQQWQAII AEGVAAEYGD AVPISLLRDE LAQRLDQERI SQRFLAGPIN
ICTLMPMRSI PFRVVCLLGM NDGVYPRQLA PLGFDLMSQK PMRGDRSRRD DDRYLFLEAL
ISAQQTLYIS YIGRSIQDNS ERFPSVLVQE LVDYIGQSHY LPGDETLTCD ESEARVKAHI
TRLHTRMPFD AQNYQPGEQQ SYAREWLPAA SQSGKAHSDF VQPLSFTMPE TLTLESLQRF
WAHPVRAFFQ MRLQVNFRSE ESEIPDAEPF ELEGLTRYQL NQQLLNTLVE EDDAERLFRR
FRAAGELPYG AFGEIFWDAQ CQEMQQLASR VIACRKPSQS LEVDLLCNGV QLTGWLPQVQ
EDGLLRWRPA LISVAQGVQL WLEHLVYCAS GGSGESRLFL RKEGEWRFPP LDKAQAMAYL
AQLIEGYREG MSSPLLVLPE SGGAWIKACY DAENDVMLDD DDTLQKARTK FLLAYEGNMM
VSGEGEDIWY QRLWRQLESE TLQAIIAQSR HYLLPLFRFN QSR