Gene Ent638_3265 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagEnt638_3265 
SymbolrecC 
ID5112094 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameEnterobacter sp. 638 
KingdomBacteria 
Replicon accessionNC_009436 
Strand
Start bp3564064 
End bp3567438 
Gene Length3375 bp 
Protein Length1124 aa 
Translation table11 
GC content52% 
IMG OID640493472 
Productexonuclease V subunit gamma 
Protein accessionYP_001177980 
Protein GI146312906 
COG category[L] Replication, recombination and repair 
COG ID[COG1330] Exonuclease V gamma subunit 
TIGRFAM ID[TIGR01450] exodeoxyribonuclease V, gamma subunit 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value0.625608 
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones17 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGTTAAGGG TCTACCATTC AAATCGTCTG GATGTGCTGG AAGCGTTGAT GGAGTTTATC 
GTCGAGCGCG AGCATCCTCT CGATCCTTTC GAGCCTGAAA TGGTGCTGGT ACAAAGCACG
GGCATGGCTC AATGGTTACA AATGTCCTTT GCGCAAAAAT TCGGTATTGC GGCAAATATC
GAATTCCCGC TTCCCGCGAG TTTTATCTGG GACATGTTTG TCCGTGTCCT GCCTGACATT
CCTAAACAAA GCGCATTCAG TAAACAAAGC ATGAGCTGGA AGTTGATGTC GATTCTGCCG
GATATGCTTC CGCGCGATGA ATTCGTCATG CTCCGGCACT ATCTCAGCGA CGATACCGAT
AAACGTAAGT TGTTCCAGCT CGCCTCGCGC ACAGCCGATC TGTATGACCA ATATCTGGTC
TATCGTTCGC AATGGTTGAA CCGTTGGGAG GCTGGTGAGC TTGTTGACGG TTTACCCGAT
GCTCAAGTCT GGCAGGCTCC ACTCTGGAAA GCGCTGGTAG AACATACTGA AAAGTTAGGG
CAACCGCAGT GGCATCGTGC CAATCTCTAC GATCGTTTTA TTGCAACGCT TGAAGCTGCT
TCACAGCGAC CGGAAGGGTT ACCCTCGCGC GTGTTTATCT GCGGAATCTC AGCGTTGCCG
CCCGTATATC TCAATGCACT TAAAGCGTTG GGCAAGCATG TCGATATCCA CATTTTGTTT
ACTAACCCTT GTCGAGAATA TTGGGGTGAT ATCCAGGATC CACGAACGAT CGCTCGCTTT
GTTACCAGGC AAAGGCGTCG GCTATTCGAA GACCGTTCTA TCCCGCTTTT TAAAGACAGT
GCTGGTGCCG CTCAACGTTT CAATGAAGAA GGTATTCAGG ATTTGCCGAA TCCACTGCTC
GCATCGTGGG GGAAACTGGG GCGAGATTAT GTGCATATGC TTTCCGATAT CACCTCTTCG
GGTGAAGGTG ACGTCGACGC GTTTGCGGAC ATCAATCCTG ATAGCCTCTT ACACAATGTC
CAGTCGGATA TTCTTGATCT GCAGAATCGC GTAATAGCGG GAATCACGGC TGAAGAATTT
GCTCGTAGCG ACAAGAAACG CAAACTGGAT CCTGACGATC GCAGTCTGAC CATTCACATG
TGTCATAGCC CGCAGCGCGA AGTAGAAGTA CTTCACGATA AACTCCTGGC GCTGCTGCAG
GACGATCCTG AACTCACTCC GCGCGACATC GTTGTGATGG TCGCGGATAT AGACAGCTAC
AGCCCCTTTA TCCAGGCGGT ATTTGGCAGC GCAACAGGCG AGCGTTATCT CCCCTATGCT
GTTTCTGACC GACGGGCACG CCAGTCTCAT CCTGCTTTGC AGGCTTTTAT TAGCTTGCTC
TCTTTGCCGG ATAGTCGCTT TATTTCTGAA GATGTGCTGG CGTTGTTGGA CGTTCCCGTT
CTTGCCGCCC GTTTTGATAT TGATGAAGAA GGGCTGCGCT ATTTGCGCCA ATGGGTTAAC
GAGTCGGGCG TTCGTTGGGG GATTGACGAT GACAACGTCC AGGAGTTTTC CCTTCCGCCG
ACAGGTCAAC ACACATGGGC GTTTGGCCTG ACACGTATGT TACTGGGCTA TGCCATGGAA
AGCAGTCAGG GGGAGTGGAA TGACGTCTTA CCCTATGACG AGTCGACAGG ACTGATTGCG
GAACTGGTTG GGCACCTGGC GTCACTTCTG ATGCAGCTCA ATCGCTGGAA GCGTGAGTTG
ATGCAGCCCC GTCCGCTGGA CGCGTGGCTG CCAATATGTC GTGAAATGTT GAAAGATTTC
TTCCTGCCGG ACAGCGACAC CGAAGCGGCA ATGGCGCTGA TCGAGCAGCA GTGGCAGGCG
ATAATAGATG AAGGAATTTC ATCGCATTAC GATCAGCCTG TCCCGCTGTC GCTCCTGCGA
GATGAGCTCA CACAACGCCT CGATCAGGAA CGTATTAGTC AGCGTTTTCT CGCCGGGCCT
GTCAACATTT GTACCTTGAT GCCTATGCGT TCGATTCCGT TTAAAGTTGT CTGCTTGCTG
GGGATGAATG ACGGCGTTTA TCCACGCGCT CTCGCCCCGT TGGGTTTTGA TCTGATGAGC
CAGCAGCCGC AGCGTGGCGA TCGCAGCCGA CGCGATGATG ACCGATATCT CTTCCTTGAG
GCGTTAATCT CTGCCCAGCA AATGCTCTAT ATCAGCTACA TCGGGCATTC TATTCAGGAT
AACAGCGAAC GTTTCCCGTC GGTTCTGGTG CAGGAACTCG TTGATTACAT CGGTCAGAGC
CACTATTTAC CTGGCGATGA AACACTGAAT TGCGACAAGA GTGAGCAGAA GGTAAAAGCG
CACATCACAC ATTGTCACAG CCGCATGCCG TTTGATCCGA CAAATTACGT GGAAAACGAA
CGGCAAAGCT ATGCACGGGA ATGGCTTCCC GCCGCGAAGA ATTCAGGCAT AGCGCATTCT
GATTTTATTC AGGAACTTGA GCCGCGACCC ACTGAAACAC TGACCTTTGA GCAATTGCAG
CGCTTTTGGG CACACCCGGT ACGTGCCTTT TTCCAGCAGC GTTTGCAGGT GAACTTCCGC
TCTGAAGACA GCGAAATCCC TGATTCAGAA CCGTTTACGC TCGACGGATT AAGCCGCTAT
CAACTGAACC AGCAATTACT CAATGCTCTG GTCGAACAAG AAAATGCACA AATGCTCTTC
CGGCGTTATC GCGCTGCGGG GCAGCTTCCT TTTGGCGCAT TTGGGGAAAT TGTCTGGGAC
GCACAGTGTC AGGAAATGCA GGCCTTGGCC GATCGCGTTA TTGAGAACCG CCAGCCGGGA
AAAAGCCTTG AAATTGACCT GAACTGTAAT GGTATCCAAC TGACAGGGTG GCTTCAGCAT
GTGCAGCCTG ATGGACTGCT ACGCTGGCGT CCCGCGATGC TCAGTGTTTC GCAGGGCTTG
CAACTCTGGC TCGAACATCT TGTCTACAGT GCGGGCGGGA ATGACGGCGA AAGCCGGTTG
TTTGTGCGTA AAGATGGCGA ATGGCGTTTC CCGCCAATGT CCTCAGAACA GGCGTTAGCG
TATCTGACGC TGTTTGTTGA GGGTTATCGA GAGGGCATGA ACAAACCTTT GCTGCTGCTC
CCAGAAAGTG GGGGCGCATG GATAAAAACC TGTTACGACG CACAGAATGA TGCCATGTTA
ATGGATGAGG CGACTTTGCA AAAAGCGCGC AGCAAGTTTA TGCAGGCGTA CGAAGGAAAC
ATGATGGTTC GGGGCGAAGG GGATGATGTT TGGTATCAAC GGTTATGGCG AACGCTGGAA
CCAGAGTACT TCGATGCGAT TACGGTTGAA GCTCAACGCT ACCTGTTACC GATGTTTAGA
TTTAATCAGT CCTGA
 
Protein sequence
MLRVYHSNRL DVLEALMEFI VEREHPLDPF EPEMVLVQST GMAQWLQMSF AQKFGIAANI 
EFPLPASFIW DMFVRVLPDI PKQSAFSKQS MSWKLMSILP DMLPRDEFVM LRHYLSDDTD
KRKLFQLASR TADLYDQYLV YRSQWLNRWE AGELVDGLPD AQVWQAPLWK ALVEHTEKLG
QPQWHRANLY DRFIATLEAA SQRPEGLPSR VFICGISALP PVYLNALKAL GKHVDIHILF
TNPCREYWGD IQDPRTIARF VTRQRRRLFE DRSIPLFKDS AGAAQRFNEE GIQDLPNPLL
ASWGKLGRDY VHMLSDITSS GEGDVDAFAD INPDSLLHNV QSDILDLQNR VIAGITAEEF
ARSDKKRKLD PDDRSLTIHM CHSPQREVEV LHDKLLALLQ DDPELTPRDI VVMVADIDSY
SPFIQAVFGS ATGERYLPYA VSDRRARQSH PALQAFISLL SLPDSRFISE DVLALLDVPV
LAARFDIDEE GLRYLRQWVN ESGVRWGIDD DNVQEFSLPP TGQHTWAFGL TRMLLGYAME
SSQGEWNDVL PYDESTGLIA ELVGHLASLL MQLNRWKREL MQPRPLDAWL PICREMLKDF
FLPDSDTEAA MALIEQQWQA IIDEGISSHY DQPVPLSLLR DELTQRLDQE RISQRFLAGP
VNICTLMPMR SIPFKVVCLL GMNDGVYPRA LAPLGFDLMS QQPQRGDRSR RDDDRYLFLE
ALISAQQMLY ISYIGHSIQD NSERFPSVLV QELVDYIGQS HYLPGDETLN CDKSEQKVKA
HITHCHSRMP FDPTNYVENE RQSYAREWLP AAKNSGIAHS DFIQELEPRP TETLTFEQLQ
RFWAHPVRAF FQQRLQVNFR SEDSEIPDSE PFTLDGLSRY QLNQQLLNAL VEQENAQMLF
RRYRAAGQLP FGAFGEIVWD AQCQEMQALA DRVIENRQPG KSLEIDLNCN GIQLTGWLQH
VQPDGLLRWR PAMLSVSQGL QLWLEHLVYS AGGNDGESRL FVRKDGEWRF PPMSSEQALA
YLTLFVEGYR EGMNKPLLLL PESGGAWIKT CYDAQNDAML MDEATLQKAR SKFMQAYEGN
MMVRGEGDDV WYQRLWRTLE PEYFDAITVE AQRYLLPMFR FNQS