Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Ent638_3265 |
Symbol | recC |
ID | 5112094 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Enterobacter sp. 638 |
Kingdom | Bacteria |
Replicon accession | NC_009436 |
Strand | - |
Start bp | 3564064 |
End bp | 3567438 |
Gene Length | 3375 bp |
Protein Length | 1124 aa |
Translation table | 11 |
GC content | 52% |
IMG OID | 640493472 |
Product | exonuclease V subunit gamma |
Protein accession | YP_001177980 |
Protein GI | 146312906 |
COG category | [L] Replication, recombination and repair |
COG ID | [COG1330] Exonuclease V gamma subunit |
TIGRFAM ID | [TIGR01450] exodeoxyribonuclease V, gamma subunit |
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Plasmid Coverage information |
Num covering plasmid clones | 8 |
Plasmid unclonability p-value | 0.625608 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 17 |
Fosmid unclonability p-value | 1 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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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
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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
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