Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | AnaeK_3984 |
Symbol | |
ID | 6785454 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Anaeromyxobacter sp. K |
Kingdom | Bacteria |
Replicon accession | NC_011145 |
Strand | + |
Start bp | 4493632 |
End bp | 4496967 |
Gene Length | 3336 bp |
Protein Length | 1111 aa |
Translation table | 11 |
GC content | 78% |
IMG OID | 642765453 |
Product | UvrD/REP helicase |
Protein accession | YP_002136318 |
Protein GI | 197124367 |
COG category | [L] Replication, recombination and repair |
COG ID | [COG1074] ATP-dependent exoDNAse (exonuclease V) beta subunit (contains helicase and exonuclease domains) |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 2 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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Sequence |
Gene sequence | ATGAGCCCGC GGAAGCCCGC ACCGGACCAG GCCGACCGCG ACCGGGCCAT CCACGCCCGC GACGAGAACG TCATCGCCGA CGCCGGCGCC GGGACCGGCA AGACCACCCT GCTCGTGGCG CGCCTGGTGG AGCGGGTCGC GCCCGAGGAC GACGGGCCCG CGCTCCCGCT CGGCCGCATC GCGGCGGTCA CCTTCACGCG CAAGGCGGCG GGCGAGCTGC GGCTCCGCAT CCGCGAGGCG CTCCTGCGCG CGCTCGCCCG GGCCGACCTC ACCGATCTCC GGCGCCGGCG CCTCGCCGAC GCGCTCTCCG CGCTCGACAC CGCGCACGTG GGCACCATCC ACTCCTTCGC CGACCGACTC CTGCGGCTCC GGCCGGTGGA GGCGCGGCTC TCGCCGTCGT ACGACATCGT GGAGGACGAC GCGCCGCTGG TGGACGAGGC GTTCGCGGCG TTCCTGCACG CGGTCGAGGC GGGCACGCTC GCGGACGAGC TCCCCGGGCT CGAGCCGGAG CTCGCGGCGG CGGCGCAGTC GGCATTCCTC GACGCGCTGC GCGCCGGCGT TCGCGCCGAG CGGCGCGTGC ACGACCACGG CGTCGTCCCC GGGCTCGACT GCCTCGTCGA GGCGCTGGTG CACACGCGCG ACGTCCCGCC GGTGGTCCCG GCGGCCCGGC GGCCGGACCT CGGGAAGTTC CGCGACCTCG CCGACGAGTT CCTCGGCTAC GCCGCGGAGT CGAGCGGCGA CGGCACCGGC TCGCGGTGGG TGGCCGCCAC GCGGCGGCGG CTCGAGCGGA TCCGCGGCGA GGAGGACCCG GTCCTCGTCC TGAAGGAGCT CTTGCGGTGC GCGCCCTACC GGAAGCTCGG GATGAAGGCG GACTTCGGGG ACGACCGCGC GGGCTGGGCG CTCTACAAGG CGTTCCTCGG CGACGACGGC AAGAAGGCGC TCCGCGAGGG CTCGCTCCGC GACGACCTGC TCCGCCCGTT CGCCCGCTGG CTGGCGCGCC GGCTCGTCGC CGCGGCGCCC GCGGTGGTGG CGATGTACGA GCGGGTGAAG GCGCGCCACC GCGCGGTGGA CCAGCTCGAC CTGCTGCTCG AGCTGCGCGA CCTGCTGCAG CGCGACCGCG CCGTGCGCGC GGAGTACCAG GCGCTGTTCG ACCACGTGAT GGTGGACGAG TTCCAGGACA CCGACCCGCT CCAGGCCGAG GTGGTCCTGT ACCTCTGCGA GCAGGGCGCG GTGGCCGGGG ACTGGCGCGA CGTCCGGCTG GTGCCGGGCA AGCTCACCAT CGTGGGCGAT CCCAAGCAGT CGATCTACCG CTTCCGCCGC GCCGACATCG GCGTGTACGC GGCGGTGCGG GCCATCGTCG AGCGCGGCCC CCACGTGGTC GCGAAGCTGA AGGCCAGCTT CCGCTGCGAG CCGGCGCTGG TCCGGTGGCT GAACGGGACG TTCGACGGCG TGCTCGGGAA GGCGGCCGGC GACGCGCCGG TGTTCGACCC GGAGGCCGGG ACGGTGGCGA ACGAGCCGCT GCTCGCGGGC CGCGAGGGCG GCGCGCCCAG CGCCGTGCAG GTCCTGCCGC TCGCGGCGGA GTCCGGCAAG AAGCCCGAGC TGCGCGCCAC CGAGGCGAAG GCGCTCGCGG CGTGGCTCCG CTGGCTGATC GAGGGGAAGC GGCGGACCAT CGTGGACCCG GCGACGGGCG CGCCGCGGCC CGCCGGCTAT GGCGACGTCG CCGTGCTCGT CACCGCCACG GGCAACCTGC CGCTCCTCTT CCCCGAGCTG GACCGCCTGG GCGTGCCGTA CGCGGCGCGG GGCGGGACGC TGTTCCTCGA GGATCCGCTC CACCAGCAGT TCCTGCTCGG CCTGCGGGCG CTCGCGGACC GCGACGACGG GGTCGCGCAG GCGGCGCTGC TGCGCCCGCC GTTCTTCGCG GTGGACCACG ACGACCTCGC CCGGGCCCGC GCCGCCGACC CCGCGTCCAC GCACGCGGGC GTGCTCCGCG CGCGCGCGGC GCAGGCGGTG GTTCGCGAGC TCCGCCGGAC CCGGCTCGAT CGCTCGCCGG GGGCGACCGC CCGCGACCTG CTGGAGCGGA CCGCGTTCGG CCGCGCCGCC GCGCTCGGGC CGAACGGCGC GCAGCGGCTC GAGGCGCTCC GCGAGCTCTG CCTCGTGCTC GACGCCGTCG CCGCCGAGGG GCTCGACTAC GACGCGGCCA CCGCGCGGCT GCGCGCGTGG GTGGACGACG CGGTCCAGCT CGATCCGCCG CGGCCGGTCG GGACCGACGC GGTGCAGATC CTCACGGTGC ACCAGGCGAA GGGGCTCGAG TTCCCGGTGG TCGTCCTCTG GGACGGGTGC GCGAACCTGG CCGCCCGCGA CGTGCGCGCG CCGTTCGTGG TGGACCGCAC CGGCGAGGCC TGGGCGGTCG CGCTCGACGG GCTCGAGTGG GAGGAGCCGG AGGGCGGCGA GGTGGCTGGC CGCGAGAAGC GGTACCTCGA CGCCGAGCGG CTGCGCCTCG TGTACGTGGC CGCGACCCGC GCGCGCGACC TGCTGGTCCT GCCGGTCGCG GGCGAGCCGG ACCCGGAGTG GATCACCGGC CGGCTCGTCT CCGGCGAGCC GGCGGCGCCG GTGGAGACGC TCGAGCCGTA CCTGATCGGC GCGGAGCCGG CCTGGGCCCG CGAGCACCCC GCCCCCGCGC CGCGGCCGCC GACCGACGGC TCCGCGCTCG CCGCCGAGGT GAGGGCGGCC TGGCGGTCCG CGAGCGCGGA CGCGGCCCGG CCGCGGTTCG CGCCGGCGTC CGTCACCGGC GAGGCGCACG CGCTGGTAGA GGCGGCGGAG CGGCCCGGCG AGGCGGGCGC GCCCAGGCCG GAGCGCGCCA GCCGTTACGG CCGCGTGTTC GGCGACACGG TCCACCTGGC CATCGGGCTC GCGCTCCGGG GCCCGGCGCT CGCGCCCGCT GCCGCCGTCG CGCGGGCCGC CGCCGCGACC GGCCTCTCCG AGCGGCGCGC CGAGGCGGCC GACGACGTGG CCCGGGCGCT CGCCGCGCTC GAGCAGGCGG GGCTGCGCCG CGCGCCCGGG TCCGAGCTGC AGCTCGAGTA CCCGGTGGCG CTCGCGGGGG ACGGGAAGCT CGTCCAGGGC TACGTGGACT TGCTGGGCGT CCGCGGCGGC CGCGTCGTGG TCGTCGACTT CAAGACCGAC GCCCCGCCCG CCGGCGACGT GCACGCATCG CACGCGGCCT ACGTTGAGCA GGTGCGGGGC TACGCGCGGA TCCTGGTCGG CCTGGGCGTG GCGCGGGAGG GCGCGGTGGA CGCGGGGCTG CTCTTCACCG CGGACGGCGG CCTCCGCTGG GTGTAG
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Protein sequence | MSPRKPAPDQ ADRDRAIHAR DENVIADAGA GTGKTTLLVA RLVERVAPED DGPALPLGRI AAVTFTRKAA GELRLRIREA LLRALARADL TDLRRRRLAD ALSALDTAHV GTIHSFADRL LRLRPVEARL SPSYDIVEDD APLVDEAFAA FLHAVEAGTL ADELPGLEPE LAAAAQSAFL DALRAGVRAE RRVHDHGVVP GLDCLVEALV HTRDVPPVVP AARRPDLGKF RDLADEFLGY AAESSGDGTG SRWVAATRRR LERIRGEEDP VLVLKELLRC APYRKLGMKA DFGDDRAGWA LYKAFLGDDG KKALREGSLR DDLLRPFARW LARRLVAAAP AVVAMYERVK ARHRAVDQLD LLLELRDLLQ RDRAVRAEYQ ALFDHVMVDE FQDTDPLQAE VVLYLCEQGA VAGDWRDVRL VPGKLTIVGD PKQSIYRFRR ADIGVYAAVR AIVERGPHVV AKLKASFRCE PALVRWLNGT FDGVLGKAAG DAPVFDPEAG TVANEPLLAG REGGAPSAVQ VLPLAAESGK KPELRATEAK ALAAWLRWLI EGKRRTIVDP ATGAPRPAGY GDVAVLVTAT GNLPLLFPEL DRLGVPYAAR GGTLFLEDPL HQQFLLGLRA LADRDDGVAQ AALLRPPFFA VDHDDLARAR AADPASTHAG VLRARAAQAV VRELRRTRLD RSPGATARDL LERTAFGRAA ALGPNGAQRL EALRELCLVL DAVAAEGLDY DAATARLRAW VDDAVQLDPP RPVGTDAVQI LTVHQAKGLE FPVVVLWDGC ANLAARDVRA PFVVDRTGEA WAVALDGLEW EEPEGGEVAG REKRYLDAER LRLVYVAATR ARDLLVLPVA GEPDPEWITG RLVSGEPAAP VETLEPYLIG AEPAWAREHP APAPRPPTDG SALAAEVRAA WRSASADAAR PRFAPASVTG EAHALVEAAE RPGEAGAPRP ERASRYGRVF GDTVHLAIGL ALRGPALAPA AAVARAAAAT GLSERRAEAA DDVARALAAL EQAGLRRAPG SELQLEYPVA LAGDGKLVQG YVDLLGVRGG RVVVVDFKTD APPAGDVHAS HAAYVEQVRG YARILVGLGV AREGAVDAGL LFTADGGLRW V
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