Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | TC0007 |
Symbol | |
ID | 1245531 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Chlamydia muridarum Nigg |
Kingdom | Bacteria |
Replicon accession | NC_002620 |
Strand | - |
Start bp | 7797 |
End bp | 10877 |
Gene Length | 3081 bp |
Protein Length | 1026 aa |
Translation table | 11 |
GC content | 38% |
IMG OID | 637060796 |
Product | exodeoxyribonuclease V, beta chain, putative |
Protein accession | NP_296391 |
Protein GI | 15834632 |
COG category | [L] Replication, recombination and repair |
COG ID | [COG1074] ATP-dependent exoDNAse (exonuclease V) beta subunit (contains helicase and exonuclease domains) |
TIGRFAM ID | [TIGR00609] exodeoxyribonuclease V, beta subunit |
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Plasmid Coverage information |
Num covering plasmid clones | 0 |
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 | ATGAGCTCTT TCGATATTTT TTCTCCGACA ACTTCTGTTT CCGGAAAATT TTTCCTAGAA GCATCCGCAG GAACGGGAAA AACATTTACC ATAGAACAAG TTATCCTCCG TTCTCTATTA GAAGGAAACG TTGAACAAAC TAAGAATATT CTCGTAGTTA CATTTACGAA CGCAGCTACA AATGAATTAA AATTACGTAT TCAAGAAAGC CTTAAACAAG CTTTAACGCT CTTCTCTCAA GCTCTTTCTC ATCCCGAAAC ACCTTTACCC CCCTATGTTT CTTCTCAAGA AACCAAAGTA AAGCAGCTTT ACARTAAAAW TCGTAATAGC CTAGCCACTT TAGATGAAAT GAATATTTTC ACTATTCATG GAMTTTGCCG TTTTACATTA GAACAACACT TCCCTTGGGT GCAACCCATT CACCCTTCTT CCATGTTCTC AGAGCCCCAA ACCATTCAGC AATATATTCT GGATTACTTA AGACAAAATA GCTGGGAAAA CGTTCTTTCT CCTAAACAAT ACGCCTTCTT ATCCTATCAT CATCGAGCCA CTACCCAACA AACTCGTCAT TTAGCAGACA GACTGCTTCA AGACTATGCT TCTACACCCA ACCTTGCTCT CCCCCCTCTA TCTATAACTC TTCAAAAAGT GAAGAACTGG TCTTCTCAAT ATAAACACCT TTCCCCTCTT TCTCTTGAAG AGTTACAAGA TTTTTCGCTC CGATTTAAAC AAAGCGATCT ACCAATCGAT CGGGAATTAC CCGATTTTGT GAAACAATTC GAAACAGACC CCAATTCTTT AGACATCCTA TTTTTCCCGG GAATGGTTCA GAAATTTCAG GAAGAAAATC GAAATAAAAA GAAATTGGGA CCCCCTTTTT CCCCTTTAGA TCCTTTTCTC AAAGACTGGT TACTAATAGC CCAGCCCTTC TGTCAAAAAG AACCTATTTT CCATACACTG CTTAAAAGCG TACAACAACA CTTAAAAACG TATTGTGCAC AATCCTACTC GCATGATGAA AGCATAGCCA CTTTAGAGTC TTTGCTAGCA CAGAATGACC ACGTTGTTTC TCAGCTACGA AAACAATTTC AATTAGTTTT GATTGATGAA TTTCAAGATA CAGACAAACG TCAGTGGAAA ATTTTTTCTA AACTCTTTGC TTCTCCTGAT TATTCAGGAT CACTATTTCT TATTGGAGAT CCTAAACAGT CTATTTATGA ATGGAGAAAC GCAGACCTTC CAACCTACCT CCAAGCAAAA AACTCCTTTC CTAAGGAGTC TCAGCTAATA TTGGATACGA ATTACCGATC CACTCCACAA CTCATGCAAG CTCTAAACCA TCTTTTTTCG CTCCCCTCTC CTTTTTTAGA AACCCCACAA ACTATTCTTT ACCACCCACT CCAATCTAAA GGAAGCGCCT CCACTTCGTA TTCAGAGTTT CGTCCTATCC ATTTCTTTAC TACACAAGAT TCCCAAGAAG AAGCTCTCTG GATTTCAAAA ACCGCTTCTT ATCTACGTTC TACATTCGCT ATTCCCTTTG GGAATATGGC AGTCTTAGTC CAAGACTATC CGCAAGCACT CAAATTGATC ACTCATAGCA CGATTCCTAT GGCGTATTGC AAAGAAAAAC GCATTTTTGA TCGCACAGAA TCGCCCTATC TCCTCATTCT TCTTTTAGAA GCTCTTCTAT ACCCAGAAAA TCAACAAAAG ATTCAGGCCA TTTTACTGAG TCGTTTTTTT CATCTTTCTG CTACAGATAT TCATCAGCAT TTAAAAATTT TCTCCTCTCT GTTTTTTATG CTGAATACGT ATCTCCACCA ATACTCTTTA CTAGCTACGT TTTATAAATT GATGGGAGAA ACCGTTTTCT CCCAAACCAT AGGAGAAACG TTATTACAAA CACCCCTTGG TGACATTATT TTCCAAGAAT TAGAAGAGCT TTGTTTGTAT CTTGATAAAA CTACGGAAAA TCCTCATCAC AAGCTATTTC ATCTTATAAA CATTCTAGAT ACTGGAAAAT ATGATGAAGA GCTTTCCTTT TCCTCTCAGT CTAATGACGA TAATGTGCTT AAAATTACCA CAGTCCACTC TTCAAAAGGC TTAGAATACG ATGTCGTTTT TTGTTCTAGT CTTAACAAAG TTAAAGAGAA ATCTCCTTCT GTTCACATGA GAGAAATGTA TGTTGCTTGT ACTCGTGCTA AGAAATTCTT ATTCATCCCT TTCTCCTCTA TAGAGAAACG TTTACAAAGC AATAAAAAAG TTTCTGCTCT TGCTAACTAT GCCAATATTA CACAACACGA TAACATCCCT CATTTAGTAG AAACTCTGAC CGCATCCCAT CCAGAATTTT TCTCTTCAGG TACGCAACCT CCGGAAAGCA ATATCTCTAT TTTCTCAGAA CCTCTCCCCG AACAAGAGTT TTTTTCTCTT CCAATACTAT CTTCCCAACC CATCTATTCT TTTTCTTCCA CAACAGAATC ACAGTATTTT ACTGAGCCTT TTCAAGAGAT TTCTTCCTCT TCTTTATTTC CTGGGGGATC TCTAACAGGA ACTCTTATTC ACAAGCTTTT AGAGTCGTTA TCAGGGAATT TTAACGCCTC TCTTGAGGAG ATTACTCATA AAGCCCAAAC TTTATTGAAA AACACAATTT TGGAAGGCTT CGAGTCTATT ATTTCAGAGA AAATCTACAC AGCTTTCTCA ACAAAACTCC CTTTTGTTTC AGGAAGCTTT GCTCTTAAGG ACGTTCATCC TTACAATATT CGTGTGGAAG AGACTTTTCT CCTTCAAGAG AATGGGGAGT TGTGGCAAGG AATTGTCGAT CTTTTTTTTG AACACAACAA TAGATTTTTC ATTATCGACT GGAAAACATC TTTTCTAGGG GATGAACCCT CTCTTTACTC TCCAGATAAA CTCCTTCTTT ATATCCAGCG CCAAGGATTG GATAAACAAG GGGTGTTATA TAAAAGAGCG GCTAAAAAGT TCCTGCATCA ATTCAATTCT TCTCTTCAAA TTGAGATGGC TTTCGTATTC ATTCGAGGAA TTGATGACAA AGGAAATGGA TTCTTACAAC CTAGCCCTTA A
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Protein sequence | MSSFDIFSPT TSVSGKFFLE ASAGTGKTFT IEQVILRSLL EGNVEQTKNI LVVTFTNAAT NELKLRIQES LKQALTLFSQ ALSHPETPLP PYVSSQETKV KQLYXKXRNS LATLDEMNIF TIHGXCRFTL EQHFPWVQPI HPSSMFSEPQ TIQQYILDYL RQNSWENVLS PKQYAFLSYH HRATTQQTRH LADRLLQDYA STPNLALPPL SITLQKVKNW SSQYKHLSPL SLEELQDFSL RFKQSDLPID RELPDFVKQF ETDPNSLDIL FFPGMVQKFQ EENRNKKKLG PPFSPLDPFL KDWLLIAQPF CQKEPIFHTL LKSVQQHLKT YCAQSYSHDE SIATLESLLA QNDHVVSQLR KQFQLVLIDE FQDTDKRQWK IFSKLFASPD YSGSLFLIGD PKQSIYEWRN ADLPTYLQAK NSFPKESQLI LDTNYRSTPQ LMQALNHLFS LPSPFLETPQ TILYHPLQSK GSASTSYSEF RPIHFFTTQD SQEEALWISK TASYLRSTFA IPFGNMAVLV QDYPQALKLI THSTIPMAYC KEKRIFDRTE SPYLLILLLE ALLYPENQQK IQAILLSRFF HLSATDIHQH LKIFSSLFFM LNTYLHQYSL LATFYKLMGE TVFSQTIGET LLQTPLGDII FQELEELCLY LDKTTENPHH KLFHLINILD TGKYDEELSF SSQSNDDNVL KITTVHSSKG LEYDVVFCSS LNKVKEKSPS VHMREMYVAC TRAKKFLFIP FSSIEKRLQS NKKVSALANY ANITQHDNIP HLVETLTASH PEFFSSGTQP PESNISIFSE PLPEQEFFSL PILSSQPIYS FSSTTESQYF TEPFQEISSS SLFPGGSLTG TLIHKLLESL SGNFNASLEE ITHKAQTLLK NTILEGFESI ISEKIYTAFS TKLPFVSGSF ALKDVHPYNI RVEETFLLQE NGELWQGIVD LFFEHNNRFF IIDWKTSFLG DEPSLYSPDK LLLYIQRQGL DKQGVLYKRA AKKFLHQFNS SLQIEMAFVF IRGIDDKGNG FLQPSP
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