| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | STER_1742 |
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| Symbol | |
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| ID | 4438034 |
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| Type | CDS |
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| Is gene spliced | No |
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| Is pseudo gene | No |
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| Organism name | Streptococcus thermophilus LMD-9 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_008532 |
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| Strand | + |
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| Start bp | 1630189 |
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| End bp | 1632693 |
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| Gene Length | 2505 bp |
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| Protein Length | 834 aa |
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| Translation table | 11 |
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| GC content | 42% |
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| IMG OID | 639677330 |
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| Product | exonuclease V subunit alpha |
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| Protein accession | YP_821079 |
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| Protein GI | 116628460 |
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| COG category | [L] Replication, recombination and repair |
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| COG ID | [COG0507] ATP-dependent exoDNAse (exonuclease V), alpha subunit - helicase superfamily I member |
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| TIGRFAM ID | [TIGR01448] helicase, putative, RecD/TraA family |
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Plasmid Coverage information |
| Num covering plasmid clones | 0 |
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| Plasmid unclonability p-value | 1 |
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| Plasmid hitchhiking | No |
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| Plasmid clonability | normal |
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Fosmid Coverage information |
| Num covering fosmid clones | n/a |
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| Fosmid unclonability p-value | n/a |
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| Fosmid Hitchhiker | n/a |
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| Fosmid clonability | n/a |
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Sequence |
| Gene sequence | ATGCAAGAAT TTTATTTTTC AGGAACTATC GAGCGCATCA TTTTTGAAAA TGCCAGTAAT
TTTTTTCGTA TCCTACTCTT AGAAATTGAT GAAACTGACA GTGATTTTGA AGACTATGAA
ATCATTGTTA CTGGAACTAT GGGGGAAGTC ATGGAGGGGG AAGACTATAC CTTCTGGGGT
CAGCTAACCA ATCACCCCAA ATATGGCAAA CAACTCCAAA TGACTCGCTA CGAGCGTTCA
AAACCCTCTG CCAGTGGCCT TATCAAATAT TTCTCCAGTG ATAATTTCAA AGGAATCGGT
AAGAAAACGG CCGAGCGTAT TGTCGAGATT TATGGCGAAG ACCCTATTGA CAAGATTCTC
GAAGACCCTA GTAAATTAGA GCAGATTCCT AATCTGTCCA AGGTAAACCG AGAAGCCTTC
CTTGCAAAAT TAAAAATCAA CTATGGTACT GAACAAATCT TGTCAAAACT TTCCAGCTAT
GGACTCACAC CAAAGGCTGC CGCACAAATT TTCAACCAAT ATAAGGAAGA ATCACTTAAC
CTTATCGAAA AATATCCTTA TCTCTTGGTA GAGGAAGTCC AGGGAATTGG ATTTAAAATG
GCCGATCAAC TAGCCGAACG CCTAGGGATT GCTAGCGATG CTCCTGAGCG TTTACGAGCC
GCCCTAATTC ACTGTCTGCT AGAAGCTAGT ATGGAAGAAG GGGACACCTA CATCGAAGCC
AAGTCCTTGC TTGAACGGAC TATCATTCTT TTGGAAAGTT CTCGCCAGAT TGAACTTGAC
CCTGCCTTGG TTGCTCACCA ATTGACCAAC CTCATCCAAG AGGATAAGGT GCAAAATATA
GAGACTAAAA TTTTTGATAA TACCCTATAT TTTGCAGAAC AGGGCATCTA TACCCACCTA
ACTCGTATCA CGAAAGACCA GCCTGACATC AGTGCTGAGG ACAAAATCCA AGCAAGTCTT
GAAAGGGTGG AAGATGAGCT TGGTATCACC TATGACAAGG TTCAAAAAGA TGCCATTATT
AAAGCCCTAC AAAGCAAGGT CTTCATCCTG ACAGGTGGTC CCGGAACAGG AAAAACCACT
GTTATTAACG GAATTATTAA AACCTATGCT GACCTTCATG GTTTAGACCT CAAAAAGTCT
GATTTACCCA TTATTTTAGC AGCGCCAACG GGACGGGCTG CTCGTCGGAT GAACGAACTG
ACCAAGCTTC CTAGTGCCAC TATCCATAGA CATTTGGGGC TTAATGGCGA GGACGATTTC
AAGACCTTAG ATGACTATCT TGATTGCGAT TTGATTATCA TCGATGAGTT CTCTATGGTT
GATACTTGGT TGGCCAATCA ACTCTTCGAA AGCATTTCCG ATACTACTCA AGTAATCATT
GTAGGTGACC AAGATCAGCT ACCTTCTGTA GGCCCTGGCC AAGTCTTAGC TGACCTTTTG
CAGATTGATG ACTTGCCTAA GGTTTCCCTA ACCAAAATTT TCAGACAATC TGAGGATTCC
ACTATTGTTA CCTTAGCTAG CCAGATACGC CAAGGCCAAC TACCCACTGA TTTCACAGAG
AAAAAAGCTG ACCGATCATA CTTTGAGGCT AATGCTAACC ATATTCCACA GATGGTCCCT
AAAATTGTCT CTGCTGCTAT TAAAAGTGGG ATCGCTGCTC AGGATGTACA GATTCTGGCC
CCCATGTACC GGGGACAGGC TGGTATCAAC AATCTCAATA CCATTATGCA GGATCTACTT
AATCCCAAAG AAAAAGCCAA TCAATTTGCC TTTAATGATA TTTTCTTCCG TAAGAATGAC
AAGATTCTCC ACCTGGTCAA CGATACAGAA CTCAATGTCT TCAATGGCGA TATCGGAATC
ATTACTGATC TCATACCTGG TAAATATACT GAAAGTAAGC AAGATGAAAT TTACATGTCC
TTCGATGGCA ATGAGGTTAT CTATCCTCGT AACGAATGGA ATAAGATTAC TCTGGCCTAT
GCCATGTCTA TACACAAATC CCAAGGGAGT GAATTCCCAG TCGTTATCCT TCCCATCACA
CGCCAAAGTG GGCGTATGCT TCAACGTAAC CTCATCTACA CCGCTATCAC ACGCGCCAAG
AGTAAACTGG TCATGTTGGG GGAAATCGCA GCCTTCGATT ATGCCGTTCA CAACGAGGGG
GCCAAACGTA ATACCTACCT CATCCAACGT TTTGAACAAA CTTATACACA AGCTGTTGAT
AAGTCTGTCG AAAAGAATGT TAAAAACGAG GGAACAGACG CCTTCAATCA AACAAAAACG
GAAAACAATA GACCCTCAGA AACCCTTGAA AACAAAGACT TCTCGGAAAA TATCAATCCA
TCCCAAACTC TTATTAACAC TTATTCACAT CCTGTGGATA AGTCTGTTAA CAAACCTGTG
CAAACAGAAG AAAACTATCG TTTAACTGAA GAAAATTGGG CAACTATCGA CCCAATGATA
GGTCTCAGCG AAGACGATAT TGCAGCCTTT TTTAACAACA ACTAG
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| Protein sequence | MQEFYFSGTI ERIIFENASN FFRILLLEID ETDSDFEDYE IIVTGTMGEV MEGEDYTFWG
QLTNHPKYGK QLQMTRYERS KPSASGLIKY FSSDNFKGIG KKTAERIVEI YGEDPIDKIL
EDPSKLEQIP NLSKVNREAF LAKLKINYGT EQILSKLSSY GLTPKAAAQI FNQYKEESLN
LIEKYPYLLV EEVQGIGFKM ADQLAERLGI ASDAPERLRA ALIHCLLEAS MEEGDTYIEA
KSLLERTIIL LESSRQIELD PALVAHQLTN LIQEDKVQNI ETKIFDNTLY FAEQGIYTHL
TRITKDQPDI SAEDKIQASL ERVEDELGIT YDKVQKDAII KALQSKVFIL TGGPGTGKTT
VINGIIKTYA DLHGLDLKKS DLPIILAAPT GRAARRMNEL TKLPSATIHR HLGLNGEDDF
KTLDDYLDCD LIIIDEFSMV DTWLANQLFE SISDTTQVII VGDQDQLPSV GPGQVLADLL
QIDDLPKVSL TKIFRQSEDS TIVTLASQIR QGQLPTDFTE KKADRSYFEA NANHIPQMVP
KIVSAAIKSG IAAQDVQILA PMYRGQAGIN NLNTIMQDLL NPKEKANQFA FNDIFFRKND
KILHLVNDTE LNVFNGDIGI ITDLIPGKYT ESKQDEIYMS FDGNEVIYPR NEWNKITLAY
AMSIHKSQGS EFPVVILPIT RQSGRMLQRN LIYTAITRAK SKLVMLGEIA AFDYAVHNEG
AKRNTYLIQR FEQTYTQAVD KSVEKNVKNE GTDAFNQTKT ENNRPSETLE NKDFSENINP
SQTLINTYSH PVDKSVNKPV QTEENYRLTE ENWATIDPMI GLSEDDIAAF FNNN
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