Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | STER_1736 |
Symbol | |
ID | 4437660 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Streptococcus thermophilus LMD-9 |
Kingdom | Bacteria |
Replicon accession | NC_008532 |
Strand | - |
Start bp | 1622127 |
End bp | 1624766 |
Gene Length | 2640 bp |
Protein Length | 879 aa |
Translation table | 11 |
GC content | 44% |
IMG OID | 639677324 |
Product | DNA polymerase I |
Protein accession | YP_821073 |
Protein GI | 116628454 |
COG category | [L] Replication, recombination and repair |
COG ID | [COG0258] 5'-3' exonuclease (including N-terminal domain of PolI) [COG0749] DNA polymerase I - 3'-5' exonuclease and polymerase domains |
TIGRFAM ID | [TIGR00593] DNA polymerase I |
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Plasmid Coverage information |
Num covering plasmid clones | 1 |
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 | ATGACTAATC AAAAAAAATT ACTATTAATC GACGGTTCGT CCGTTGCCTT TCGTGCTTTT TTCGCACTCT ATAATCAAAT TGACCGTTTT CGTAACAATA ACGGCCTTCA TACCAATGCC ATCTACGGCT TTCACCTTAT GTTGGACAAC CTACTTGAGC GTATTCAGCC GACCCATGTC TTAGTAGCTT TTGATGCGGG AAAAACAACT TTTCGTACAG AGATGTTTGC GGACTATAAG GCTGGTCGTG CCAAGACTCC AGAGGAATTC CGTGAACAGC TCCCTTATAT CCGTGAGATG TTGGCTGCAC GTGGCATTGC CTATTATGAC TTGGCTCAGT ACGAAGCAGA TGACATTATC GGTACCTTAG CTAAGATGGC TGAAAATACT AGTGAGGCCT TTCAAATTAC TGTTGTTTCT GGGGATAAAG ACTTGATTCA GCTGACTGAT GAAAATACAG TCGTTGAGAT TTCGAAGAAA GGCGTAGCTG AGTTTGAGGC CTTCACTCCT GACTATCTCA TGGAGAAAAT GGGGATTACT CCAGCTCAAT TCGTCGATCT TAAGGCCCTC ATGGGTGACA AGTCCGACAA TATTCCAGGG GTTACTAAGA TAGGTGAAAA GACTGGTCTC AAGCTCCTCT TGGAACACGG TTCCCTTGAA GGCATCTATG ACCACATTGA TGAGATGAAA AAGTCCAAAA TGAAGGAAAA TCTCATCAAC GACAAGGAAC AAGCCTTCCT TTCTAAGACC TTGGCGACCA TTGATACACA GTCACCTATT GAAATTGGCC TAGATGATAC GGCCTTTAAG GGACCTAACC TTGAAAAATT GCTAGCCTTT TATGACGAGA TGGGCTTTGT TCATTTCAAA AATGCTCTTC GCGGAGAGGC TGTCCCACAG GATTTTGATG TGGCCTATGT AGAGCCTAGC CAAGTGACAG CGGATCACTT TAGCTCTGAA GATTTCTTCT ATTTTGAAAT CCTCGGTGAC AATTATCACA CAGAACCTAT CATCGGTTTT GCTTGGGGAA ATGAAAAGCA GATTTATGCG TCTACAGATA CTGACCTACT CAAATCAGAA GCATTCCAAG CAGCTCTTTC TAAGGCTGTT AATATCTACG ATTTCAAGCG CAGTAAGGTC CTTTTGAGCC ATCTAGGTAT TGACTTGCCG ACAGCTAATT TTGATGCCCG TTTGGCCAAG TATTTGCTCT CAACTGTTGA GGACAATGAA TTGTCAACCA TTGCTCGTCT CTACACAGAT TTACCACTGG AAACAGATGA GGTGGTCTAT GGTAAGGGAG CTAAGCGTGC CATTCCTGAA AAAGAGGTCT TGCTCAGCCA CCTGGCAAAA AAAGTCAAGG TCCTTCAGGT TGCCAAACCG GTCATGCTAG AAAAGTTAGC TGAACATGGC CAATCAGAGC TTCTCTTTGA CATGGAATTA CCATTGGCAA ATGTGTTAGC CAAGATGGAA ATGGCTGGTA TTAAGGTCGA TGGACAAACC CTTAACGAGA TGGCAGTGGA AAACCAAGCA GTCATCGACA AATTGACCCA AGACATCTAC GAAATGGCGG GCGAAGAATT CAATATTAAC TCGCCTAAAC AGTTGGGTGT TATCCTCTTT GAAAAAATGG GTCTACCTTT GGAATACACT AAGAAAACCA AGACAGGTTA TTCAACGGCA GTGGATGTCC TTGAACGTTT GGCACCAATT GCTCCAATAG TAGCTAAGAT TTTAGAGTAC CGCCAAATCA CTAAGCTTCA GTCTACCTAT GTCTTGGGGC TTCAGGATTA TATCCTTGAG GATGGTAAGA TCCATACCCG TTACATGCAA GATTTGACCC AGACAGGTCG ACTTTCATCT GTGGATCCTA ACTTGCAAAA TATCCCCGTT CGCTTGGAGC AGGGTCGTCT CATCCGTAAG GCCTTTGTCC CATCGACTAA GGACGCAGTG CTACTAAGCT CGGATTACTC ACAAATTGAG TTGCGCGTGC TTGCCCACAT TTCGGGAGAT GAGCATTTGA TTGCAGCCTT TAAGGAGGGG GCGGATATCC ATACCTCTAC AGCCATGCGT GTCTTTGGTA TTGAAAAGCC AGAGGATGTC ACACCTAACG ACCGTCGTAA CGCTAAGGCT GTTAACTTCG GTATCGTTTA TGGTATTTCT GACTTTGGTC TTTCTAACAA CCTTGGTATT AGCCGTAAGA AGGCCAAGGA GTATATTGAC ACCTATTTTG AGCGTTATCC TGGTATTAAG GCTTATATGG ATAATGTGGT TCGTGAAGCC AAGGATAAAG GATATGTATC AACCCTCTTC CACCGCCGTC GTGAGTTACC AGATATCAAT TCTCGTAACT TTAATGTCCG TAACTTCGCA GAGCGAACAG CCATAAACTC TCCTATCCAA GGAAGTGCTG CTGATATCCT CAAGATTGCT ATGATTAACT TAGACAAGGC TCTGGTAGAA GGTGGCTATA AAACCAAGAT GCTCCTCCAA GTACACGATG AAATCGTCCT TGAGGTGCCA AGCGACGAAC TTTTAGCTAT GAAAGCTTTG GTTAAAGAAA CCATGGAATC TGCAGTAGAA CTCGCTGTCC CACTCATCGC AGATGAAAAT GAAGGCTGTA CATGGTATGA GGCAAAGTAA
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Protein sequence | MTNQKKLLLI DGSSVAFRAF FALYNQIDRF RNNNGLHTNA IYGFHLMLDN LLERIQPTHV LVAFDAGKTT FRTEMFADYK AGRAKTPEEF REQLPYIREM LAARGIAYYD LAQYEADDII GTLAKMAENT SEAFQITVVS GDKDLIQLTD ENTVVEISKK GVAEFEAFTP DYLMEKMGIT PAQFVDLKAL MGDKSDNIPG VTKIGEKTGL KLLLEHGSLE GIYDHIDEMK KSKMKENLIN DKEQAFLSKT LATIDTQSPI EIGLDDTAFK GPNLEKLLAF YDEMGFVHFK NALRGEAVPQ DFDVAYVEPS QVTADHFSSE DFFYFEILGD NYHTEPIIGF AWGNEKQIYA STDTDLLKSE AFQAALSKAV NIYDFKRSKV LLSHLGIDLP TANFDARLAK YLLSTVEDNE LSTIARLYTD LPLETDEVVY GKGAKRAIPE KEVLLSHLAK KVKVLQVAKP VMLEKLAEHG QSELLFDMEL PLANVLAKME MAGIKVDGQT LNEMAVENQA VIDKLTQDIY EMAGEEFNIN SPKQLGVILF EKMGLPLEYT KKTKTGYSTA VDVLERLAPI APIVAKILEY RQITKLQSTY VLGLQDYILE DGKIHTRYMQ DLTQTGRLSS VDPNLQNIPV RLEQGRLIRK AFVPSTKDAV LLSSDYSQIE LRVLAHISGD EHLIAAFKEG ADIHTSTAMR VFGIEKPEDV TPNDRRNAKA VNFGIVYGIS DFGLSNNLGI SRKKAKEYID TYFERYPGIK AYMDNVVREA KDKGYVSTLF HRRRELPDIN SRNFNVRNFA ERTAINSPIQ GSAADILKIA MINLDKALVE GGYKTKMLLQ VHDEIVLEVP SDELLAMKAL VKETMESAVE LAVPLIADEN EGCTWYEAK
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