Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Apre_1330 |
Symbol | |
ID | 8398122 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Anaerococcus prevotii DSM 20548 |
Kingdom | Bacteria |
Replicon accession | NC_013171 |
Strand | - |
Start bp | 1420135 |
End bp | 1422774 |
Gene Length | 2640 bp |
Protein Length | 879 aa |
Translation table | 11 |
GC content | 38% |
IMG OID | 644995677 |
Product | DNA polymerase I |
Protein accession | YP_003153074 |
Protein GI | 257066818 |
COG category | [L] Replication, recombination and repair |
COG ID | [COG0749] DNA polymerase I - 3'-5' exonuclease and polymerase domains |
TIGRFAM ID | [TIGR00593] DNA polymerase I |
|
|
Plasmid Coverage information |
Num covering plasmid clones | 10 |
Plasmid unclonability p-value | 0.17915 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
| |
Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
| |
Sequence |
Gene sequence | ATGAGTAAAA CAGTTATGTT AATTGACGGG TCTAGTTTGA TTTTTAGGGC GTTTTTTGCT CTTCCTAAAC TTACAAACAA TGACGGCGTT ATGACTAATG GCGTTTATGG TTTTTTGACC ATGTATAACA ACGCTTTTGA TAGATATAAA CCAGATTATG TCCTTGTGGC CTTTGATAGG GCATCTAAGA CTTTTAGGCA CAAGGAGTTT GAGGACTACA AGGGAACTCG TGATAAGATG CCTAGCGAGC TTTCCTATCA GTTTGGAATC CTCAAGGATA TCTTAGATTC CCTTAATGTT AAATACACTG ATCTCGATGG ATTCGAGGCG GACGATATTG TGGGAACCTA TGCAAAAATG GCCCAAGAAG CAGGCTATGA ATCTGTTTTA ATCACTGGAG ATAGGGATTA CCTTCAGCTT GTAGATGAGA AGATCGTAGT CAATCTTACC AAGAAGGGAG TTTCCGAGAC TAAGGAATAC ACAGTCGATA CCATAAAGGA AGAATTTGGC CTAAGTCCTA AACAATTGAT CGAAGTTAAG GGGCTAGAAG GAGATAAGTC CGATAATATT CCTGGAGTTG ATGGAATAGG TCCAAAAAAG GCTATCGGCT TTATCCAAAA ATACGGATCT ATCGAAGGGC TTTATGACCA TATAGACGAA GTTTCTGGTA AAAAGACCAA ACAGACTTTA ATCGATAGTG AAGCTATAGC CTATATGAGT AAGAAAATAG GTACAATTGT GACCAGTGCT CCGGTAGAAT TTGACCTAGA AGAGCTTAAG GTGAAGGATC CAGACCTTGA AAGCTTGAGA GAAAAGTATT CTAAGTACAA TTTCAACAAG TTCCTAGAAG ATATGGATGG GGGAGATAGT CCAAAGGAGG ATAAGGACTT TACCTATGAG AAGTTAGAGA ATCCAGATAA GCTAATCGAA GCTATCAAGA AAAACAAGGA ATTTACCTTC AAGTCCATTT ATGAAGGAGA TAGGTATATT CACAGCGAGA TTTATAAGCT AGGAATAAAG ACTACTGACA CTCCTACTTA TATAATAGAT CCTGATAGTG ATTTTGTTAG TAAGTTCAAG GAAATATTCG AGGATGAAGA AATAGTGAAA AATTCCTTCG ATATTAAAGA AGATGTTGTT CTTCTAGATA AACTTGGGAT AAATCTGAAA CTTCCTTATG ACGATATGAT GCTTATGCAT TATCTGATCG ATCCATCAAG GTCTTCTTAT GATTTAAAAG TCTTAAGTCA ATCTTATCTA GACTACGAAG TAAAAAGTCC GGTGGACCTC TTAGGCAAGG GTAAGAAGGC CCTAAAATAT CAAGATTTGG ACTTTGATGA GCTTGGAAAC TACCTAGCAA GTGGAATTAA TGCAATAGAA GATTCTAAGG AAATCTTGGA AGATAAACTT GACGAATACC ATATGCTAGA CCTCTATAAG GAGATTGAGA TTAAACTTTC AAAGGTCCTA GCCGATATGG AAATCGTGGG ATTTGTCACA GACAAAAAGG TTCTTGAAGA TCTAAAGGAG AATATCGATA AGGATATAGA TAAGATTACC GAGGAGATTT ATGAACTTGC TGGTAGCGAG TTTAATATCA ACTCTACCAA GCAATTGGGC GAGGTTCTCT TTAAAGATTT GGACCTTCCT GTTATCAAAA AAACTAAGAC AGGCTTTTCA ACTAATGCCC AAGTCCTTGA AAAATTAAGG GATAAACATC AAATTATTCC TAAAATCGAA AGATATAGGG AGCTTTTCAA GCTACGTTCA ACCTATATAG AAGGACTAGA GAAGGCCATA GATGAAGATG GAAGAATTAG GTCAACCTTT AGGCAAAATA TAGCTGCCAC CGGTAGGCTT TCTTCCCAAG ACCCTAACTT ACAAAATCTT CCTATAAAAA CCGACGAGGG TAGACTAATA AGAAAGGCCT TTAGGGCAGA GGAAGGAAAG ATCCTAATAG ATGCGGACTA TTCACAAATC GAGCTAAGAA TACTCGCTTC TCTTTCAGGA GATCGCCATA TGATAGATGC CTTCAAGGAA GGCGTAGATA TCCATACCAA GACCGCATCC AAAGTCTTTC ACACTGACCT TGATAAGGTT ACAAAAAGAC AAAGATCTGA GGCCAAGGCA GTAAACTTCG GAATAATCTA CGGCATAAGT GACTACGGCC TATCACAAAA TCTGAACATA CCAAGGAAGG AAGCCAAGGA ATACATCGAC AATTACATGG CAAGCTACCC ATCAATCAAG GAATATATGG ATTCTATTGT AGAAAAGGCC AAGGAAGATG GCTATGTGGA GACTCTCTTT AAGAGAAGAA GATATGTACC AGAGATCAAT TCGAGAAACT TTAACGTTCG AAGCTTCGGC CAAAGGGTTG CCCTAAATAC TCCTATCCAA GGAACTGCGG CAGACATTAT AAAGATTGCC ATGATAGAAA CTGACAAGAA TCTCAAAAAA GCAGGACTTG ATGCAAAAAT AGTCCTCCAA ATCCATGATG AAATAATTCT AGAGGCAGAT GAATCATCCA AGGATGAGGC TATCAAAATC CTAAGAGAAT CCATGGAGAA TGCGACAGAT CTTGAGGTTC CTTTGATAGT AGATATCGAC ACTGGAGTAA GTATGTATGA GTCCAAGTAG
|
Protein sequence | MSKTVMLIDG SSLIFRAFFA LPKLTNNDGV MTNGVYGFLT MYNNAFDRYK PDYVLVAFDR ASKTFRHKEF EDYKGTRDKM PSELSYQFGI LKDILDSLNV KYTDLDGFEA DDIVGTYAKM AQEAGYESVL ITGDRDYLQL VDEKIVVNLT KKGVSETKEY TVDTIKEEFG LSPKQLIEVK GLEGDKSDNI PGVDGIGPKK AIGFIQKYGS IEGLYDHIDE VSGKKTKQTL IDSEAIAYMS KKIGTIVTSA PVEFDLEELK VKDPDLESLR EKYSKYNFNK FLEDMDGGDS PKEDKDFTYE KLENPDKLIE AIKKNKEFTF KSIYEGDRYI HSEIYKLGIK TTDTPTYIID PDSDFVSKFK EIFEDEEIVK NSFDIKEDVV LLDKLGINLK LPYDDMMLMH YLIDPSRSSY DLKVLSQSYL DYEVKSPVDL LGKGKKALKY QDLDFDELGN YLASGINAIE DSKEILEDKL DEYHMLDLYK EIEIKLSKVL ADMEIVGFVT DKKVLEDLKE NIDKDIDKIT EEIYELAGSE FNINSTKQLG EVLFKDLDLP VIKKTKTGFS TNAQVLEKLR DKHQIIPKIE RYRELFKLRS TYIEGLEKAI DEDGRIRSTF RQNIAATGRL SSQDPNLQNL PIKTDEGRLI RKAFRAEEGK ILIDADYSQI ELRILASLSG DRHMIDAFKE GVDIHTKTAS KVFHTDLDKV TKRQRSEAKA VNFGIIYGIS DYGLSQNLNI PRKEAKEYID NYMASYPSIK EYMDSIVEKA KEDGYVETLF KRRRYVPEIN SRNFNVRSFG QRVALNTPIQ GTAADIIKIA MIETDKNLKK AGLDAKIVLQ IHDEIILEAD ESSKDEAIKI LRESMENATD LEVPLIVDID TGVSMYESK
|
| |