Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | PICST_28877 |
Symbol | REV1 |
ID | 4851616 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Scheffersomyces stipitis CBS 6054 |
Kingdom | Eukaryota |
Replicon accession | NC_009068 |
Strand | + |
Start bp | 2341751 |
End bp | 2345107 |
Gene Length | 3357 bp |
Protein Length | 1118 aa |
Translation table | |
GC content | 40% |
IMG OID | 640393324 |
Product | DNA repair protein |
Protein accession | XP_001386790 |
Protein GI | 126275049 |
COG category | [L] Replication, recombination and repair |
COG ID | [COG0389] Nucleotidyltransferase/DNA polymerase involved in DNA repair |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 7 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 13 |
Fosmid unclonability p-value | 0.765985 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGGAGAGCA CAGATGAGTC CGAAGACAAT CTCCGAGAGA GCCGACAGAG CCCTGAAGTA GACCAAGACT TTGTAGCTCC ACCACAACGC GTCTCGCAAA TCGATCTGGT CACATATCTG TCCTTTCTCC GGTCGCTTGA TGATGAACAT TTGATAGAAC ATATTAACTC ATGTAGCCAG CTGAAGGACC ATAGCCAAAT TACAGCCAGT ATCCATGATT CGAAGTTAAT TGCTTCATCA CCGAGAACAA ACCGTGTTGA GCGCCAGCTC AGTCTTGACG AACACAATTT CTCGAGTGTG AGTACAGACC CATTCGATGA TGATCTAGAT TCCCAGCTTC TTGGGGCTTC GACTCCTACA AGAGCGACTG CGAACCCTAA TGATGACAGT GCAGACGCAT ACCCTGATGA CGAGCAGAAT AATACGGTAG GAGAAATTCA CGCATTTGGA GACTATGCCA CTTACTTCCG GACCAAGCAT CTCAAGCAGC AGAAAGAAGA CGAAGAGTAC ATTAAGTGGG ACCTTAAAAG AAGAGCCCAA CTCAACGGTG GAAGGGCAGT AGCTGTAAAA CCGATATTTG AAGGTTGCAT TGTTTATGTG AATGGACACA CCAATCCTTC TATCAATGAG ATCCATCGTC TTATCATTGT ACACAGTGGG AAATTCATTA GTTATTTGTC TAATAAGGGA GCAGCAACTC ATATCATTTG CGATAGACTT ACACCAAAGA AGAAAGTTGA ATATCGCAAT TACAAGGTGG TTAGAGCGCA ATGGGTGGTA GATTGTGTTG CCTCAAATGA GCTATTAGAC TGGACTCAAT ACAGATTGAT TCTGGAAATA GAGTACGGTC AGAAAAGACT ACAATTTGGT GATTCTCCTA CACGACATTC TGGATCTGAC TCTGTTACGC CATCCAATGA GTCAGATCTG GAACTCGCCA ACTCCATGGC TGATAACAAC GAAGATCCTC TTTTAGAGGA ACTCGAGGAC GACTTCATTG AGCCCATAGA ACCTTCTGGG TCTAATGACG TAGGTTCCAA AGGCGAAAAG AAGATAATGG ATGCTAAACA CCCCGAGTTC TTGAAACATT TCTTTGCAAA TTCACGACTT CACCATCTAA GTATGTGGAA GGCTGATCTT AAATTGAGAT TCTTAAGAAG GATTGTCAAA GAAAACAAAA GTGGTGAAAC CAAACGCACC TCGCAAGGTA TAAGGGTAAT TTTTCATGTA GACTTCGACT GTTTCTTTGC AACAGCTTCC TGTTTGAATC GCCCGGAACT TGATATCAAT AAGGACCCAA TAGCAGTTAC ACATGGTGGC AAGTCATCTG ATGTGGCTAG TTGTAATTAT GTGGCTAGGA ATTTTGGAGT CAAAAATGGA ATGTGGGTAA GTCAGGCAAA GAAGTTGTGT CCGAATTTAA TCATGTTGGA CTATGACTAC AAAAGATATG AAAGCTATTC CAGTGAGTTT TACAATTACT TCTTATCGTA TGATATATTT GATTCTATAT TCCCCGTGCT GATTGATGAA GTGTTGATAG ACGCTTCGAG TCATTTTGCT CAGAACGAAG AGAACCTAGT CGACATGGTC AATGCGTTGA GCACTCGGAT TCGAGATGAT ATATTCAAGT TTACCAAATG TTCAGTTAGT GTCGGTGTAT CACGAAACGT CATGCTTGCC AAGCTTGCCC TCAGAAAAGC AAAACCAAAT GGACAATTCT TTCTTTATGA GGGCGTTGAC GAATTTTTAG ACCTGATTTC TGTTAAATCT TTGCCCGGGA TTGGAAGGAG CATCCAAGAA CGGCTTGCTG ACGTTCTTAA TCAACCCAAA ACAATGGATA TTTATATCCG TGATTTAAAA GCTTTTTCAA AGACCAAATT GATTTCCATT TTAGGAGACA AGACAGGCGT TAAACTTTAT GAGTATGCAA GAGGAATTGA TGATACGAGC TTGGTAATCG ATACGAGTAA CCCGGAAGCC TTACTTGGTA GGAAATCTGT TTCTGTTGAC GTGAATTTCG GAATCAGATT TGATACTGTC TCTGAATTGG ACGATTTCTT GATCCGTATT GCAAAGGAAC TTTATTCAAG ATTAATTTCC TTGGGTGTAT GTGGTTCTAA CTTGACTCTT AAGCTTGCAA AGAGAGCACC TGGAGCAGCA GTCAACCCAG CAAAATATCT TGGAATGGGT TATTGTGACT TTGTAAATAA GTCGTCCCAT TTGGGAGTTC CTACCAACGA CTGGGGAATA ATCGGCTCAG AATTGAAGGC ATTATATCGT ATGGTAAATG TTCCCGTTAA AGAATTACGT GGAATTTCAA TTTCCTTAAC AAAATTGAGG GATGTCGAAA ATTTGAAAAG TTCAAAACAG ATGAAATTGC CGTTTAAGAA GACGAAGGAG CTTGTTAGAA CAGAATTCGG AGCATTCCTG AAATTGAAAC CTATCGATTC CATACAAATT GAAAGTGGAA GCAAACGCAA ATCAAACATT GCTGAAGGAA ATGTCAATAT ATCCGGGTAT CATGATTACT TCAACAAGGA ATCTGAAATT GATTGGGAAG TTCTTGATGC ACTACCATGG GATCTTCGAA GAGAAATTCA GAAAGAGCTT GAACGAAGAG GAATGATACC AGTCAGTCCA AGCAAAGCCC CTCCTGGAAC CAAAGCCTAT CTACAACAGT TGATCCCAAC ACAAATCGGC TCAACACCGA AATACGTTAG AGTTTTTGAA AAACCTCAGC TAAAGTCTCC CAGAAAACGA CAAAAATTGC ACTCAAAATC GCCACTGCCC AATAAGCAAG TCATGGTTGG AGAATCACAA TTTTACGATT GCTCAGTGAT CAATGAGCTT CCTTTAAATA TAAAGGCGGA GGTCTTGAAA GATATGAAAT ACAGGAAAAA AGTCAAAGAG TTTGACATGA CAGCACTTAA AGATAAGGTT TCCATGAAGT ATGAAAAATC AAAGGCTATG GTTGACGAGG TTTCCCTGGA ATGGATATCA CAGCAAAGAA CAATTCTTCA ACGACCAAAG TTTTTGAATG AAAAAGTATC GGTGCATCAA GTCAAATTAC AGCTTGATAA ATGGATTCAG CTGTCCTTGA TTCAGAAAGG TCCACATGTA GACGATGTAC ATGTTTTTGC TCTGTATTTG AAAGATCTAT CGAAACAGAA TGTAAATTCA AGTATGATCC TTATCAACCA TATCTGGAAA GTCTTAAAGT ACCATGAATC TATATTAGCA ATGTCAGTAT TGGTGGAATC AGATGAAGTT ATGTACATGA AGGAAGGTAT CGCAGAGTGG AAGTCATCAA TTGATGTGCA TTTACTTCCA ATCGTGGACA GCGATTTTGA TATATAG
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Protein sequence | MESTDESEDN LRESRQSPEV DQDFVAPPQR VSQIDLVTYL SFLRSLDDEH LIEHINSCSQ LKDHSQITAS IHDSKLIASS PRTNRVERQL SLDEHNFSSV STDPFDDDLD SQLLGASTPT RATANPNDDS ADAYPDDEQN NTVGEIHAFG DYATYFRTKH LKQQKEDEEY IKWDLKRRAQ LNGGRAVAVK PIFEGCIVYV NGHTNPSINE IHRLIIVHSG KFISYLSNKG AATHIICDRL TPKKKVEYRN YKVVRAQWVV DCVASNELLD WTQYRLILEI EYGQKRLQFG DSPTRHSGSD SVTPSNESDL ELANSMADNN EDPLLEELED DFIEPIEPSG SNDVGSKGEK KIMDAKHPEF LKHFFANSRL HHLSMWKADL KLRFLRRIVK ENKSGETKRT SQGIRVIFHV DFDCFFATAS CLNRPELDIN KDPIAVTHGG KSSDVASCNY VARNFGVKNG MWVSQAKKLC PNLIMLDYDY KRYESYSSEF YNYFLSYDIF DSIFPVLIDE VLIDASSHFA QNEENLVDMV NALSTRIRDD IFKFTKCSVS VGVSRNVMLA KLALRKAKPN GQFFLYEGVD EFLDLISVKS LPGIGRSIQE RLADVLNQPK TMDIYIRDLK AFSKTKLISI LGDKTGVKLY EYARGIDDTS LVIDTSNPEA LLGRKSVSVD VNFGIRFDTV SELDDFLIRI AKELYSRLIS LGVCGSNLTL KLAKRAPGAA VNPAKYLGMG YCDFVNKSSH LGVPTNDWGI IGSELKALYR MVNVPVKELR GISISLTKLR DVENLKSSKQ MKLPFKKTKE LVRTEFGAFL KLKPIDSIQI ESGSKRKSNI AEGNVNISGY HDYFNKESEI DWEVLDALPW DLRREIQKEL ERRGMIPVSP SKAPPGTKAY LQQLIPTQIG STPKYVRVFE KPQLKSPRKR QKLHSKSPLP NKQVMVGESQ FYDCSVINEL PLNIKAEVLK DMKYRKKVKE FDMTALKDKV SMKYEKSKAM VDEVSLEWIS QQRTILQRPK FLNEKVSVHQ VKLQLDKWIQ LSLIQKGPHV DDVHVFALYL KDLSKQNVNS SMILINHIWK VLKYHESILA MSVLVESDEV MYMKEGIAEW KSSIDVHLLP IVDSDFDI
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