| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | ANIA_04272 |
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| Symbol | |
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| ID | 0 |
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| Type | CDS |
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| Is gene spliced | Yes |
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| Is pseudo gene | No |
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| Organism name | Aspergillus nidulans FGSC A4 |
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| Kingdom | Eukaryota |
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| Replicon accession | BN001302 |
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| Strand | - |
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| Start bp | 1497542 |
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| End bp | 1500994 |
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| Gene Length | 3453 bp |
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| Protein Length | 849 aa |
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| Translation table | |
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| GC content | 48% |
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| IMG OID | |
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| Product | DNA excision repair protein Rad16, putative (AFU_orthologue; AFUA_7G03820) |
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| Protein accession | CBF74347 |
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| Protein GI | 259481113 |
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| COG category | |
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| COG ID | |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 17 |
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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 | 24 |
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| Fosmid unclonability p-value | 0.00313474 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | decreased coverage |
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Sequence |
| Gene sequence | ATGGGAAGGA AGAAGTCGGA CACTAATAAG GACTCTGCTG CGTTCATTGG TACGACTAGA
GGCAATCAGC TTGATAACCA CAGCAAGCTC TCTTTTGTGA ATGACGAATA CTGAAGCTGA
CCGTTTGAAA CGCAGTTCCA GGCTCCTGCT CTTCTACCTC TTCCAGACGT ACCTCCTTAC
GACTAGCTCA AGCGTCATCC GCCGAGAAAT TGGAGATACA GCACGAAATT TCCGAGACGC
AGGATGAGTC AAAGTCCTCG GGCCTATCAA AAACTCGTCG AGGTATGAGG TTGGCGAAGC
TCGAAGTAAC CATACCATTG AAACCGACTC CATGTCGTTC GCCCTCCTCC GTTGCCGCCG
ACGACACATC TGCTGATGGA ATAAATGGGT ACGATACGCC AGCCACAAGT GTCGCTGTAA
CACCGGCGGC GTCTGACATA GGCCCCTCCA AGAAGCGAGT CAGTGCTTCT GTTCGAGCTA
GGGAATTGCG TTCAGGCAAT ATGTTCCTGG GTGGACCTAA GGGATCGAAG AGATCGCTTG
CTACGGAAAC AGATAATCAC TTCGATGCTG AGATAGCTGA GAGTGCTGAT GCGATTTTGG
CCAGGGACTT ACAGCTCCAA GAATATCAAC AGAACCCTCT CAAACGACGA ATGACCTCTA
ATGATGTTTT CCGAAGAATT GATGGTTTCG TCGATTCCCC TAGTATCTTA ACGGAACTGG
GTGACAACGC CAGGGATGAT GGATCCCTTG GGAAAAAATC GCAAGAGATA TCCCCTGAGC
GTAAACTCAG GACGTCTCGT CGCTCAAATG TCAAGCTCGT CATGTCAGAT AGTGACGATA
CTATGGACAT CGATGGGTCT GATTATGAAA CGGATTCTGA CTTAAGCGAT GTATCCTCTA
CTGCAAGCGA CTACCAACCA CTGATTGTGC AGCGAACGTC ACAGGTGAAT AGTGTAAGGA
ATCAGGGACT TTCGTCTCAG AGACAACGAC CTGTCACGGC GGCGAGTGCG CTTGCAGCTG
GGATGAGCTT TCGTGTAAGT CATACGGGAC TTACTATTGA CTCACTTGGC TAATTGTAAG
CCCAGGCTCG TAGGGAGCGA CAAAAGCTTG AGAAGCAACA CCCTAGTATT ATAACAATGT
GGGATGATTT AAAGAATGAT CCTCCAATTA CGCCTGTGCC AGCAGCGCAG CCTACGGGTA
TATCTAGGAC GCTCAAACGG TTTCAACTCG AAGGCCTCAA TTGGATGATG CGACAAGAAA
AGACACAGTA TAAGGGCGGG CTGTTGGGTG ATGAAATGGG AATGGGCAAG ACGATTCAAG
CAGTGTCACT TCTAATGTCG GATTACCCGG CAGGGAGGCC GTCGCTGGTT GTTGTTCCCC
CAGTTGCTCT AATGCAGTGG CAATCGGAAA TCCAGGTTTG TTGAACTAAT CAGAATGCTG
ATTCGTTCTC TGACCTCCTA TAATAGGAAT ATACAGATGG GAAGCTCAAA GTTCTCGTCT
ACCACAATAC CAACACCAAG GTAAAGGGTA TGAGGAAGAG AGACCTTGAA GAGTTCGATG
TGATTATGAT ATCCTGTGCG TATTCGTCAT CTAATATATT TTAGTGCTTT ATCTGATTTA
CATCTAGATT CTGGCCTTGA GTCAATCCAT CGAAAAGAAT GGAAAGGTTG GAATCGCAAT
GATGGCATTG TTAAAGAAGA CAGTAAGCAT TATACTCTTC AACTCACGCT ATTATTGCTA
ATGATTACTA GGTGTCATTC ATTCCATTCA TTATCACAGG CTCATCCTTG ACGAAGCTCA
CAGTATCAAG GTATATCTCG TTCATCATTA CTGGTTTCAT GATGCTGACT CTAGCAGCAA
CGTACCACCG GGGTTGCGCG CGCCTGTTTC GCACTTAAGT CCAACTACAA ATGGTGTCTT
TCTGGCACTC CTGTTCAAAA TCGGATTGGG GAATTCTTCT CATTATTGCG GTTCTTAGAG
GTCCGGCCAT TTGCCTGCTA TTTTTGTAAG CAATGCAAAT GCCAGGAGCT TCACTGGTCA
CAGGATACAG AGAAGCGGTG CACGAAATGC AAGCATAGGT ACTGTACAGT CCTTCTACTC
AGTCTCACGT CAAATCCCCA TATTGACCGT TCTATAGTGG ATTCAGTCAT GTATCAGTTT
TCAACCAGGA AATATTGAAC CCGAGTAAGC ACACATACGG CAAATTCTCG TTTTGGCTTG
ATTAACACAT GCAGTCACGG AACGAGACGA CCCAGAGGCG CGGAAGGCAG CATTGGCAAA
GCTGCGGCTA ATCACGGATA GGATCATGCT CCGACGAGTC AAACGAGACC ACACAGCCTC
AATGGAACTA CCTCCCAAGC GGTGAGTATG TCCGGAGCAT AGAGGATGGA TTGATTTCTA
ACCCAAGTCA GTGTCATCAT ACATAACGAA TTCTTTGGAG AGATCGAACG CGACTTTTCT
ACCAGCATCA TGACCAACTC TACTAGGCAG TTCGACACCT ACGTGAGCCG CGGTGTAATG
TTGAACAATT ACGCTAATAT CTTTGGACTC ATTATGCAAA TGCGGCAAGT TGCGAACCAT
CCCGATCTAA TTCTGAAGAA GCATGCCGAG GGCGGGCAAA ACGTTCTCGT TTGCTGCATC
TGTGATGAAC CGGCGGAGGA AGCGATCCGA TCACGGTGCC GTCATGACTT TTGTCGGCGC
TGTGTCAAAG ATTATATCCG GTCATTTGAT GCAGGTGCCG TAGTTGACTG CCCGCGATGC
CATATACCCC TCTCGATTGA CCTCGACCAG CCGGATCTTG AACAACATGA AGATTATATC
AAAAAGAACT CCATCGTCAA CAGGATACGA ATGGAGGATT GGACTTCGTC GACCAAAATA
GAAATGCTTG TCTACGAGCT CTACAAACTA CGCAGCAAGA AGCAGACGCT CAAGTCCATC
GTTTTTTCAC AGTTCACCTC GATGTTGCAA CTCGTGGAAT GGCGCCTGCG TAGAGCTGGC
TTTAATACAG TCATGCTTGA TGGAACCATG TCACCTGCAC AGCGCCAGAA GTCGATCGAT
TATTTCATGA ATAATGTTAA TGTCGAGGTG TTCCTCGTAT CGCTCAAGGC AGGCGGCGTA
GCCTTGAACC TGACGGAGGC GTCAAGGGTT TTCATCGTGG ATCCGTAAGT GTCCGCTCCG
TAGCCATGTA TAAACTGGAC TTTTACTGAC ATTATTTCAA GGTGGTGGAA TCCTGCAGCT
GAGTGGCAGA GCGCCGACCG ATGCCACCGG ATTGGTCAAC GCCGACCCTG TGTCATCACG
CGGCTATGCA TTGAAGATTC AGTGGAGTCT CGCATTGTCA TGCTCCAGGA AAAGAAAGCG
AACATGATTA ATGGCACCAT CAACAAGGAT CAAGGGGAAG CGCTTGAGAA ACTCACCCCG
GAGGATATGC AGTTCTTGTT CCGGGGATCG TAG
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| Protein sequence | MGRKKSDTNK DSAAFIVPGS CSSTSSRRTS LRLAQASSAE KLEIQHEISE TQDESKSSGL
SKTRRGMRLA KLEVTIPLKP TPCRSPSSVA ADDTSADGIN GYDTPATSVA VTPAASDIGP
SKKRVSASVR ARELRSGNMF LGGPKGSKRS LATETDNHFD AEIAESADAI LARDLQLQEY
QQNPLKRRMT SNDVFRRIDG FVDSPSILTE LGDNARDDGS LGKKSQEISP ERKLRTSRRS
NVKLVMSDSD DTMDIDGSDY ETDSDLSDVS STASDYQPLI VQRTSQVNSV RNQGLSSQRQ
RPVTAASALA AGMSFRARRE RQKLEKQHPS IITMWDDLKN DPPITPVPAA QPTGISRTLK
RFQLEGLNWM MRQEKTQYKG GLLGDEMGMG KTIQAVSLLM SDYPAGRPSL VVVPPVALMQ
WQSEIQEYTD GKLKVLVYHN TNTKILALSQ SIEKNGKVGI AMMALLKKTV SFIPFIITGS
SLTKLTVSSG FSHVSVFNQE ILNPITERDD PEARKAALAK LRLITDRIML RRVKRDHTAS
MELPPKRQFD TYVSRGVMLN NYANIFGLIM QMRQVANHPD LILKKHAEGG QNVLVCCICD
EPAEEAIRSR CRHDFCRRCV KDYIRSFDAG AVVDCPRCHI PLSIDLDQPD LEQHEDYIKK
NSIVNRIRME DWTSSTKIEM LVYELYKLRS KKQTLKSIVF SQFTSMLQLV EWRLRRAGFN
TVMLDGTMSP AQRQKSIDYF MNNVNVEVFL VSLKAGGVAL NLTEASRVFI VDPWWNPAAE
WQSADRCHRI GQRRPCVITR LCIEDSVESR IVMLQEKKAN MINGTINKDQ GEALEKLTPE
DMQFLFRGS
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