Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | ANIA_04272 |
Symbol | |
ID | 0 |
Type | CDS |
Is gene spliced | Yes |
Is pseudo gene | No |
Organism name | Aspergillus nidulans FGSC A4 |
Kingdom | Eukaryota |
Replicon accession | BN001302 |
Strand | - |
Start bp | 1497542 |
End bp | 1500994 |
Gene Length | 3453 bp |
Protein Length | 849 aa |
Translation table | |
GC content | 48% |
IMG OID | |
Product | DNA excision repair protein Rad16, putative (AFU_orthologue; AFUA_7G03820) |
Protein accession | CBF74347 |
Protein GI | 259481113 |
COG category | |
COG ID | |
TIGRFAM ID | |
|
|
Plasmid Coverage information |
Num covering plasmid clones | 17 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
| |
Fosmid Coverage information |
Num covering fosmid clones | 24 |
Fosmid unclonability p-value | 0.00313474 |
Fosmid Hitchhiker | No |
Fosmid clonability | decreased coverage |
| |
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
|
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
|
| |