| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | ANIA_03051 |
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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 | BN001306 |
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| Strand | - |
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| Start bp | 1945453 |
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| End bp | 1949036 |
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| Gene Length | 3584 bp |
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| Protein Length | 788 aa |
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| Translation table | |
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| GC content | 52% |
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| IMG OID | |
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| Product | conserved hypothetical protein |
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| Protein accession | CBF83498 |
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| Protein GI | 259486002 |
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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 | 24 |
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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 | 36 |
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| Fosmid unclonability p-value | 0.364354 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGCTCCGCT CGCTCCTCTC AATAACGGGT CTCCAACGCG ACGATTACAT CTTCCCGACC
GTCGATCCCA AACAAGATGG CCCCGACTGC AAGAAAGACT GCGCGGACTG CACACTGAAC
TTCCCAGACA AAGTAAAGGT CGAGACATCG CTACCGCTAT ACGGCCGTAT CAAGCAGTTC
CACACGCACG TCCTGGTCGC GACGGGGAGG TCCGACTGGA AGCAGCATGT CGAGCAAGAG
CGAGGAAGCC TGATGGAGGC CTTCGACGGT GTTTCATCGC AGCATGGGGT AAGTGCCAGA
ATAGGGTCTT ACCTGCGCAG TAGCTGATCA GGGGACGCTT CAGCGCATGA TGGTCTCCGC
GTCGAACCTG AAGCCTCCAG AAGACGATGG AGAAGGGACT GCGAGAGGAA ACGGGACCAC
CATCCTTCTT CTTCCATCTT TCACCTTTGT CGACGGAGTG GATCCCAGCG ACGTCCGAGA
GGTCGTCAGC CACTTCATCG ACACTCCGCT GTCACAGCAC TCAAAAACAA ACACATCACC
CAATGTTCGG TTAAAATCCC GACCCTGCGA GTATGACTAT GTCGTGCTCC TCTGCTCTCA
CAAGCGACGC GATGCACGAT GCGGCATTAC AGCGCCCCTA ATCAAGCGCG AGCTCGAACG
CCATCTCCGG CCACGTGGTT TGTACCGCGA CGCCGATGAC GAGCGTCCTG GTGGGGTTGG
GATCTTCTTT GTCTCCCATG TCGGCGGGCA CAAGTTCTCG GCGAACGTGC TGGTCTACCG
CAAGAAGGAG CAGCAGATGA TCTGGCTAGC GAGAGTCCGG CCTGAGCACT GTGAGGGCAT
CGTCAACTAT ACGCTTCTGC AGGGGAAAGT CGTACACCCG GATTTTCAGC TGCGCGGCGG
CTTTGACCGG TTGAAGGGGT TGACGAGTTG GTAAATAGAA GGGCATTGTT TACTGTATTG
GATACCCAGC ATAATAGACA TCATTAGGTC ACGTCATCAT CCCGTGTCAG ATTTTTCTCT
CTAAAATAGA GATGTATCGA GGTTCATGCC AGGAGAGTTG CATGAAGATC GAAAGAATGC
TCGGGCTGCA TAGACTTGCT GCGTGGATTG GCGACTGACG ACATCGTAAG CTCATAAGCC
CGCACAGCTA TCCACGCTTC AAAAATTCCA TTCGAATTCC CGATTCATTG AAAATGGAAT
GAGTTTTACA GTTTCATACC TAATAGTGCT GGTACCAGCT AGGTGCTGCG TATAGTACAC
GATTAGACAT CTCGGCTTTT TCTTTCCATA TCGGGCATAA CGGCGGAGAT AAGGGCTCTC
ACTCGACGAC TCTCAATCTT CCATCTGACT GACATCCACT ATTCTGACTC TATATCAGAC
ACATTACTTG ATGGAGTTGG TTATCCTCAA GCCAGGAAAG CAACGCAGGC GGCCAAAGGT
ATCGTGTATG CCTTGCCGCA CTCGCAAGAT CAAATGCAAT CGAGAAAGAT CCTGCAGTAA
CTGCCTACGC TCTAGGACCG GGACTTGTCT ATGAGACCCT CGGCCACTCT TCATTCTCTT
TCAATCAGCA ACTCACACCT TCACCTGAGT CGTCGAAATC TGCAACCGGT GCATCCGGTA
TATCCAGCCA CGTATCCTCT TTGGCGGCCG AGCCCAGCCC AGACAATGAG ACGAGCAGGT
TAAAACTCAG GATCCAGTAC CTCGAAAGCC AGATCGCGAG TGCTACTCCT TTCGCCCGTG
ATGTACAGCC AGAATGCAGC ATCGAGGCAA CGAGCTCTCA CCTAAGTGGG ACATTCCACC
TCCATTACAA GAGACATCCC GAACATGCGG AGCCTATCGC TCGTGGGTTC AGCCTCAAGA
CACGCCTACT GGGTCAGAGT CACTGGGTAG TCAGCATCGC CTATCTGGCT CGTGACTTGT
TCAAGTCCAT CGAGCCCTGC ATGCAAGAGT TATCGGACGC CTGGATCGGC CTGCTCAAAG
CACAGCCGGC ATCTTCCTGG CCCCTACTGG CGTCTGAGTT GCCCTTGCGA GATATTTGCG
ATACACTATC TAACCATTAC TTGCAGAGAA CCGAGTCATT TTATCGGATT CTGCATATTC
CTAGCTTTTG CAGAGAATAT GAGAAGTTCT GGGAGCCTGG AGCAGTGCGA AACCCGGCTT
TCATGGTCCA GCTCAAGCTG GTACTTGGCA TTGGTGCAGT CACATACGAG GACCAATTCT
AGTTGCGGAC TTTAGCCATC CAGTGGATAT ACGAGGCCCA GATCTGATGG CCGGACCACA
AAGTACAAAG CGAGGCTAAG TATTGAGGCT ATTCAGACGA ACCTGCTTCT CGTGATCGCA
CAAGAGCAAC TGCGTGTTGG TGGGGAGATA GCCTGGGTTT CCGCCAGGGC TCTGCTCAGG
AAGCAATCTA CATGGGTCTC CATCGCAACC CAAGCCATCT CCTGCAGAGG TCGATATTCG
CCGCTGAGAT GCACCGAAGG TTATGAAAAA CGATCATGGA AGTGAATCTT CAACTTAGTT
TACCTTGCGG CGGCGCCCCT CTGATCTCTC TCGACGACTT TGATACAAGC CCTCCCAAGA
ACTTTGACGA TGAGCAGCTC GAGACTGGTG ACCCATCACC GAAGCCTCAA GCCGAAATGA
CACAAGTATC CGTGGCAATA GTACTGCGCA GGACCCTACC CCAGCGTCTA GCAGTCGTCA
AGTTACTCAA CGACCTTTAT ACCCTGGGAT CATATAAGCA GACACTCCGG CTCGATGCTG
AACTGCGAGC AGCGTATAGA GAGCTTTGCC AGAGTCTGTG AACATGCAGT GACCCAAAGC
CCTATCCGCT AACCCTGCAG TATGGAACCG AGATTATTGA CTTCCTCATG CAGCGCTACT
TCCTGCTCTC CATGCACCGT AATTCAGCCG TCACTACACG GGACAGCCTA CTCTTTCTCT
CGAAAAGCAG TAGTCGATGC TTCGCTGAGA ATATGGAGAG CCGCTTGCCC TCGTCTACCT
GTTTGTTCTA GCAGTAACGC TGATACTGGT ACCACACCCA ACGACAGCGG TTAACACGCT
TATTAGCATG CAGCTCCGGT TTCTATCCGG CAGCTGTAAG TCACGCAGCA GTCATGGTTG
CTATGGAACT CCGAGCGCAG CTGCAAGAAG ACGCTGGTCT GAACCCTGTT CCGCTACGCT
CAGATCTCCT TTCTGTGCTG AACGATGTGA AGTCGCGGTG TCTGAGAGTT ATAGAAGCTG
GCGAGACAAA TATCAAGGGT AATCTGTTGT GGCGCAGGTG AGAGGATTGA TGGATGGGCC
TAAGGATGGT GGGGACCAAA TGAAGGAAGC GCTAGTCCTC GCAGTGGAAG AGGCTTGGAA
GGCGTGCCTA CCAATTCTGA AAAGGATGGC AGGAGCTTAT GACCAGGATA GAGATCTCGG
GGCAGAGGTG GTCAGTAATA TACCAATGGA TATAATAGAT AACTGGGACT TCATGGTAAG
TGACTATAAT AAGCTCATGA GGCAATAACT AACGCATTTG CAAGGCATCG GATCTAGCAG
CATCTGCTCT TCTTGACGCT ACGAACCCAA TGAGCTGGAT ATGA
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| Protein sequence | MLRSLLSITG LQRDDYIFPT VDPKQDGPDC KKDCADCTLN FPDKVKVETS LPLYGRIKQF
HTHVLVATGR SDWKQHVEQE RGSLMEAFDG GLTCAVADQG TLQRMMVSAS NLKPPEDDGE
GTARGNGTTI LLLPSFTFVD GVDPSDVREV VSHFIDTPLS QHSKTNTSPN VRLKSRPCEY
DYVVLLCSHK RRDARCGITA PLIKRELERH LRPRGLYRDA DDERPGGVGI FFVSHVGGHK
FSANVLVYRK KEQQMIWLAR VRPEHCEGIV NYTLLQGKVV HPDFQLRGGF DRLKGLTSCW
LSSSQESNAG GQRYRVCLAA LARSNAIEKD PAVTAYALGP GLVYETLGHS SFSFNQQLTP
SPESSKSATG ASGISSHVSS LAAEPSPDNE TSRLKLRIQY LESQIASATP FARDVQPECS
IEATSSHLSG TFHLHYKRHP EHAEPIARGF SLKTRLLGQS HWVVSIAYLA RDLFKSIEPC
MQELSDAWIG LLKAQPASSW PLLASELPLR DICDTLSNHY LQRTESFYRI LHIPSFCREY
EKFWEPGAVR NPAFMVQLKL GSAQEAIYMG LHRNPSHLLQ RSIFAAEMHR SLPCGGAPLI
SLDDFDTSPP KNFDDEQLET GDPSPKPQAE MTQVSVAIVL RRTLPQRLAV VKLLNDLYTL
GSYKQTLRLD AELRAAYREL CQTVMVAMEL RAQLQEDAGL NPVPLRSDLL SVLNDVKSRC
LRVIEAGETN IKGNLLWRRM AGAYDQDRDL GAEVVSNIPM DIIDNWDFMA SDLAASALLD
ATNPMSWI
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