Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | ANIA_08085 |
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 | 701771 |
End bp | 705417 |
Gene Length | 3647 bp |
Protein Length | 1021 aa |
Translation table | |
GC content | 47% |
IMG OID | |
Product | conserved hypothetical protein |
Protein accession | CBF73854 |
Protein GI | 259480844 |
COG category | |
COG ID | |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 10 |
Plasmid unclonability p-value | 0.130443 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 49 |
Fosmid unclonability p-value | 1 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGTCTCTTC AGGTTGCTGC AGATAGTGGA GATCTAGAGA CCGTGAAGTT GCTTCTGGAC CATGGAGCAG ATGCCAACAT CCAGGCTGGT GAACATGGAA CTGCTCTCCA GGCTGCTGCA CACCAGGGAT ATCAAGATAT TATAAAGTTG CTTCTGGACC ATGGAGCAGA TGCCAACATT CAGGGTGGCA ATTATGGAAC AGCTCTACAG GCTGCTGCCT TTAGTGGAGA TCAAGCGATT GTGAAGTTGC TTCTTGACAG CGGAGCAGAT ATCAATAGCC AGGGTGGCTA TTATGGAAAT GCTCTCCAGG CTGCTGCATA TAAAGGACAC CAGGAGATCG TGAAGCTGCT TCTAGACCAA GGAGCTGAAA TCAATATCCA GGGTGGCCAT TATGGAACCG CTCTCCAAGC TGCTGCATAC CAGGAACATC AAGATATTGT GGAGCTGCTT CTGGACCATG GAGCAGATGT CAACATTCAG GGTGGCAATT ATGGAACAGC TCTACAGGCT GCTTCTTTTA GTGGAGATCC AGCAATTATG AAGCTGCTTC TAGACCGGGG AGCTGAAATC AATATCCAGG GTGGCCATTA TGGGACTGCC CTCCAGGCTG CGGCTGCTTC CTTTATAGGA CACCAGGAGA TTGTGAAGCT GCTTCTAGAC CAAGGAGCTG AAATCAATAG CCAGGGGGGT TATTATGGAA CCGCCCTCCA GGCTGCTGCA TATAAAGGAT ACGAGGAGAT CGTGAAGCTG CTTCTTGACC AGGGAGCTGA AATCAATAGC CAAGGCGGCT ATTATGGAAC TGCTCTCCAG GCTTCTGCCT TTAGTGGAGA TCAAGCGATT GTGAAGCTGC TTCTGGACCA TGGAGCAGAT ATCAACATCC AGGGTGGCAA TTATGGAACA GCTCTACAGG CTGCTTCCTT TAGTGGAGAT CAAACAATTG TGAAGCTGCT TCTAGACCGA CGAGCGGAAA TCAATAGCCA GGGTGGCTAT TATGGAAATG CTCTTCAGGC TGCGGCTGCT TCATTTATAG GACACCAGGA GATTGTGAAG CTACTTCTAG ACCGGGGAGC TGAAATCAAT AGCCGAGGGG GCTATTATGG AACCGCCCTC CAGGCTGCGG CATATGAAGG ATACCAGGAG ATTGTGAAGC TGCTTCTTGA CCAGGGAGCT GAAATCAATA TCCAGGGTGG TCATTATGGG ACTGCCCTCC AGGCTGCGGC TGCTTCCTTT ATAGGACACA AGGAGATCGT GAAGCTGCTT CTAGACCGGG GAGCTGAAAT CAATAGCCGA GGGGGCTATT ATGGAACCGC CCTCCAGGCT GCGGCATATG AAGGATACCA GGAGATTGTG AAGCTGCTTC TTGACCAGGG AGCAGATATC AATATCCAAG GTGGTAAACA TGGAAATGCT CTTCAGGCTG CTGTGATTGG GCAAAAACAC CAGACTGCAA AACTACTTCT TAACAGGGGA GCAGATGTCC AATATTCAGT GGCAGGGGCG TTTGATGTAC CATTACTGCA TGCTCCAGTT GAATCTCGCA ATCAAACCTT GCTTGAGTTG CTTCTTGTGC CAGCCGCTGC AGCTCTTGTA AATGCACCTG ACTTCCTTGG CCGAACCCCT ATTCATTTGG CCGCTACTAA CGGGGACATT GGTATGCTTC AAACTCTCTG GAATTTCAGT CCGGACTTGA TTGACCTCAA CTGTCAAGAC ATTGATGGAT TCACGCCACT CCATTGTGCT GTCAAGAACC ACACTTCCGA AGCTGTGAAG TGGCTTATCA AGCAAGGGGC TATGGTAGAG GCCAAAGATT TTACCATGAC AACGCCGCTT CAACTGGCAT CTCAACTAAG GAATTTTGGG ATCTTTTGCC GCCTTCTTTC CGAGGTGACT GAGGTTAAGA TGAGCGCCTC AGAATTGCGG GAATATTTCT CCAGATTCAG AAGAAAACAA ATACTTCTCT ATCGCAATAT GAGAGATGAG AATTCTATCC AAGCTATGGA CTACCAAGAG GTGGTTCGAT ATTTTGACGC CCTGTCATAT CAATTAGGGC TTTCAACTTC TGATGTAGAG GAGAGATATG CAGAATGTAT CACAACTCTC CCTGTGCAAC AGTCAATTGT GTAAGTCAAG ATATTAGGAC ATGAATTTGT ACTGATACTT TCTAGGATCT TCGACAGAAA AGCAATCCCC GGTAAGAATT CAGTTGTTGA AAACTCTCCT GTCGGAGTGT ACTACTTTTG GTGGCGCAAA ACAAAGCGTA AAGAGAGAGA TTGGCCGAAT AATAGTGATA TATTGATTTG GAAAATACAA TCAAGATCAA TGCCAAGCCC CGCTGCTGTC AGACAGCCAC ACCAGACAGA ATGTTTGTTA GCCAATTTGG ATTCTGTCCT GGTTCTCGTT TTGTTCCGTT CTATAATGAC ATGCTCATAG GCTTTCTTGA ATGTCACATG GTGCTCCCTG TGTACCTGCC CAACGACATC ACGTCCTCTG AGAATACGTC CTTTGCGATC CCATCTTCTA AGCATGTCAT TACTTGGATT ATGGTCAAGA ACGCCAAAGA TAAGACAGAG CCGCAGGAAC AGCAGAGTCT GAGACCGAAG ATATTTCTCA GCACTCTTGA ATATGCTGAG ATTCCTAGAT CCGAATTGGA GCTGTTAAAT TATTGTCTTC AACAGCTTGA GCAAGAATGG AGTAGCATAT GCCGTGCCGC AGAAGACCAC CTCGCGCAGA TGGTTGGTGA ATTGACATAT AAATCCATCT TACTACCTTG CTAATCTACT CTTAGCATGA AGAAACACTG GATAAGAGCG GTCAAAATCC GAAAATCATC AAGCAGCATT TAAGTGATGC AAGAACATGG GCTAGTTTAG AAGCAACTCG ATCACAACAG GCTATGATCC TTCAAGAGCT TTGCAAGACT TATAACACAT CTGCGTGGCC CTATCTACAA GATTCTTGGA GTGATCAAGA CAGATTCAAG TTTCAAAAGG ACATAGAAGG AACGTATGAC AGGATCAGGA TGCAGATCGC GCAACTAAAA CAGAAATCCC GGGAACTTAT TTATCTGGTA ACTCAAACCC TCACTCTTAT GCCTACCTTG GGAGCTAATA ATTTGGCCAG GAATTTAGCC TGACATCAAT CGCCGAGGCT CAGAAGTCTA CATCCATGAA TCGCAGTATG AAGCGCCTTA GTTGGATTAC TGTAAGACCG CCCTCTGGTT CATCTTGCTT CGCTTTCTAA TAGAGCCGAC AGTTTGTGTT TCTCCCGCTG ATGTTTGTTG CGGTATTATC TCACCGTAGG CGGCTTTCAA TTGATATGAG CTGACTTTCG GTCCAGACTA TTTTTGGAAT GAACGTGGAT CTTCTTGAGT CTAATCCTGC TTGGTGGTTA TACATGTTCT TCGCACTCGG CACCGCTGCT GTGACGATTT CTGTGTGGAT ACTCTTCAAG AGGAACCCAA AGGTATGGTG TGACTTGAAA ACCATGATCG AATCTCGGCT GACATTTGGT GCTTTTAGTT AGATAGCGTA GAAAGCCACT TTCAATGGTT ACTCCGCAAG CAAAAACTTC GGGATGAAGA GTTAGGTATT GCGGAGAGGA GAAGGAGAAC CAGGCAATTC CCAGGTTCTG GGAAAAAGCG GTCATGA
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Protein sequence | MSLQVAADSG DLETVKLLLD HGADANIQAG EHGTALQAAA HQGYQDIIKL LLDHGADANI QGGNYGTALQ AAAFSGDQAI VKLLLDSGAD INSQGGYYGN ALQAAAYKGH QEIVKLLLDQ GAEINIQGGH YGTALQAAAY QEHQDIVELL LDHGADVNIQ GGNYGTALQA ASFSGDPAIM KLLLDRGAEI NIQGGHYGTA LQAAAASFIG HQEIVKLLLD QGAEINSQGG YYGTALQAAA YKGYEEIVKL LLDQGAEINS QGGYYGTALQ ASAFSGDQAI VKLLLDHGAD INIQGGNYGT ALQAASFSGD QTIVKLLLDR RAEINSQGGY YGNALQAAAA SFIGHQEIVK LLLDRGAEIN SRGGYYGTAL QAAAYEGYQE IVKLLLDQGA EINIQGGHYG TALQAAAASF IGHKEIVKLL LDRGAEINSR GGYYGTALQA AAYEGYQEIV KLLLDQGADI NIQGGKHGNA LQAAVIGQKH QTAKLLLNRG ADVQYSVAGA FDVPLLHAPV ESRNQTLLEL LLVPAAAALV NAPDFLGRTP IHLAATNGDI GMLQTLWNFS PDLIDLNCQD IDGFTPLHCA VKNHTSEAVK WLIKQGAMVE AKDFTMTTPL QLASQLRNFG IFCRLLSEVT EVKMSASELR EYFSRFRRKQ ILLYRNMRDE NSIQAMDYQE VVRYFDALSY QLGLSTSDVE ERYAECITTL PVQQSIVIFD RKAIPGFLEC HMVLPVYLPN DITSSENTSF AIPSSKHVIT WIMVKNAKDK TEPQEQQSLR PKIFLSTLEY AEIPRSELEL LNYCLQQLEQ EWSSICRAAE DHLAQMHEET LDKSGQNPKI IKQHLSDART WASLEATRSQ QAMILQELCK TYNTSAWPYL QDSWSDQDRF KFQKDIEGTY DRIRMQIAQL KQKSRELIYL EFSLTSIAEA QKSTSMNRSM KRLSWITTIF GMNVDLLESN PAWWLYMFFA LGTAAVTISV WILFKRNPKL DSVESHFQWL LRKQKLRDEE LGIAERRRRT RQFPGSGKKR S
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