Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | ANIA_10769 |
Symbol | |
ID | 0 |
Type | CDS |
Is gene spliced | Yes |
Is pseudo gene | No |
Organism name | Aspergillus nidulans FGSC A4 |
Kingdom | Eukaryota |
Replicon accession | BN001301 |
Strand | + |
Start bp | 1318927 |
End bp | 1322470 |
Gene Length | 3544 bp |
Protein Length | 1100 aa |
Translation table | |
GC content | 52% |
IMG OID | |
Product | DUF814 domain protein, putative (AFU_orthologue; AFUA_2G09170) |
Protein accession | CBF70228 |
Protein GI | 259479735 |
COG category | |
COG ID | |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 9 |
Plasmid unclonability p-value | 0.0496389 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 42 |
Fosmid unclonability p-value | 1 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGAAGCAGA GATACTCTTC TCTGGATGTT CAGGTAAGCG CTTGCTAGAA ACATTCGAAA CAATGTTCCC TAATTATGAC ACCTGCAGGT AATATCCAAA GAACTGGCCT CAGAACTAGT TGGCCTTCGC GTGTCGAACA TCTATGACCT TTCAACAGTA TGTTGCATAA ACAAATCTGT CCCTATTGCG AATAATGACC CCTTTTCCTA CCTAGAGAAT CTTCCTGTTC AAAGTCGCCA AACCCGACCA CCGCAAACAA CTGATCGTTG ACTCTGGTTT CCGCTGCCAT GTGACTCAAT ACTCGCGAGC AACAGCAGCA ACGCCCTCCG GCTTCGTGAG CCGCCTTCGC AAATACCTCA AATCCCGCCG CATCACTTCA GTAACCCAAA TCGGCACTGA CCGCATCATC GACTTCAGCT TCAGCGATGG CATGTATCAC ATGTTGCTCG AGTTCTTCGC AAGCGGGAAC ATCATTATCA CCGACCGAGA CTACACAATT ATCGCGCTTC TTCGTCAGGT ACCAGGTGGT GAGGGAATGG AGGAAGCAAA GGTCGGTTTG AAGTACACCG TGACGAACAA GCAGAACTAC AGCGGCATTC CGCCGATCAC GCGAGACCGA ATTCGAGAGA CGCTGGAGAA AGCGAAGGCT CTTTTCGCGC AGGAAAACGA CGCGCCCAAG AAGTCGAAGA AAAAGAGTAC AGACGTTCTG CGTAGGGCTC TATCCCAGGG ATTCCCAGAA TACCCACCGC TCCTACTGGA TCATGCCTTT GCAACTCGAG CCGCTGACCC CGCAATGCCG CTCGATCAGG TCCTGGGCGA TGCGGGTCTT ATTGATGTGG TCTTAGGTGT TCTAGAGGAG GCACAGAACG TAACCAAGGA TTTGTCTGCG GATAAAGCAC ATCCTGGGTT TATTGTTGCG AAGGAAGATA CACGTCCAAA GCCGCCAGGA CCGGAGTCTG AAAAAAACGA CTCGCCCTCG AAGCCTGCTC TACTCTACGA AGATTTCCAT CCATTCAAGC CGCGACAGTT TGAAGGAAAG GACGGTTTCA CCATTTTGGA ATACCCTTCT ATGAATGCGA CGGTCGACGA ATATTTCTCA TCCATCGAGT CCCAGAAACT AGAATCACGA TTGACGGAAC GGGAGAGTGC GGCCAAGAAA AAGCTCGATT CGCTGAGGAG TGAACATGAA AAGCGCATTG GGGCTCTTGA GCAAGCCCAA GAGTTGCATA TTCGGAAGGC AAGCGCTATC CAGGACAATA TGGATCGTGT GCAAGAGGCA ATGGATGCTG TCAACGGATT AGTTGCGCAA GGCATGGACT GGGTTGAAAT TGCGCGTTTG GTAGAGATGG AGCAGAAACG CGGAAACCCA GTCGCAAGTC TAATCAAATT GCCGCTGAAA CTCCACGAGA ACACAATTAC GCTTTTACTC AGGGAGGCTG GAGATGAAGG ATATGAGGTA GAGGAGCTTT TCTCAAGCGA CGAGTCTGAA GATTCTGATG AGGAGGAAGG GAAGGGAGCA GCAAGCCCGC AGAAGAAACC CGAAGGTTTG ACGATAGATA TCGATCTCGG CCTTAGCCCT TGGGCCAACG CTTCACAATA CTACGAGCAG AAGAAGGTGG CTGCGGTCAA GGCTGAGAAA ACATCACAAT CTTCTGCAAA GGCGCTAAAG AGCCACGAAA GGAAAGTTCA GGATGATCTC AAGCGTAATC TGAAGCAGGA GAAGCAGGTC CTGCGACCTG CTAGGAAGCC TTTCTGGTTC GAGAAATTCC TCTTTTTCGT CTCTTCGGAA GGATATCTAG TTCTTGGGTT AGTGTTTATC TCCTCGACAA AATGTGGATG CTAATAGTAA CGTATTCAGT GGTCGCGACT CTATGCAAAG CGAAATGCTC TACCGTCGAT ATCTCCGGAA GGGGGACGTA TTCGTACACG CCGACCTGGA GGGCGCCACG CCAATGATAG TCAAGAACAA ACCAGGAGCG TTGAGCTCTT CCATATCCCC AACGACCCTA TCACAGGCGG GCAATCTTTG TGTTGCGACT TCGACGGCGT GGGACTCGAA AGCAATTATG TCCGCATACT GGGTTGATGC GGCCCAGGTA TCCAAGACTT CTGCTGTCGG CGACCTTCTA CCTGTTGGCG AATTTCTTGT CAAAGGGGAA AAGAATTTCC TTGCCCCGTC ACAGCTAGTT CTGGGCTTTG CTGTAATGTG GCAAATTAGC AAGGGAAGCC TCGTCAACCA TAAGAGCTTT AGATCTGAAG AAGCACTTGT TTCGCAAGCT CGGGTGACAG GCGAGGATAA TATTGCTAAT GTTCAGGAAG GAAACCCAGA TAAGCTTATT CAGGCTTCCG AGAAGGCTGA CGGGGCGGAG GAACAGAAGC AGGAGCAGGA AGAGGAACAA GCGGAAGGTT CAGAGTCAGA TGACGAGCAA GGAGACAACA ATGCAACTTT TACAGAGAAC CAATTGCATC CCTCTACGGA CACCATGCAG GGAGGCGGAG ACGCACAAAG AAGAAGTTAC AGATCTCGCA GGTACCGTTG AACAAGAGGA TACGCAAGAG AATGAAGGCC AAGGCGAGGC AGACGAAGAG GCGGAAGGAC AGGACGAGAA GGACGAGCGG GCAGATGACC AGTCGGGAAA GGACGACGCC GAAGGCGTAG CTACCCCACG ATCCCAAGGG AAGCGACACC TCTCTGCAAG AGAAAAACGC CTACTGCGCA AAGGGAAGCC TATTGACACA CCAACTGCGA GGTCCGAAGC TGCAAGCGAC CGCTCAACAC CAGCAGCTAA CGGAACGTCC ACTGGGCCCG AAACAAAGCC CGCCCCAGCC CCAGTCCGCG GCCGTAAAGG CAAAGCAAAG AAAGCTGCAT CCAAATATGC GGATCAAGAC GAGGAGGAAC GAGCACTGGC GCTTCGTCTT TTGGGCGCAA ACAACGCCAA AGCACAGAAA GCCGCCGCCG AAGCCGAGGC GAAGGCGAAA CGGGAGAAAG AAGCTGAAGA GGCAAAGAAG CGCCGCAAAG CGCAACACGA ACGAGCCGCC CAGGCGGAGC GCAAACGACA GGCTTTGTTT GAGGAAGGAG CAACTGATGA CTATGACGAG GAAACTGCCG CTGCCGAAGC GGCTGATCTT GAATGGCTAC CTGCACTCGT GGGGACGCCT CATGTCGACG ACGAAATCTT GGCGGCTATC CCGATATGCG CGCCGTGGTC TTCTCTTGGT CGATACAAGT ACCGAGTCAA GTTACAGCCT GGAACAGTGA AGAAGGGCAA GGCCGTCAAG GAGATTCTAG GACGATGGTT GGCTGAGACT ACAACGGGCA AGGTTAAGAA GGAGCATGCT GAGGATCTGG GAATTAGTCG AGTCGCTGCA GAGAGACTCC GCGCCAAAGA GGGTGAGTTG CTCAAGGCAT GGAAGGATAC TGAGATCATC AACACCGTAC CAGTAAGCAA GGTACGGATT ATGATCGCTG GCGGTGGCGG CGACAAAGGC AAGGCGAAGG GCGGGGGTGG TAACAAGGGA GGTAAAGGTG GTAAAAAGAA ATAG
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Protein sequence | MKQRYSSLDV QVISKELASE LVGLRVSNIY DLSTRIFLFK VAKPDHRKQL IVDSGFRCHV TQYSRATAAT PSGFVSRLRK YLKSRRITSV TQIGTDRIID FSFSDGMYHM LLEFFASGNI IITDRDYTII ALLRQVPGGE GMEEAKVGLK YTVTNKQNYS GIPPITRDRI RETLEKAKAL FAQENDAPKK SKKKSTDVLR RALSQGFPEY PPLLLDHAFA TRAADPAMPL DQVLGDAGLI DVVLGVLEEA QNVTKDLSAD KAHPGFIVAK EDTRPKPPGP ESEKNDSPSK PALLYEDFHP FKPRQFEGKD GFTILEYPSM NATVDEYFSS IESQKLESRL TERESAAKKK LDSLRSEHEK RIGALEQAQE LHIRKASAIQ DNMDRVQEAM DAVNGLVAQG MDWVEIARLV EMEQKRGNPV ASLIKLPLKL HENTITLLLR EAGDEGYEVE ELFSSDESED SDEEEGKGAA SPQKKPEGLT IDIDLGLSPW ANASQYYEQK KVAAVKAEKT SQSSAKALKS HERKVQDDLK RNLKQEKQVL RPARKPFWFE KFLFFVSSEG YLVLGGRDSM QSEMLYRRYL RKGDVFVHAD LEGATPMIVK NKPGALSSSI SPTTLSQAGN LCVATSTAWD SKAIMSAYWV DAAQVSKTSA VGDLLPVGEF LVKGEKNFLA PSQLVLGFAV MWQISKGSLV NHKSFRSEEA LVSQARVTGE DNIANVQEGN PDKLIQASEK ADGAEEQKQE QEEEQAEGSE EAETHKEEVT DLAGTVEQED TQENEGQGEA DEEAEGQDEK DERADDQSGK DDAEGVATPR SQGKRHLSAR EKRLLRKGKP IDTPTARSEA ASDRSTPAAN GTSTGPETKP APAPVRGRKG KAKKAASKYA DQDEEERALA LRLLGANNAK AQKAAAEAEA KAKREKEAEE AKKRRKAQHE RAAQAERKRQ ALFEEGATDD YDEETAAAEA ADLEWLPALV GTPHVDDEIL AAIPICAPWS SLGRYKYRVK LQPGTVKKGK AVKEILGRWL AETTTGKVKK EHAEDLGISR VAAERLRAKE GELLKAWKDT EIINTVPVSK VRIMIAGGGG DKGKAKGGGG NKGGKGGKKK
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