| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | ANIA_11010 |
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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 | BN001304 |
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| Strand | - |
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| Start bp | 2629927 |
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| End bp | 2633379 |
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| Gene Length | 3453 bp |
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| Protein Length | 1120 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 | GTPase activating protein (Gyp2), putative (AFU_orthologue; AFUA_5G07440) |
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| Protein accession | CBF80101 |
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| Protein GI | 259484137 |
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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 | 22 |
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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 | 41 |
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| Fosmid unclonability p-value | 0.988868 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGATGCAGT GGACGTCGCT GGTTCAGAAA GCTCAGTCCT TCATTGACCC GGCCAACTTC
ACCATCCCAA ACCTCACCTC ATCCTCCGAC CGAAACCCTT CGAAATCATC CCTCTTCCGC
CAGCAATTCC GACTTCCTGA CTCGCAAAAT CCGTTGCAAG AAATTACAGC TGAGCTCATA
CTCCCTGTAT CGCACACATC GTCTTCTGCT TCCGGCGCCC AATCGAAGAA CATCGACCGC
GGTGGCAATC GATATGCGGG TAGACTGCAT CTGAGCGAAC GATTTCTCTG CTTCTCGACA
CAGCCCACCA GCTTCCTTCC TTCTGCCACT CTAGCCACTT CGACATATTG GGCTGGCCAG
ACGAACGGTA CCGGGCCGTC TGGCAATGGA TTTACAATCC CTCTGTGTTC GATTCGCCGG
GTGGAGCGGT TGAACAGTCA GAGCCATATT TTTTCTCTAG CCTTGACCAC CTGGAATGGA
GCGCTGGGCA AACAGCAGGC GCCTGGATTC ACACCCCAGA GGTTTACCAT CGAGCTGGTC
GGGAGCAGGC AGGCCTGCGA ACGATTCTGC GATGGTTTGA AGAAGAACTT ACGCGAATCT
ATGAAGGAGA TTGAGAACCT GCGTTTGGTG GTAAATGACT GCTATTCCGA GTATCTCCTG
TCGGGCGCCA AGTCAAAGGC CCAGTCAGCT GATGACCCTG AAGCGAGGCC ACCCCCGGAT
GCCGGACTGG GAATGCTGTT TCGCTATCCG GGTGATGCCC GCAAACTCAG GGATCGGAGC
AAGATGAGGC TCTGGGGAGA ATATTTCCGA GGTACGCGTC CTTTTGTGTC ATCTTGGGCA
TGAACTAAGA TTGTAGAAAA TGGCCGCAAT GCTACGTTAA TCCGGCAACC TACCTTCCAT
AAACTCATAC GCGTTGGTCT CCCCAACCGG CTTCGGGGCG AGATCTGGGA GGTGGCCTCC
GGTTCACTGA ACCTGCGGCT GCGGTCGCCG AAACTTTACG AGCAGACTTT AGCGAAATTC
GAAGGCCAGG AGTCGTTGGC GATCGACGAG ATAGAGAAAG ACTTGAATCG CAGCTTACCC
GAGTATGCGG GCTTCCAGAG CGAGGAAGGC ATAGGTCGTC TTCGAAGAGT CTTGACTGCC
TACAGTTGGA CGAACGCTGA GATTGGCTAC TGTCAAGCAA TGAACATTGT TGTCGCAGCA
TTATTGATGT AAGATGCCGC ATCCCTTGTC AGACCGAAGT CTAACCAGAC TAGATACATG
TCAGAAGCCC AAGCCTTCTT TCTACTCTCT GTTCTGTGCG ACCGTTTAGT GCCGGGATAT
TACTCGACCA CCATGTATGG CACATTGCTT GACCAGAAGG TGTTTGAGTC GCTTGTTGAG
AAGACTATGC CGATTCTTTG GGACCATCTG AACAAATCTG ATGTCCAGCT GTCTGTGGTC
TCTCTTCCCT GGTTCCTTTC TTTGTATATC AACTCCATGC CCCTGGTGTT TGCCTTTAGA
GTCCTCGATG TTTTCTTCTT GGAAGGACCG AAAGTGCTCT TCCAGGTCGG ATTAGCAATT
CTCCGCATCA ACGGGGAGGA ACTTCTTGAC GTTCAGGATG ACGGGTCTTT TATTTCAGTC
TTAAAATCCT ACTTTTCACG CCTTGACGAG TCGGCTCATC CACGGTCCGA GAATCCAAAG
CTCAGAGCTA TCACGCGGTT CCAGGAGTTG ATGGTGGTCG CTTTCAAAGA GTTCTCTCAA
ATCACTCATC AGACCATCAC CGAACAGCGT GAGAAGCACA AAGATGCAGT TTTAGAGAAT
ATCGAAAGCT TTGCTAAGCG CACATCGATA CGAAATCTCG GCCCTGAAAG CAAGAAATTG
AGTTCAGACG ATTTAGGAGC AATCTATGAC CGCTATTACG AAGTTCTCTA TGACTACCAG
CAAAGGCAAA AGGTTATCGA GGAGGAGAAG AAGCGGCAGG AGAGAAAGAA GTCGCAACGC
GTTTCTGTTA TTGGACCGTC GGTGGACCGT GAAGTTGGCC GTGTGGGCCT TGGTCCTAGC
CCAACTCATA TGGATTACAA TGCCTTCCGA GAGTTCCTCG CCGCAACCGC AAAATGGGCT
ATAGCTGATT CTCCAGGTCC CTCCCGAAAG CAATCCGACT CGGGCAGCTT CCGAGGACTG
GGAAGACCTA CCATGAACAA ACGGCCGTCG CCGGCCGACC ATGAATTCAT GCAGCGCTTG
TTTCGCAAGT GGTCAACTGA CCCAGATGAT GGCTTAAGTC TGCAGGATGT TGTCAACGGC
ATTGCACGTC TGAAAGGGCC GCGAGATATT ATGAACAATA TCACTTATTT TTTTGACCTT
TATGACGACA ACGGGGATGG CAAGGTTGAT AGAGAGGGTA TTCTTCGAAT GTCAGAAGCG
CTGCTCTTTC TCTCCCGGCG GGGATTCGAC GGAACCATCA CCCCCAGTCA GAGCACTGAA
AATTTAATGC CAGGCAAAGA AGAAGATAAA CTCAGCACGG GCGAGCGGTT TCTGGGAAGT
GTGAGCTCCT TCATACGGCG CTGCTTTGAA TATGCCGACC CTACCAAAAA GACATTAGAA
GCTGAAAAAT TAGCCGAAAC AACGGACAAC CTCAACTCGT TCAGTATTGG AGATGATGAG
GAGGATTTGA TAGACGTGGG TGACGACGAG GTAAAATCCG AGTCAACCCC AAGCCCTGAG
GGTGAAACGC CCGGGACGCC TTCCTTGGAG CCAACAGAAC GCAAGCGTGC TCGAAGCACA
TCTGAGGCGG CAAATCCGGC TCTCGACCCC AACAACCCTC TGCATATCAC CCTTCCCACT
TTCCGGATGG TTGTTCTAGC AGACGAATTA CTAGAGCAGT TCTTCGACAA TTACTTCCCC
CAGTCCTTCC ATCTTTCCGA GCAAGGCGCG GCCGCCGCGC AACTCCCGTC CCTGTCCTCA
AACCTCACAA CATTCTCTAA CATTGGAGCT GCCAAACAAC AGCCAACATC TTCTGGCCCC
ACAGTCGCAG GCGCCTCCGG TGGCATCGTC CCACCAAACC GGGGACTCCG TGGCGTTTTG
GATAATATTG TCACTGACGG AATCCGCATG GCAGCCGAGG TGAAGAAGCG GATGGACGAG
GCCCAGCGCG AGCTGGAACG CAATGCCCTT AATCGCGACG ATGATGACGA AGATGATGAG
GACGACGACG GCCATCATGG CACCGCCCCA GCCATTGTTG GTGGGATTTC ATCCTGGGGT
GCAGGCGCTT ACGGTGCCGA TCCTGAGCGG CGCAGCGTTC GGGAAACGGA TCGGGATCTG
TTGGAAGGAG CGGAGGTTGT TAATATCCGC GGAAAGGATG ATGTATCTCT CTTGGATGAC
AAAGACTCTC ATCAAGAAAG CAGTAGCGGT CAACGTACCG CCGCAGGCTC GGATGATAAA
GTTGTCAGCA AGGTTGTGGA GTTCGAGTCT TGA
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| Protein sequence | MMQWTSLVQK AQSFIDPANF TIPNLTSSSD RNPSKSSLFR QQFRLPDSQN PLQEITAELI
LPVSHTSSSA SGAQSKNIDR GGNRYAGRLH LSERFLCFST QPTSFLPSAT LATSTYWAGQ
TNGTGPSGNG FTIPLCSIRR VERLNSQSHI FSLALTTWNG ALGKQQAPGF TPQRFTIELV
GSRQACERFC DGLKKNLRES MKEIENLRLV VNDCYSEYLL SGAKSKAQSA DDPEARPPPD
AGLGMLFRYP GDARKLRDRS KMRLWGEYFR ENGRNATLIR QPTFHKLIRV GLPNRLRGEI
WEVASGSLNL RLRSPKLYEQ TLAKFEGQES LAIDEIEKDL NRSLPEYAGF QSEEGIGRLR
RVLTAYSWTN AEIGYCQAMN IVVAALLIYM SEAQAFFLLS VLCDRLVPGY YSTTMYGTLL
DQKVFESLVE KTMPILWDHL NKSDVQLSVV SLPWFLSLYI NSMPLVFAFR VLDVFFLEGP
KVLFQVGLAI LRINGEELLD VQDDGSFISV LKSYFSRLDE SAHPRSENPK LRAITRFQEL
MVVAFKEFSQ ITHQTITEQR EKHKDAVLEN IESFAKRTSI RNLGPESKKL SSDDLGAIYD
RYYEVLYDYQ QRQKVIEEEK KRQERKKSQR VSVIGPSVDR EVGRVGLGPS PTHMDYNAFR
EFLAATAKWA IADSPGPSRK QSDSGSFRGL GRPTMNKRPS PADHEFMQRL FRKWSTDPDD
GLSLQDVVNG IARLKGPRDI MNNITYFFDL YDDNGDGKVD REGILRMSEA LLFLSRRGFD
GTITPSQSTE NLMPGKEEDK LSTGERFLGS VSSFIRRCFE YADPTKKTLE AEKLAETTDN
LNSFSIGDDE EDLIDVGDDE VKSESTPSPE GETPGTPSLE PTERKRARST SEAANPALDP
NNPLHITLPT FRMVVLADEL LEQFFDNYFP QSFHLSEQGA AAAQLPSLSS NLTTFSNIGA
AKQQPTSSGP TVAGASGGIV PPNRGLRGVL DNIVTDGIRM AAEVKKRMDE AQRELERNAL
NRDDDDEDDE DDDGHHGTAP AIVGGISSWG AGAYGADPER RSVRETDRDL LEGAEVVNIR
GKDDVSLLDD KDSHQESSSG QRTAAGSDDK VVSKVVEFES
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