Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | ANIA_10788 |
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 | 968670 |
End bp | 971788 |
Gene Length | 3119 bp |
Protein Length | 1000 aa |
Translation table | |
GC content | 51% |
IMG OID | |
Product | Vacuolar protein-sorting protein bro1 (BRO domain-containing protein 1) [Source:UniProtKB/Swiss-Prot;Acc:Q6XPR4] |
Protein accession | CBF69994 |
Protein GI | 259479612 |
COG category | |
COG ID | |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 8 |
Plasmid unclonability p-value | 0.00671573 |
Plasmid hitchhiking | No |
Plasmid clonability | decreased coverage |
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Fosmid Coverage information |
Num covering fosmid clones | 34 |
Fosmid unclonability p-value | 0.172063 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGGTTCAGT CGCCTATGAT ATCATGTCCC CTCAAACAGA CCAACGAAAT CGACTGGATC CAACCTCTCA AGGATTATAT TCGGCAAAGT TATGGCGAAG ACCCTGAGCG CTACAGTCAG GAGTGTGCTA CACTCAACCG GTTGCGTCAG GATATGAGGG GTGCCGGCAA GGACAGCGCG ACAGGACGAG ACCTACTCTA CCGCTACTAT GGGCAACTAG AGCTTCTGGA TCTCAGGTTC CCTGTGGATG AGAATCATAT AAAAATATCA TTTACCTGGT AATGGACCTA CGAATTATCA TTACCTCACC TCCGCTAACC ATGTAATGCT GCCTATAGGT ATGATGCATT CACCCACAAG CCGACCTCGC AGTATTCTCT CGCGTTCGAA AAGGCCTCGA TTATCTTCAA TATATCTGCG GTCCTTTCTT GTCATGCAGC GAACCAGAAC CGCGCAGATG ATATTGGCTT GAAGACTGCC TACCACAACT TCCAGGCATC CGCCGGCATG TTCACCTACA TCAACGAAAA CTTCCTCCAC GCCCCCTCGA CTGATCTCAA CCGCGAAACT GTAAAGACTC TCATCAACAT CACGCTTGCT CAAGGTCAGG AAGTTTTCCT CGAGAAGCAG ATCATGGACC ACAAAAAGGC CGGGTTCCTG GCGAAACTCG CCAGCCAGGC TTCATATCTA TACGCACAGG CCATTGAAGG GACACAGGAA CATGCTAAAG GCATATTCGA CAAATCATGG GTTACGCTTC TGCAAGTGAA GTCGGCGCAT ATGGGCTCCG TGGCCTCGTA TTATCAGGCT CTAGCCGACG GCGAATCAGG TTCGCACGGA GTAGCTGTTG CTAGGCTCCA GCTAGCAGAG AAGCATTCAA CGAGTGCGTT GAGTTGGGCT AAGTCGCTCC CTTCGTCAAT ATCACCGAAC ACAAACCTTA CATCGGAGGC TGGGCCCAGT CTAGTAGATA TCGTGAAGTT CCATCTCGCA AACGTGCAGT CACAGCTTGC TACCTTCGTC AAGGATAACG ATTTTATTTA TCATCAGCCT GTTCCGAGCG AGGCAGGACT GTCTGCGGTA TCTAAGCTCC CTGCAGCCAA GGCAATTCCA GTTAGCGAGT TGTATCAGGG CCAAGATATT CAACGGATTA TCGGTCCAGA TATCTTCCAG AAACTCGTTC CCATGTCGGT TACGGAGACA GCAAGTCTTT ATGATGAGGA AAAGGCGAAA CTGATCCGGG CAGAGACAGA GAAGGTTGAA ACCGCCGATG GCGAGATGGC AGCAAGCTTA GACTATTTCA AGCTTCCCGG TAGTTTGAAC ATTTTGAAAG GTGGAATGGA TCAGGAAGTG ATGGTCGACG AAGAATTCCA ACGTTGGTGT CAGGAACTAG CAGGACATGA TTCTTTTGCG AAGGCTTTCG ATACCCTTCA AGATCGCAAG TCAGAAGTGC TAGCTACCCT TGACCAATGC GCCAAGCAGT TAGACTTGGA AGAAAGCGTT TGCGAGAAAA TGCGCTCAAA ATATGGGGCT GATTGGAGCC AGCAGCCCAG TAGTCGATTG AACATGACTC TCCGCAATGA TATTCGGACA TACCGAGACA CGGTGCATGA AGCCAGTGCT AGTGACGCTC AGCTCTCTGC AACTCTTCGG CAATACGAAT CTGACTTTGA TGAGATGCGA TCGGCAGGAG AAACAGACGA GGCGGATGTG CTTTTCCAGC GAGCAATGAT CAAGGCAGGC TCAAAGCAAG GCAAAACTAA AAATGGTGTG ACGAGCCCTT ATTCGGCTAC GGAGGGAAGT CTACTAGACG ATGTCTATGA TGATGGCGTT CCCTCTGTGG CAGAGCAGAT TGCCAGGGTG GAATCCATTT TGAAGAAACT AAACCTGGTT AAACGGGAGC GAACCCAGGT CTTGAAGGAC TTAAAGGAAA AGGTGAATGC CACCAGTGCA TATAGATATT GTTTCAAAGC TCCTAACGGG CGTTCTAGGT GCGCAACGAT GATATATCGA ACGTCTTGAT ACTTAACAAG AAGTCGATTA CGGGCCAGGA GAGTCAACTC TTCGAAGCGG AGTTGGAGAA ATTCCACCCT CATCAAATGC GAATAGTTCA GGCCAATCAT AAGCAAACAG CGTTGATGAA GGAGCTCACG AAAACTTATG GAGATCTATT ACAGGATAAG CGAGTGAGAG CTGAACAATC CAAATATGAG TCGATAACCC GACAACGCAA CTCCGTCATG GCCAGATATA AGAAGATATA CGACTCCTTC AACAACCTTG GCTCTGGAAT CAAGCAGGCT CAAACTTTCT ACGCTGAGAT GACTGAAACT GTTGACAGCC TCAAGAAGAA CGTCGACACT TTCATCAACA ATCGCAGATC TGAGGGTGCC CAACTTTTGG GGCAGATCGA ACGTGAAAAG GCAGCCGGAA CGTCCGACCA CGAAGAGCGC GAGCGAGAAA AGTTGAGGCA GCTCATGGAG CGTCTGTCCA CAGAGCCCAA GCCTCCCTCC GTTCCCCCAG GCTCGTCAAC TGCCGGCCCA GCCAAAGCCA AATCTCCGCC GCCACCTGTC AAAGCACCCG CCTACCCGAC AAATATCGCT CCTCCAAAAG CATCACCTCA TTTCGCTCCG ACCGTTCCAC AACAGCACGG CACACCCGTC TCCCATTCCC CGGCGCCTTA CAGCCAGTAC GTGCCTCCAG GCGCTGGCGT CTCGTACCTC CCTTCTCAGT CCTTCCAGCA AGGTGCTGCT GCACCGCTTT CCGAGGGCTA TAACCCGATG GCATACCCGA TCCCCGCTTC ATCCATGTCA CCTCCCCCAA GTCAGCCGTT CTACTCCCCA ACTCCTACCC CATTCTACAC CAGCCCAACG CCCCCCGTTC CTTCGGGTCA ATACATGCCC CAAGGCTATG TTCCCCCTCC GCCACCTCCC CGACCACAAC AGCCCACCTA CCCACCATCA ACAGGGCCGT TCCCCTCGGG ACCAGGCGGG TATGCTCAGA GCCGACCATA CGGAAGCAGC CAGCACCACA AGGCTCATTC ACAGTCATCA CCGCAAACTG GACCTTCCGT TTCCGCAAAT TCTTCCGATC CTTGGGCCGG GCTGAATGCC TGGAAGTAG
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Protein sequence | MVQSPMISCP LKQTNEIDWI QPLKDYIRQS YGEDPERYSQ ECATLNRLRQ DMRGAGKDSA TGRDLLYRYY GQLELLDLRF PVDENHIKIS FTWYDAFTHK PTSQYSLAFE KASIIFNISA VLSCHAANQN RADDIGLKTA YHNFQASAGM FTYINENFLH APSTDLNRET VKTLINITLA QGQEVFLEKQ IMDHKKAGFL AKLASQASYL YAQAIEGTQE HAKGIFDKSW VTLLQVKSAH MGSVASYYQA LADGESGSHG VAVARLQLAE KHSTSALSWA KSLPSSISPN TNLTSEAGPS LVDIVKFHLA NVQSQLATFV KDNDFIYHQP VPSEAGLSAV SKLPAAKAIP VSELYQGQDI QRIIGPDIFQ KLVPMSVTET ASLYDEEKAK LIRAETEKVE TADGEMAASL DYFKLPGSLN ILKGGMDQEV MVDEEFQRWC QELAGHDSFA KAFDTLQDRK SEVLATLDQC AKQLDLEESV CEKMRSKYGA DWSQQPSSRL NMTLRNDIRT YRDTVHEASA SDAQLSATLR QYESDFDEMR SAGETDEADV LFQRAMIKAG SKQGKTKNGV TSPYSATEGS LLDDVYDDGV PSVAEQIARV ESILKKLNLV KRERTQVLKD LKEKVRNDDI SNVLILNKKS ITGQESQLFE AELEKFHPHQ MRIVQANHKQ TALMKELTKT YGDLLQDKRV RAEQSKYESI TRQRNSVMAR YKKIYDSFNN LGSGIKQAQT FYAEMTETVD SLKKNVDTFI NNRRSEGAQL LGQIEREKAA GTSDHEERER EKLRQLMERL STEPKPPSVP PGSSTAGPAK AKSPPPPVKA PAYPTNIAPP KASPHFAPTV PQQHGTPVSH SPAPYSQYVP PGAGVSYLPS QSFQQGAAAP LSEGYNPMAY PIPASSMSPP PSQPFYSPTP TPFYTSPTPP VPSGQYMPQG YVPPPPPPRP QQPTYPPSTG PFPSGPGGYA QSRPYGSSQH HKAHSQSSPQ TGPSVSANSS DPWAGLNAWK
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