| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | ANIA_05102 |
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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 | BN001305 |
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| Strand | - |
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| Start bp | 956766 |
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| End bp | 960171 |
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| Gene Length | 3406 bp |
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| Protein Length | 1019 aa |
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| Translation table | |
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| GC content | 47% |
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| IMG OID | |
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| Product | FACT complex subunit spt16 (Facilitates chromatin transcription complex subunit spt16) [Source:UniProtKB/Swiss-Prot;Acc:Q5B2X8] |
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| Protein accession | CBF80864 |
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| Protein GI | 259484547 |
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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 | 20 |
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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 | 17 |
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| Fosmid unclonability p-value | 0.0000406367 |
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| Fosmid Hitchhiker | Yes |
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| Fosmid clonability | hitchhiker |
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Sequence |
| Gene sequence | ATGGGCGACG AGATTGTCAT TGATAAAACA GCCTTCTTCA ATCGTCTCTC GAGCTTCTAT
GCAGCATGGA AGGCAGACAA ACGATCCACC AACTCTGTCT TTGGCGGTGC GGGATCTATC
ATTATCCTGA TGGGGAAGAC GGATGAAGCA AACAGCTATC AAAAGAACAA TGCTATACAT
GTATGCTGCT TACGTCGTCG GTTACTTATT ATATCTACTG ATACTTTTAG TTTTGGTTAC
TCGGCTACGA ATTCCCAGCT ACACTTTTCG TCTTCACACC GGAGGTTATG TACGTTGTGA
CAACAGCGAA GAAAGGTATC ACCTGATCTG AACAAGGAAT AGCCCAGGAA TCCTCTCTCC
CTAACTTCAT GACAGCCAAA CATTTAGAAC CCTTGAAGGG TGGAAAGATC CCGGTCGAGA
TTCTGGTAAC GACTAAGGAT CAGGAAGAAA AGACGAGATT GTTTGAAAAG TGCGTGGATA
TAATAAAGTC CGCTGGGGTA TGTTTTCTAT CATGTCCAGG GATCAAGATG ACCATGCGTG
GTTCGTTAAC TTCCGACGCT AACAAGCTAT CTGCCAACAG AATAAGGTTG GGATCTTACC
GAGAGACACA ACCACAGGTC CATTTGTGGA AGACTGGAAG CGCGTATATG GAAAGATATC
CGGCGATGTA GAAGAAGTCG ACATTTCGCC CGCTCTTTCA GCCGCATGCT TTTCGGTCAA
GGATACGGAT GAACTAGTAC GTCTATTCAC TTACAACGTC GATAAAAGTG GTCTAAAGTT
TTGCAGGTGT CCATAAGGAA TGCATCTAGA GCTTGCAGTG GTCTGATGTC CGATTATTTT
GTCGATGAAA TGTCTCGCTT GCTAGACGAA GAAAAGCAAA TGACGCATAA AGCTCTATCT
ATGCGTATTG ACGCCAAGAT TGATGACGCT AAATTTTTCA ACAAGCTCGC AAAACTACCG
TCGGAATTTG ATCCTCAGCA AATCGATTGG GCTTATGGTC CCGTCATTCA GAGTGGCGGG
AAATATGACT TGAAGTTAAC AGCTGTGTCT GATGACAACA ATCTGGAACC CGGAATCATC
ATTGCTGGAT TCGGCATTCG CTACAAAACC TACAGTTCTA TCATTGGGCG CACCTACCTG
GTTGACCCGA CAAAGTCCCA AGAGGCAAAC TATTCCTTGC TCCTAAGTGT CCATGAGGCT
GTTTTGAAGG AGGCTCGTGA TGGTGTGGTC GCCAAGGAGC TCTACAACAA GGCAATTGGA
ATTGTGCGAG CTAGGAAGCC GGAACTCGAA TCCCACTTCG TGAAAAATGT CGGTGCTGGT
ATAGGTATTG AGCTTCGAGA TTCGAACATG ATTCTCAATG GGAAGAACAC CCGGGTTTTG
AAGAGTGGGA TGACATTTTC TATCACGGTC GGGCTGGTGG ATGTTGAAGA GCCGAGCGTG
AAGGACAAGA AAAAGAATGT CTATTCAATG ATGATCACGG ACACCGTTCG GGTTGGAGAA
CAGGGACCTC ACGTATTCAC CAAGGACGCG GGCATTGATA TGGACTCTGT GTCCTTCTAT
TTCGGTGACG AAGAAGAGCC ACAGAAACCT GCAAAGGAGA AGAAAGAAAC CAAATCGAGT
GCGATTGCGA GCAGGAATGT CACGAGGACA AAGCTCCGCG CTGAACGTCC TACGCAGGTA
AATGAGGGAG CAGAGGCGCG GCGCCGCGAG CACCAAAAGG AGTTGGCCGC TAAAAAGACC
AAGGAGGGTT TAGACCGATT TGCAGGTACC ACTGGCGATG ATAATGGAGT CACGCAGAAG
AAGTTCAAGA GATTCGAGTC CTACAAGAGG GACAATCAAT TGCCAGCCAA AGTCAAGGAT
CTCACAGTTT ATGTGGATCA CAAGGCATCT ACTGTTATTG TTCCCGTAAT GGGTCGACCA
GTCCCTTTTC ACATCAATAC CATCAAGAAC GCTAGCAAAA GTGATGAAGG GGAGTACGCC
TATCTTCGCA TCAACTTTCT TTCCCCAGGA CAGGGTGTGG GAAGGAAAGA CGACCAGCCA
TTTGAAGATC TGTCAGCACA TTTTCTAAGG AATCTCACTC TCAGATCGAA GGATAATGAT
CGATTTGCGC AGGTAGCTCA GGATATTACT GAGCTCAGGA AGAATGCCCT GCGCCGTGAG
CAGGAAAAGA AAGAGATGGA GGATGTGGTT GAGCAAGACA AGCTAGTTGA GATCAGAAGT
TTGTCACCCT TTTATGACAT ATGCTTTTGA AACTAATCCA GAGTCAGATC GTCGCCCCGT
GAAGTTGCCT GATGTTTACC TTCGACCTCC GCTTGACGGT AAACGAGTAC CCGGTGAGGT
TGAAATACAC CAGAATGGTC TTCGCTATGT CTCTCCCTTC CGCAACGAAC ACGTCGATGT
GCTGTTCAGC AATGTTAAAC ACCTTTTTTT TCAGCCTTGC GCTCATGAGT TAATTGTCTT
GATCCACGTC CATCTCAAGA CTCCTATCAT GATTGGCAAG AGAAAGACTA GAGATATTCA
GTTCTACAGG GAGGCTACCG AGATGCAATT CGACGAGACC GGGAACCGAA GGCGAAAGCA
TCGCTATGGG GATGAAGAAG AGTTTGAGGC CGAGCAAGAG GAGAGGAGGC GTCGGGCAGC
TTTGGACAGA GAGTTCAAAG CATTTGCTGA GAAGATAGCT GATGCTGGCA AGGATGAGGG
TGTTGATGTC GATATTCCTT TCAGAGAAAT TGGCTTCACC GGTGTCCCTA ATCGGTCGAA
TGTTCTGATT CAGCCAACCA CAGATGCACT CGTTCAACTG ACTGAGCCTC CCTTCCTGGT
CATCAGTCTC AACGAAATTG AGATTGCGCA TCTAGAGAGG GTGCAGGTAA GTTAACACAG
ATATTCTAGT CATTCAGGCG GGGACTAAAA TGCTGTACAG TTTGGCCTCA AGAATTTCGA
CCTTGTCTTC GTTTTCAAGG ACTTCCACAG GGCACCAGTG CATATTAACA CAATTCCTGT
GGAGAATCTG GAAGGTGTGA AGGATTGGCT TGATTCTGTG GATATCGCGT ACACAGAAGG
GCCTCTCAAT CTGAATTGGA CTACGATTAT GAAGACAGTT GTCAGTGACC CGTACGGCTT
CTTTGCTGAC GGTGGGTGGT CTTTCCTGGC TGCCGAATCG GATTCCGAAG ACGGCTCCGA
TGAAGAGGAG GAATCCGCTT TCGAGCTCTC TGAGTCAGAA CTTGCCGCAG ATGAAAGCTC
AGAGGAGGAT AGTGACTACG ATGACGATGC TAGTGCTGAC GATGATTTCA GTGCGGATGA
AGATGAGAGT GGAGAGGACT GGGACGAGCT GGAACATCAG GCCAAAAAGA AGGATAGAGA
AAGCGGATTG GACGATGAAG ACCGAGGCAA GAAGCGAAAG AGGTGA
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| Protein sequence | MGDEIVIDKT AFFNRLSSFY AAWKADKRST NSVFGGAGSI IILMGKTDEA NSYQKNNAIH
FWLLGYEFPA TLFVFTPEVM YVVTTAKKAK HLEPLKGGKI PVEILVTTKD QEEKTRLFEK
CVDIIKSAGN KVGILPRDTT TGPFVEDWKR VYGKISGDVE EVDISPALSA ACFSVKDTDE
LVSIRNASRA CSGLMSDYFV DEMSRLLDEE KQMTHKALSM RIDAKIDDAK FFNKLAKLPS
EFDPQQIDWA YGPVIQSGGK YDLKLTAVSD DNNLEPGIII AGFGIRYKTY SSIIGRTYLV
DPTKSQEANY SLLLSVHEAV LKEARDGVVA KELYNKAIGI VRARKPELES HFVKNVGAGI
GIELRDSNMI LNGKNTRVLK SGMTFSITVG LVDVEEPSVK DKKKNVYSMM ITDTVRVGEQ
GPHVFTKDAG IDMDSVSFYF GDEEEPQKPA KEKKETKSSA IASRNVTRTK LRAERPTQVN
EGAEARRREH QKELAAKKTK EGLDRFAGTT GDDNGVTQKK FKRFESYKRD NQLPAKVKDL
TVYVDHKAST VIVPVMGRPV PFHINTIKNA SKSDEGEYAY LRINFLSPGQ GVGRKDDQPF
EDLSAHFLRN LTLRSKDNDR FAQVAQDITE LRKNALRREQ EKKEMEDVVE QDKLVEIRNR
RPVKLPDVYL RPPLDGKRVP GEVEIHQNGL RYVSPFRNEH VDVLFSNVKH LFFQPCAHEL
IVLIHVHLKT PIMIGKRKTR DIQFYREATE MQFDETGNRR RKHRYGDEEE FEAEQEERRR
RAALDREFKA FAEKIADAGK DEGVDVDIPF REIGFTGVPN RSNVLIQPTT DALVQLTEPP
FLVISLNEIE IAHLERVQFG LKNFDLVFVF KDFHRAPVHI NTIPVENLEG VKDWLDSVDI
AYTEGPLNLN WTTIMKTVVS DPYGFFADGG WSFLAAESDS EDGSDEEEES AFELSESELA
ADESSEEDSD YDDDASADDD FSADEDESGE DWDELEHQAK KKDRESGLDD EDRGKKRKR
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