Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | CNM01760 |
Symbol | |
ID | 3255199 |
Type | CDS |
Is gene spliced | Yes |
Is pseudo gene | No |
Organism name | Cryptococcus neoformans var. neoformans JEC21 |
Kingdom | Eukaryota |
Replicon accession | NC_006682 |
Strand | - |
Start bp | 532867 |
End bp | 536404 |
Gene Length | 3538 bp |
Protein Length | 1005 aa |
Translation table | |
GC content | 51% |
IMG OID | 638254330 |
Product | endopeptidase, putative |
Protein accession | XP_568478 |
Protein GI | 58262136 |
COG category | [O] Posttranslational modification, protein turnover, chaperones |
COG ID | [COG5116] 26S proteasome regulatory complex component |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 8 |
Plasmid unclonability p-value | 0.0104197 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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Sequence |
Gene sequence | GCTTACTTCT TTCTTCCTCC AGAATCCCTT TCCGCCACCA CAATGCCAGT CCCAGCAGTA ACGACGTCAG CAGCAGGATC CCTCACCCTC CTTGAAGATC CCGACAAGGA TGTCAGGGTC TACGCCCTCA ACCACCTTCT CTCCATCGTT GGCCAGTTCT GGGCAGAAAT GTCGGACAAG CTTCCTTATC TGTAAGTCTA TCTTTCTTGG ATTTGGCTTT TATATAAGAA CATGAACTGA TATGTACCGC AGGGAATTGT TGGCCGACCC TCTTTCCAAA GAACTTGCCC CGGAGAACCG ACCGTTTGCC GCACTCCTCA TCTCCAAGAT TTACTTTTAC ATGGGTTTCC AAGATGAAGC TGTAGAGTTT GCATTGAAGG CTGGGGTAGC ATTTGAGAAG GAATCTGAAG GAGAGTACAG GGAAACGATC ATCGGTTCGT CTTGCCTCGT GTCTATTGGG GAGGCAGAGG CCGGTATGCT GATTCAGTAA TGGTTGGATT TGTAGCTGGA TGCTTGGATC AGGCGATTGA CAAAACGCAA AAAGGAGAGG ATATCCCAGC GGATCTGCAG AGCATTGTTG ACTCTGTTCT CCGAAGCAGC TCTGGGGAGA ATGCAAAGCT CGTACGTCTG GATCTTGTCT CAGCATCCGA TTCTTTCTGA CAAACTGTAG GCAATGGGTT TGGCGCTCTC CCTTCGGCGG CTCGACCTTA TCGAGATGAT CTATCTTAGT TCTAGAGGGC CATCTCAAGC ATCTTCATCG AAGTCTGAGC GAGTCGTGCA TGATGAGAAT TTGTTGCGAT ATGTCCTTGC AGAGGTTGTC TCAGGTACTA GCGGGAATGA GGCTTGGCCG GAAGATTTCC GTGCCAATGT AAGTCTCCTT GGGGATATTA AAAATATATA CAAGAATTGA CATTTCGCTA GTTGTTCAGC CTCCTTCGCC GATTATTCCA TCTCAACCCC AACCCCGATT GGAATTCTAT AACTACCGTT TGGGCTCAAA GCTCAGACGT TGAATCAACA GTAGAATCCC TCGTCAAGCT TCTCGAGGTT GACGACAACT TGACGGTGTA CCAAATTGCG TTTGACCTCA CCGAAGTGGC ATCTCAAGCG TTTATCGACG AGGTGCGGGA AAAGTTGGGA GAGACCAAAT GGGCTGCGCC TGTCGACGGC TCTGTGAGTT GTGTCCATTT GATTCGCAAA GTCCCGCTAA ATATGTTGTA GGAGGACGAT GTCCGGGTAG TCTTAAATAA CATTCTTCGA GGCGACACCA GCGCCGAACT GTTCCTCAAT TTCCTCAGTA GGAACAACAA GACCGACATG TCAATACTTA AAGTCACCAA GGAAACTCTT GAAGATCGAT ATTCCATCTA TCACTCCGCC ATCACCTTCA CCAACGCTTT TGCCCACTGC GGCACCACAT CGGACAAGTT CCTTCGTGAG AACCTCGACT GGCTCGGCCG AGCTTCCAAC TGGGCCAAGT TCTCCACAAC TGCCGCTTTG GGTCTCATTC ACCGTGGAAG CTGGGTCAAC GGTAACCGCG TCGTAAAGCC CTACCTTCCC GGAGGTGCTG CTCCCAACAA GTACAGTGAA GGAGGTGCCC TCTTCGCGCT TGGTCTCATC TATGCCGGTC GTGTCGAGTT TGCTGAGGAA GAGCTCAAGA AGGGTTTGGC CGAAGGTAAC GACCCTCTCG TCCAACACGG TGCTGCTCTT GGTATGGGCG TTAGCGCATT GGCTTCTGCC GACGATGAAA TTTACGACGA GATTCGACCA ATCCTCTTCC AAGATGATGC TGTCGCGGGC GAGGCCGCAG GTTATGCCAT GGGTCTTGTG ATGCTCGGTA CAGCGTCAGA GAGAGCTTTG GAGGAGATGT TATCTTACGC GAGGGAAACA CAGCATGAGA AGATTATCCG GGGTTTGGCT ATGGGTATCG CGTTCTTGAT GTACGGTCAG AGGGAGGCAG CGAACCCTGT GATCCAGAGG TTGACGGAGG ACAAGGTGAG CTTTTCGGAC ATTCAACCTT TGCCTAGCAC TGACAAGATG CCTAGGATGC CATCCTCCGA TATGGCGGTA TGTACACCAT CGCCCTCGCC TTTGCGGGTA CGGGTAACAA CAAGGCTGTC AAGAAGCTTC TCCATGTCGC TGTCTCTGAT GTCAATGACG ATGTTCGACG GGCTGCTGTC ACCGCTCTTG GTTTTGTACT CTTCAGAAAC CACACTACAG TGCCTAGGGT TGTGCAGCTG TTGGCCGAGA GCTATAACCC CCATGTGAGG TATGGTGCGA CGCTTGCTTT GGGTATCTCG TGTGCTGCTA CTGGTCTTGA GGTAAATATA GATTAAAATC TTCCTTGGGA TGAAAATGGC TAATGTGATT TTGGTAGTCT GCCATTGAGC TCCTTGAACC CATGACCAAA GACCCTGTTG ACTATGTCCG TCAAGGTGCT TACATCTCCC TTGCCATGAT TCTCATCCAA CAATCCGAAG CCGCATGCCC CAAGTCTATC ACCATTCGAG AACTTTTTGC CAAGGTCGTC GCCGACAAAC ACGAAGATCC CATGGCTCGA TTCGGTGCTT CTCTCGCCCA GGGTATCATT GATGCCGGTG GTCGCAACCT GACCCTAGCC CTCTCTACAC GAGCTGGTAC TTTGAACCAG AACGCTGTTG TCGGTATGGC GCTTTTTGTT CAGTTCTGGT ACTGGTTCCC TCTCGCCCAC GGTTTGGGTC TTGCTTTCAC CCCTACAGCA GTGATTGCTA TCGATGGCAA GATGAAGGTT CCACAACTGG AGCTTGAATG CCACGCCCGC CCGAGCTTGT ATGCTTATCC GGCCACTGAG AAGAAGGTGG AGGAGAAGAA GAAGGACAAG CAGAAGGCTG CCGTGCTTTC TACTACTGCA AGGGCTAAGG CGAGGGAGAG GGTCAAGAAG GCCGAAGCGG GTGAGGTTAT GGAGACCGAC GACAAGGCTG AAGAGAGTGG GAAGGGCAAG GATGCCGCGC CTACACCAAA AAAATCTAAA CCATCTGAGC CATCCTCTTT CAAAATCCCG AACATGTCCC GCGTTACCCC GTCACAATTG GCATACGTCA CCTTCCCTAC TTCGGGACGA TACACGCCCG TCCGACCTCT TGACCACTCT CCTCTTTCTG GCTCTAATAT TAACGGTAAA CCATCAACGT TAGCGTCAGG AGCGAGTGCG AGTGGCAGTA TCGTGGTTCT TCGAGACGAA AAGCCCGAGG AGCCTGCAGA GTATATTGAA CTGAGTAAGG AGTTGTGGCC TGGATGGCTG CCGGCAAACC CCGAAGCGGC AGCAGCTATT TTGGCGCAGG CTACCGCAGA AGGGTCTGGT GGGGCGCCGG GTTCGGGTGT TACTGGGCAA GCTCAACAAC AACAGCAAGA GCCCGAGGAG GAGGCAGAGG CCCCACCAGC GTTTGAGTAC CCGTTTGAGG ATGAGTAGAA GTCGTAGAAT GTAAAATTGT GTAATGGAGT TCTTTTTGGA GATGGTAGAG ATGAGTAGTC ATGACCCCAA ACTTAAATGC ATCTGGAT
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Protein sequence | MPVPAVTTSA AGSLTLLEDP DKDVRVYALN HLLSIVGQFW AEMSDKLPYL ELLADPLSKE LAPENRPFAA LLISKIYFYM GFQDEAVEFA LKAGVAFEKE SEGEYRETII AGCLDQAIDK TQKGEDIPAD LQSIVDSVLR SSSGENAKLA MGLALSLRRL DLIEMIYLSS RGPSQASSSK SERVVHDENL LRYVLAEVVS GTSGNEAWPE DFRANLFSLL RRLFHLNPNP DWNSITTVWA QSSDVESTVE SLVKLLEVDD NLTVYQIAFD LTEVASQAFI DEVREKLGET KWAAPVDGSE DDVRVVLNNI LRGDTSAELF LNFLSRNNKT DMSILKVTKE TLEDRYSIYH SAITFTNAFA HCGTTSDKFL RENLDWLGRA SNWAKFSTTA ALGLIHRGSW VNGNRVVKPY LPGGAAPNKY SEGGALFALG LIYAGRVEFA EEELKKGLAE GNDPLVQHGA ALGMGVSALA SADDEIYDEI RPILFQDDAV AGEAAGYAMG LVMLGTASER ALEEMLSYAR ETQHEKIIRG LAMGIAFLMY GQREAANPVI QRLTEDKDAI LRYGGMYTIA LAFAGTGNNK AVKKLLHVAV SDVNDDVRRA AVTALGFVLF RNHTTVPRVV QLLAESYNPH VRYGATLALG ISCAATGLES AIELLEPMTK DPVDYVRQGA YISLAMILIQ QSEAACPKSI TIRELFAKVV ADKHEDPMAR FGASLAQGII DAGGRNLTLA LSTRAGTLNQ NAVVGMALFV QFWYWFPLAH GLGLAFTPTA VIAIDGKMKV PQLELECHAR PSLYAYPATE KKVEEKKKDK QKAAVLSTTA RAKARERVKK AEAGEVMETD DKAEESGKGK DAAPTPKKSK PSEPSSFKIP NMSRVTPSQL AYVTFPTSGR YTPVRPLDHS PLSGSNINGK PSTLASGASA SGSIVVLRDE KPEEPAEYIE LSKELWPGWL PANPEAAAAI LAQATAEGSG GAPGSGVTGQ AQQQQQEPEE EAEAPPAFEY PFEDE
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