Gene CNE05170 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagCNE05170 
Symbol 
ID3257594 
TypeCDS 
Is gene splicedYes 
Is pseudo geneNo 
Organism nameCryptococcus neoformans var. neoformans JEC21 
KingdomEukaryota 
Replicon accessionNC_006687 
Strand
Start bp1449498 
End bp1453203 
Gene Length3706 bp 
Protein Length716 aa 
Translation table 
GC content49% 
IMG OID638257100 
ProductBeta-glucosidase precursor, putative 
Protein accessionXP_571044 
Protein GI58267776 
COG category[G] Carbohydrate transport and metabolism 
COG ID[COG1472] Beta-glucosidase-related glycosidases 
TIGRFAM ID 


Plasmid Coverage information

Num covering plasmid clones15 
Plasmid unclonability p-value0.599947 
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clonesn/a 
Fosmid unclonability p-valuen/a 
Fosmid Hitchhikern/a 
Fosmid clonabilityn/a 
 

Sequence

Gene sequence
ATGACTATTA TCAATCCCGA GGCAGTACTC AAGGAGCTCT CAAGCGAGGA GAAGATCGCG 
CTCTTGAGCG GCGATGACAT GTGGCATACG GTAGCTGTAC CCAGGCTCGG TATACCTCGA 
GTGCGAGTGA GCGATCGATG AATTGACAGA GATTTGATGG GACTCAGCTA ACAATGCTGC 
ACAGTGCAGT GACGGGCCTG TGAGTGACCC GGGTCGATCA TCTGAGCCCA GCTAATCAGA 
TAGCAGAACG GAGTCAGAGG TACAGCCTGT AAGCGATAGC AAGCCACGCT CAAGCAGACA 
TAGGAGAGCA ACTGATCTGT AGTCGACAGG GACGAATGGC GCAACTGCAT CATGTTTCCC 
TTCATCCACT GGCCTGGGGG CGTCTATGGA TATTGATCTT GCTCGTCGTA TTGGCGAAGC 
CTTGGGAGAG GAATGCCGAG CCCGCGGGGT GCACTGCTTG TTAGGTCCCA CCACGAATTG 
TCAGAGACAT CCTTGTGGTG GAAGAGGGTT CGAGTCTTTC AGCGAAGGTG AGTCCCCGTC 
GTCCATTGGC CTTTCAAAGA CTGAGCTCAG AGCTGACCAG ATGGTACGTT GCACAGATCC 
TCTTCTTTGT GGTCATATCG CGTTGGCATG GATAGAAGGT GTACAGTCCA AGAAGGTCAT 
GACCAGTGCG TGTGCAACTC TGACTATTTC TTGATCTTTG TATACCACGC AAATGCTGAT 
CTGTTCTGGT ATAGCACCGA AGCGTGAGTA TTTGGAGGAA TGTTCAAAGC TGAGTTTTCA 
GATTTCCTCG CAAACGAACA AGAATACCTG CGAAGAAGCA ACAACTCGGT CATTGACGAA 
AGGACGATGC ATGAAATCTA CCTCGAGCCC TTCAGAATTC AATGCAAGGC ACGACCTGCC 
GTCTTTGTAG GTTTCTATCT TTCGAATTGC CACAGGCCTC TTCAACCAGA CCTTTTGCGT 
TCTTCTAGTT GAAGGAACCT AATGCTAATG TCTCACATAG ATGACAAGTT ACAATCGAGT 
AAATGGTCTA CACGTGGCTG AACACCCTTT CTTACTGCGC AAGATCCTCC GAGGCGACTT 
CGAGTTCCAG GGTATGATCA TGTCCGACTG GAGTGGGACA TACTCTTCTT CAGAAGCTGT 
CAAGGCTTCT TTGGACCTTG AGATGCCCGG ACCTGCCTTG ATGAGGGGTT CAAGTTTGGA 
AAGGGATATC ATTGGCGGTA AACTCGTCCC TGCCGATATA GACGAGTGTG CTTTGAGGGT 
AAGTCGTCGT GCTTAATGCT CTTAGCACAG GGCTTATTGA TCTTTCATCT GATATAGGTC 
CTGCACTATG TCCAAGAAGC TCAACAGTCT GGTATCGACT TTGAAAAAGA CGAAGAAACC 
ATCGATACGC CCTATATCCG AGCATTACTG CGCGAAGCAG CCGATTCTGC CGTCGTCCTC 
CTCAAAAATG ACAAAAGTGT CTTGCCCATC TCTTCTCCCA ACGGCAAGAA GATCGCCGTC 
ATCGGCCCCA ATGCCAAAAC AGCCTCCTAT TCAGGTGGGG GAAGTGCCAA CCTTCCTCCG 
ACGTACCTCA TCACTCCCTT GGAGGCGATC ACCACATATG CCGAAAGCGT AGGGGCAAAA 
GTAGAATATA CAATCGGCTC CGATAGCTCG AGATGGACGC CGCTTTTGAC GCCTTTCATT 
CATCATCCCA CGATGGGTAA AGATGCCGGA CCAGGGGTGC AGTGCAATTT CTACGCCCAA 
AAGTGAGTAG CCCCTTCGCT TTCCTACTTT TCCACATAAG CTAACACGGC AAAACTTGAA 
GCCCATGGGA GAACAAGGTC AAACCTATTT TCTCAAAATA TAACAATTCG GCATTCTCGT 
ACTTCATCGA CGGTATACCG AAAGAAGTAC CAGTCAGAGG ATATGTATCT GTGAGCTCCA 
CCAATCAACA ACTTTTCTTC CGACCATAAC AAACTGACAT TACCTGTAGC TCAAGACAAT 
CTTCACTCCC GACGAAAGCG GGATTGTAAG TCCACAACCT GCGGGCTCAA GCTGACAGGG 
TAGTGGGAAC TTGGTCTGGG TGTAGCTGGA CAGGCCGATT TGTTCATTGA CGGAAAGAAG 
ATCATCGATA ACTCCACTGA TCAGAAAGAG GGTTTGCTTT TCGTAAGTTC ATGTATTTAT 
TGTCGTTCCA CAAGCCCTTT ATCTTCCGAT AACTGACAAG AGATATTGTA TTGTTTGTTT 
CTTCTCCCAA TCCAGTTCAA TACAGGCGCA GAAGAGCGTA CAGGTGAACT CAACGTTGAG 
GCTGGAAAAT CGTACGACCT CGAAGTCCGA TTTTCCAACT TCAAACAGCT AAATGCAATG 
TCTCCCTATG TACGTATATC CTCTGCAGCC TCAACCGGCT GCGCTGAGTG TGTAAGCTGA 
TCCTATCTGA TGTGTGTTGA TAGACCGGCC GTCGAGGTGG GATTCGAATC GGTGGAAGAA 
AGAAGCGCGA TGTCCGAGCA GAAATTGAGA AAGCTGTCAA GCTCGCTACT GAATCTGATG 
GTGAGAGTCC ATCTCAATTT TACATCTTTA GACTCAATTC AAGGACTGAC AAATTTTCGA 
TCAAGTCGCC ATTCTCTGTA TTGGTACGAA TTCAGAGTGG GAGTCTGAAT CCTATGATCG 
AGAAGATATG AAGCTTCCGC CAGGGACCGA CGAGCTCGTG CGGGCCGTAC TTTCCTCGAA 
GCCAGAGACG ATTATAGTCA ACCAATCCGG TATGCCAGTC GAGTTCCCCT GGCTTGACGA 
CGCGTCGGCT ATCGTTCAAG CCTTCTTCGG GGGCAACAAC TGCGGCACAG CCATCGCCGA 
TGTCGTCTTT GGCGTTGTCA ATCCAAGTGG CAAGCTACCA ATCACCTGGC CCAGGGTATT 
GGAGGATTAT CCGAGCCATG AAGGGTTCGG ACACCCGATC GATACCGTTT ATTGTGAAGG 
GTTGGGGGTT GGGTATAGGT ATTTTGACAG AGGGGATCAT CCAAAGAGCG CTTTTCCCTT 
CGGACATGGG TTGAGCTATA CTTCTTTCAC CTTTAGGTTA GTTGACTATT TCACTGCTTC 
CTATTATTCT ACCCTCTCCC TCCTCCTAAG AATGACCGTG ATTGGATCGG AAAAACTGAC 
GAAAGTGTGA GAAGCGAGTT ATCTGTTAAA TCCGAGGCTT GTGGCGCCAA AGCGAGTTTC 
ACCCTCACCA ACACCGGTGA AATCGATGGC GCAGAAGTCG CTCAAGTCTA CATCCACGAT 
CTAGCACCGA TAGTCGAAAG ACCAGAACAT GAACTAGCGG AATTCGTAAA AGTGTACTTA 
AGACCCGGAG AATCGAAGAC TGTTTCCGTT AGTCTTGATG TGAGTGGACG AGCCCTTTTG 
CGCCTCGCTG TCTTGAGGGA TCTTCTGAGA TAATGGCTGA TATCCGGCTG TGGGATGTGG 
TTAGCACAAA GCATTCTCAT TCTACAGCAT CCAAGAGAAG AGCTGGATCG GCAGGAAAGG 
CGATTATGAA ATTAGGATCG GGACGTCTTC TACTCTCATC CATCTTTCGA AACCTGTTCA 
TCTTGCTAGG TCATTCAAGT GGATAGGTCT CCAAGAGCCT CAGGTGTATG AGCCGACCTG 
GATCTAGTTG GTAGAATAGG TTCATCTGAC TTATAGACCT AATTGTTCTT TTGAGAATTT 
ATCTTATCGC CTGTGCTTGC GTACTTCGTA GCCTTGCTGC ACGTTA
 
Protein sequence
MTIINPEAVL KELSSEEKIA LLSGDDMWHT VAVPRLGIPR VRSTGTNGAT ASCFPSSTGL 
GASMDIDLAR RIGEALGEEC RARGVHCLLG PTTNCQRHPC GGRGFESFSE DPLLCGHIAL 
AWIEGVQSKK VMTSAYFLAN EQEYLRRSNN SVIDERTMHE IYLEPFRIQC KARPAVFMTS 
YNRVNGLHVA EHPFLLRKIL RGDFEFQGMI MSDWSGTYSS SEAVKASLDL EMPGPALMRG 
SSLERDIIGG KLVPADIDEC ALRVLHYVQE AQQSGIDFEK DEETIDTPYI RALLREAADS 
AVVLLKNDKS VLPISSPNGK KIAVIGPNAK TASYSGGGSA NLPPTYLITP LEAITTYAES 
VGAKVEYTIG SDSSRWTPLL TPFIHHPTMG KDAGPGVQCN FYAQNSRQSS LPTKAGLKKR 
DVRAEIEKAV KLATESDVAI LCIGTNSEWE SESYDREDMK LPPGTDELVR AVLSSKPETI 
IVNQSGMPVE FPWLDDASAI VQAFFGGNNC GTAIADVVFG VVNPSGKLPI TWPRVLEDYP 
SHEGFGHPID TVYCEGLGVG YRYFDRGDHP KSAFPFGHGL SYTSFTFSEL SVKSEACGAK 
ASFTLTNTGE IDGAEVAQVY IHDLAPIVER PEHELAEFVK VYLRPGESKT VSVSLDHKAF 
SFYSIQEKSW IGRKGDYEIR IGTSSTLIHL SKPVHLARSF KWIGLQEPQV YEPTWI