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Analysis of the Genome and Transcriptome of Cryptococcus neoformans var. grubii Reveals Complex RNA Expression and Microevolution Leading to Virulence Attenuation

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dc.contributor.author Janbon, Guilhem
dc.contributor.author Ormerod, Kate L.
dc.contributor.author Paulet, Damien
dc.contributor.author Byrnes, Edmond J., III
dc.contributor.author Yadav, Vikas
dc.contributor.author Chatterjee, Gautam
dc.contributor.author Mullapudi, Nandita
dc.contributor.author Hon, Chung-Chau
dc.contributor.author Billmyre, R. Blake
dc.contributor.author Brunel, Francois
dc.contributor.author Bahn, Yong-Sun
dc.contributor.author Chen, Weidong
dc.contributor.author Chen, Yuan
dc.contributor.author Chow, Eve W. L.
dc.contributor.author Coppee, Jean-Yves
dc.contributor.author Floyd-Averette, Anna
dc.contributor.author Gaillardin, Claude
dc.contributor.author Gerik, Kimberly J.
dc.contributor.author Goldberg, Jonathan
dc.contributor.author Gonzalez-Hilarion, Sara
dc.contributor.author Gujja, Sharvari
dc.contributor.author Hamlin, Joyce L.
dc.contributor.author Hsueh, Yen-Ping
dc.contributor.author Ianiri, Giuseppe
dc.contributor.author Jones, Steven
dc.contributor.author Kodira, Chinnappa D.
dc.contributor.author Kozubowski, Lukasz
dc.contributor.author Lam, Woei
dc.contributor.author Marra, Marco
dc.contributor.author Mesner, Larry D.
dc.contributor.author Mieczkowski, Piotr A.
dc.contributor.author Moyrand, Frederique
dc.contributor.author Nielsen, Kirsten
dc.contributor.author Proux, Caroline
dc.contributor.author Rossignol, Tristan
dc.contributor.author Schein, Jacqueline E.
dc.contributor.author Sun, Sheng
dc.contributor.author Wollschlaeger, Carolin
dc.contributor.author Wood, Ian A.
dc.contributor.author Zeng, Qiandong
dc.contributor.author Neuveglise, Cecile
dc.contributor.author Newlon, Carol S.
dc.contributor.author Perfect, John R.
dc.contributor.author Lodge, Jennifer K.
dc.contributor.author Idnurm, Alexander
dc.contributor.author Stajich, Jason E.
dc.contributor.author Kronstad, James W.
dc.contributor.author Sanyal, Kaustuv
dc.contributor.author Heitman, Joseph
dc.contributor.author Fraser, James A.
dc.contributor.author Cuomo, Christina A.
dc.contributor.author Dietrich, Fred S.
dc.date.accessioned 2017-02-21T07:11:26Z
dc.date.available 2017-02-21T07:11:26Z
dc.date.issued 2014
dc.identifier.citation Janbon, G; Ormerod, KL; Paulet, D; Byrnes, EJ; Yadav, V; Chatterjee, G; Mullapudi, N; Hon, CC; Billmyre, RB; Brunel, F; Bahn, YS; Chen, WD; Chen, Y; Chow, EWL; Coppee, JY; Floyd-Averette, A; Gaillardin, C; Gerik, KJ; Goldberg, J; Gonzalez-Hilarion, S; Gujja, S; Hamlin, JL; Hsueh, YP; Ianiri, G; Jones, S; Kodira, CD; Kozubowski, L; Lam, W; Marra, M; Mesner, LD; Mieczkowski, PA; Moyrand, F; Nielsen, K; Proux, C; Rossignol, T; Schein, JE; Sun, S; Wollschlaeger, C; Wood, IA; Zeng, QD; Neuveglise, C; Newlon, CS; Perfect, JR; Lodge, JK; Idnurm, A; Stajich, JE; Kronstad, JW; Sanyal, K; Heitman, J; Fraser, JA; Cuomo, CA; Dietrich, FS, Analysis of the Genome and Transcriptome of Cryptococcus neoformans var. grubii Reveals Complex RNA Expression and Microevolution Leading to Virulence Attenuation. PLoS Genetics 2014, 10 (4), e1004261 http://dx.doi.org/10.1371/journal.pgen.1004261 en_US
dc.identifier.citation PLoS Genetics en_US
dc.identifier.citation 10 en_US
dc.identifier.citation 4 en_US
dc.identifier.issn 1553-7390
dc.identifier.uri https://libjncir.jncasr.ac.in/xmlui/10572/2475
dc.description Open Access en_US
dc.description.abstract Cryptococcus neoformans is a pathogenic basidiomycetous yeast responsible for more than 600,000 deaths each year. It occurs as two serotypes (A and D) representing two varieties (i.e. grubii and neoformans, respectively). Here, we sequenced the genome and performed an RNA-Seq-based analysis of the C. neoformans var. grubii transcriptome structure. We determined the chromosomal locations, analyzed the sequence/structural features of the centromeres, and identified origins of replication. The genome was annotated based on automated and manual curation. More than 40,000 introns populating more than 99% of the expressed genes were identified. Although most of these introns are located in the coding DNA sequences (CDS), over 2,000 introns in the untranslated regions (UTRs) were also identified. Poly(A)-containing reads were employed to locate the polyadenylation sites of more than 80% of the genes. Examination of the sequences around these sites revealed a new poly(A)-site-associated motif (AUGHAH). In addition, 1,197 miscRNAs were identified. These miscRNAs can be spliced and/or polyadenylated, but do not appear to have obvious coding capacities. Finally, this genome sequence enabled a comparative analysis of strain H99 variants obtained after laboratory passage. The spectrum of mutations identified provides insights into the genetics underlying the micro-evolution of a laboratory strain, and identifies mutations involved in stress responses, mating efficiency, and virulence. en_US
dc.description.uri 1553-7404 en_US
dc.description.uri http://dx.doi.org/10.1371/journal.pgen.1004261 en_US
dc.language.iso English en_US
dc.publisher Public Library of Science en_US
dc.rights @Public Library of Science, 2014 en_US
dc.subject Genetics & Heredity en_US
dc.subject DNA-Sequencing Data en_US
dc.subject Replication Origins en_US
dc.subject Alternative Polyadenylation en_US
dc.subject Candida-Albicans en_US
dc.subject Seq Data en_US
dc.subject Nucleotide Resolution en_US
dc.subject Functional Genomics en_US
dc.subject Centromere Function en_US
dc.subject Gene Prediction en_US
dc.subject Sexual Cycle en_US
dc.title Analysis of the Genome and Transcriptome of Cryptococcus neoformans var. grubii Reveals Complex RNA Expression and Microevolution Leading to Virulence Attenuation en_US
dc.type Article en_US


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