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Genomic islands in the pathogenic filamentous fungus Aspergillus fumigatus
Authors:Fedorova Natalie D  Khaldi Nora  Joardar Vinita S  Maiti Rama  Amedeo Paolo  Anderson Michael J  Crabtree Jonathan  Silva Joana C  Badger Jonathan H  Albarraq Ahmed  Angiuoli Sam  Bussey Howard  Bowyer Paul  Cotty Peter J  Dyer Paul S  Egan Amy  Galens Kevin  Fraser-Liggett Claire M  Haas Brian J  Inman Jason M  Kent Richard  Lemieux Sebastien  Malavazi Iran  Orvis Joshua  Roemer Terry  Ronning Catherine M  Sundaram Jaideep P  Sutton Granger  Turner Geoff  Venter J Craig  White Owen R  Whitty Brett R  Youngman Phil  Wolfe Kenneth H  Goldman Gustavo H  Wortman Jennifer R  Jiang Bo  Denning David W  Nierman William C
Affiliation:The J. Craig Venter Institute, Rockville, Maryland, United States of America.
Abstract:We present the genome sequences of a new clinical isolate of the important human pathogen, Aspergillus fumigatus, A1163, and two closely related but rarely pathogenic species, Neosartorya fischeri NRRL181 and Aspergillus clavatus NRRL1. Comparative genomic analysis of A1163 with the recently sequenced A. fumigatus isolate Af293 has identified core, variable and up to 2% unique genes in each genome. While the core genes are 99.8% identical at the nucleotide level, identity for variable genes can be as low 40%. The most divergent loci appear to contain heterokaryon incompatibility (het) genes associated with fungal programmed cell death such as developmental regulator rosA. Cross-species comparison has revealed that 8.5%, 13.5% and 12.6%, respectively, of A. fumigatus, N. fischeri and A. clavatus genes are species-specific. These genes are significantly smaller in size than core genes, contain fewer exons and exhibit a subtelomeric bias. Most of them cluster together in 13 chromosomal islands, which are enriched for pseudogenes, transposons and other repetitive elements. At least 20% of A. fumigatus-specific genes appear to be functional and involved in carbohydrate and chitin catabolism, transport, detoxification, secondary metabolism and other functions that may facilitate the adaptation to heterogeneous environments such as soil or a mammalian host. Contrary to what was suggested previously, their origin cannot be attributed to horizontal gene transfer (HGT), but instead is likely to involve duplication, diversification and differential gene loss (DDL). The role of duplication in the origin of lineage-specific genes is further underlined by the discovery of genomic islands that seem to function as designated "gene dumps" and, perhaps, simultaneously, as "gene factories".
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