Sims Andrew H, Gent Manda E, Robson Geoffrey D, Dunn-Coleman Nigel S, Oliver Stephen G
School of Biological Sciences, University of Manchester, The Michael Smith Building, Manchester M13 9PT, UK.
Mycol Res. 2004 Aug;108(Pt 8):853-7. doi: 10.1017/s095375620400067x.
Whole genome sequencing of several filamentous ascomycetes is complete or in progress; these species, such as Aspergillus nidulans, are relatives of Saccharomyces cerevisiae. However, their genomes are much larger and their gene structure more complex, with genes often containing multiple introns. Automated annotation programs can quickly identify open reading frames for hypothetical genes, many of which will be conserved across large evolutionary distances, but further information is required to confirm functional assignments. We describe a comparative and functional genomics approach using sequence alignments and gene expression data to predict the function of Aspergillus nidulans genes. By highlighting examples of discrepancies between the automated genome annotation and cDNA or EST sequencing, we demonstrate that the greater complexity of gene structure in filamentous fungi demands independent data on gene expression and the gene sequence be used to make confident functional assignments.
几种丝状子囊菌的全基因组测序已经完成或正在进行;这些物种,如构巢曲霉,是酿酒酵母的亲缘物种。然而,它们的基因组要大得多,基因结构也更复杂,基因通常含有多个内含子。自动化注释程序可以快速识别假设基因的开放阅读框,其中许多在很大的进化距离上都是保守的,但还需要进一步的信息来确认功能分配。我们描述了一种比较和功能基因组学方法,利用序列比对和基因表达数据来预测构巢曲霉基因的功能。通过突出自动化基因组注释与cDNA或EST测序之间差异的例子,我们证明丝状真菌中基因结构的更大复杂性需要关于基因表达的独立数据,并利用基因序列来进行可靠的功能分配。