Ho Eric C H, Cahill Matt J, Saville Barry J
Department of Medical Biophysics, University of Toronto, Toronto ON, M5G 1L7, Canada.
BMC Genomics. 2007 Sep 24;8:334. doi: 10.1186/1471-2164-8-334.
Ustilago maydis is the basidiomycete fungus responsible for common smut of corn and is a model organism for the study of fungal phytopathogenesis. To aid in the annotation of the genome sequence of this organism, several expressed sequence tag (EST) libraries were generated from a variety of U. maydis cell types. In addition to utility in the context of gene identification and structure annotation, the ESTs were analyzed to identify differentially abundant transcripts and to detect evidence of alternative splicing and anti-sense transcription.
Four cDNA libraries were constructed using RNA isolated from U. maydis diploid teliospores (U. maydis strains 518 x 521) and haploid cells of strain 521 grown under nutrient rich, carbon starved, and nitrogen starved conditions. Using the genome sequence as a scaffold, the 15,901 ESTs were assembled into 6,101 contiguous expressed sequences (contigs); among these, 5,482 corresponded to predicted genes in the MUMDB (MIPS Ustilago maydis database), while 619 aligned to regions of the genome not yet designated as genes in MUMDB. A comparison of EST abundance identified numerous genes that may be regulated in a cell type or starvation-specific manner. The transcriptional response to nitrogen starvation was assessed using RT-qPCR. The results of this suggest that there may be cross-talk between the nitrogen and carbon signalling pathways in U. maydis. Bioinformatic analysis identified numerous examples of alternative splicing and anti-sense transcription. While intron retention was the predominant form of alternative splicing in U. maydis, other varieties were also evident (e.g. exon skipping). Selected instances of both alternative splicing and anti-sense transcription were independently confirmed using RT-PCR.
Through this work: 1) substantial sequence information has been provided for U. maydis genome annotation; 2) new genes were identified through the discovery of 619 contigs that had previously escaped annotation; 3) evidence is provided that suggests the regulation of nitrogen metabolism in U. maydis differs from that of other model fungi, and 4) Alternative splicing and anti-sense transcription were identified in U. maydis and, amid similar observations in other basidiomycetes, this suggests these phenomena may be widespread in this group of fungi. These advances emphasize the importance of EST analysis in genome annotation.
玉蜀黍黑粉菌是引起玉米普通黑粉病的担子菌,是研究真菌植物致病机制的模式生物。为辅助注释该生物体的基因组序列,从多种玉蜀黍黑粉菌细胞类型构建了几个表达序列标签(EST)文库。除了在基因鉴定和结构注释方面的作用外,还对EST进行了分析,以鉴定差异丰富的转录本,并检测可变剪接和反义转录的证据。
使用从玉蜀黍黑粉菌二倍体冬孢子(玉蜀黍黑粉菌菌株518×521)以及在营养丰富、碳饥饿和氮饥饿条件下生长的521菌株单倍体细胞中分离的RNA构建了四个cDNA文库。以基因组序列为支架,将15901个EST组装成6101个连续表达序列(重叠群);其中,5482个与MUMDB(慕尼黑蛋白质序列信息中心玉蜀黍黑粉菌数据库)中的预测基因相对应,而619个与MUMDB中尚未指定为基因的基因组区域对齐。EST丰度比较鉴定出许多可能以细胞类型或饥饿特异性方式调控的基因。使用RT-qPCR评估了对氮饥饿的转录反应。结果表明,玉蜀黍黑粉菌中氮和碳信号通路之间可能存在相互作用。生物信息学分析鉴定出许多可变剪接和反义转录的实例。虽然内含子保留是玉蜀黍黑粉菌中可变剪接的主要形式,但其他形式也很明显(例如外显子跳跃)。使用RT-PCR独立证实了可变剪接和反义转录的选定实例。
通过这项工作:1)为玉蜀黍黑粉菌基因组注释提供了大量序列信息;2)通过发现619个以前未注释的重叠群鉴定了新基因;3)有证据表明玉蜀黍黑粉菌中氮代谢的调控与其他模式真菌不同;4)在玉蜀黍黑粉菌中鉴定出可变剪接和反义转录,鉴于在其他担子菌中的类似观察结果,这表明这些现象可能在这组真菌中广泛存在。这些进展强调了EST分析在基因组注释中的重要性。
