Shoemaker D D, Schadt E E, Armour C D, He Y D, Garrett-Engele P, McDonagh P D, Loerch P M, Leonardson A, Lum P Y, Cavet G, Wu L F, Altschuler S J, Edwards S, King J, Tsang J S, Schimmack G, Schelter J M, Koch J, Ziman M, Marton M J, Li B, Cundiff P, Ward T, Castle J, Krolewski M, Meyer M R, Mao M, Burchard J, Kidd M J, Dai H, Phillips J W, Linsley P S, Stoughton R, Scherer S, Boguski M S
Rosetta Inpharmatics, Inc., Kirkland, Washington 98034, USA.
Nature. 2001 Feb 15;409(6822):922-7. doi: 10.1038/35057141.
The most important product of the sequencing of a genome is a complete, accurate catalogue of genes and their products, primarily messenger RNA transcripts and their cognate proteins. Such a catalogue cannot be constructed by computational annotation alone; it requires experimental validation on a genome scale. Using 'exon' and 'tiling' arrays fabricated by ink-jet oligonucleotide synthesis, we devised an experimental approach to validate and refine computational gene predictions and define full-length transcripts on the basis of co-regulated expression of their exons. These methods can provide more accurate gene numbers and allow the detection of mRNA splice variants and identification of the tissue- and disease-specific conditions under which genes are expressed. We apply our technique to chromosome 22q under 69 experimental condition pairs, and to the entire human genome under two experimental conditions. We discuss implications for more comprehensive, consistent and reliable genome annotation, more efficient, full-length complementary DNA cloning strategies and application to complex diseases.
基因组测序最重要的产物是一份完整、准确的基因及其产物目录,主要是信使核糖核酸转录本及其相关蛋白质。这样的目录不能仅通过计算注释构建;它需要在基因组规模上进行实验验证。利用喷墨寡核苷酸合成制造的“外显子”和“平铺”阵列,我们设计了一种实验方法,以验证和完善计算基因预测,并根据外显子的共调控表达来定义全长转录本。这些方法可以提供更准确的基因数量,并能够检测信使核糖核酸剪接变体,识别基因表达的组织和疾病特异性条件。我们将我们的技术应用于69对实验条件下的22号染色体q区域,以及两种实验条件下的整个人类基因组。我们讨论了其对于更全面、一致和可靠的基因组注释、更高效的全长互补脱氧核糖核酸克隆策略以及在复杂疾病中的应用的意义。
