Applications of next generation high throughput sequencing technologies in characterization, discovery and molecular interaction of plant viruses.

Indian Journal of Virology Pub Date : 2013-09-01 Epub Date: 2013-05-11 DOI:10.1007/s13337-013-0133-4

K Prabha, V K Baranwal, R K Jain

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Abstract

Present era of molecular biology is witnessing revolutionary developments in sequencing technology. This advancement has considerably influenced plant virology in the field of diagnostics and host virus interaction. Next generation high-throughput sequencing technology has made it possible to directly detect, identify and discover novel viruses in several plants in an unbiased manner without antibodies or prior knowledge of the virus sequences. Entire viral genome could be sequenced from symptomatic or asymptomatic plants through next generation sequencing of total nucleic acids including small RNAs. It provides census of viral population in a particular ecosystem or cropping system. Viral genome variability, evolution within the host and virus defence mechanism in plants can also be easily understood by massive parallel sequencing. In this article, we provide an overview of the applications of next generation sequencing technology in characterization, discovery and molecular interaction of plant viruses.

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新一代高通量测序技术在植物病毒特征描述、发现和分子相互作用中的应用。

当今的分子生物学时代见证了测序技术的革命性发展。这一进步极大地影响了植物病毒学在诊断和宿主病毒相互作用领域的发展。下一代高通量测序技术可以在没有抗体或事先不了解病毒序列的情况下，以无偏见的方式直接检测、识别和发现几种植物中的新型病毒。通过对总核酸（包括小核糖核酸）进行新一代测序，可以对有症状或无症状植物的整个病毒基因组进行测序。它可对特定生态系统或种植系统中的病毒种群进行普查。通过大规模并行测序，还能轻松了解病毒基因组的变异性、宿主体内的进化以及植物体内的病毒防御机制。本文概述了新一代测序技术在植物病毒特征描述、发现和分子相互作用方面的应用。

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来源期刊

Indian Journal of Virology 医学-病毒学

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0.00%

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审稿时长

6-12 weeks