Functional Analysis of Tadhn1312 by Virus-Induced Gene Silencing (VIGS) in Common Wheat (Triticum aestivum L.)

Journal of Plant Molecular Breeding Pub Date : 2020-06-19 DOI:10.5376/mpb.2020.11.0002

Pengyu Zhang, Guorui Wang, X. Qiu, Bao Zhang, Li Wei, Tong-chao Wang

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Abstract

Virus-induced gene silencing (VIGS) is an important tool for gene function analysis in plants. In the present study, the function identification of a candidate gene named Tadhn1312 encoding Dehydrin protein obtained from the high-throughput transcriptome was carried out by VIGS. Leaves appeared the chlorotic phenotype and the transcript level of TaPDS decreased rapidly at 7 days after the inoculation by BSMV: TaPDS, which indicated that the virus had successfully infected wheat leaves and the BSMV system was efficient. The chlorophyll content of leaves with BSMV: TaPDS and BSMV: Tadhn1312 inoculation decreased at 7 days, and reached significant level compared with the control. After the inoculation by BSMV: Tadhn1312, the transcript level of Tadhn1312 was rapidly decreased at 7 days, and reached the minimum value at 21 days, indicated that Tadhn1312 had been silenced. The spike differentiation procession of wheat plants inoculated by BSMV: Tadhn1312 was late than that inoculated by BSMV: 00. The result showed that the silencing of Tadhn1312 prolonged the spike differentiation process, illustrating that Tadhn1312 gene was involved in the spike differentiation process of wheat directly or indirectly.

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普通小麦(Triticum aestivum L.)病毒诱导基因沉默(VIGS)对Tadhn1312的功能分析

病毒诱导的基因沉默(VIGS)是植物基因功能分析的重要工具。本研究利用VIGS对高通量转录组中获得的编码Dehydrin蛋白的候选基因Tadhn1312进行功能鉴定。接种BSMV: TaPDS后7 d，小麦叶片出现褪绿表型，TaPDS转录物水平迅速下降，表明该病毒成功侵染小麦叶片，BSMV体系是有效的。接种BSMV: TaPDS和BSMV: Tadhn1312后叶片叶绿素含量在第7天下降，且与对照相比达到显著水平。接种BSMV: Tadhn1312后，Tadhn1312的转录本水平在第7天迅速下降，在第21天达到最低水平，表明Tadhn1312已被沉默。接种BSMV: Tadhn1312的小麦植株穗分化过程比接种BSMV: 00的晚。结果表明，Tadhn1312基因的沉默延长了小麦穗分化过程，说明Tadhn1312基因直接或间接参与了小麦穗分化过程。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Plant Molecular Breeding

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16 weeks