AtRD22和AtUSPL1是拟南芥中参与耐旱性的植物特异性BURP结构域家族成员。

AtRD22 and AtUSPL1, members of the plant-specific BURP domain family involved in Arabidopsis thaliana drought tolerance.

作者信息

Harshavardhan Vokkaliga Thammegowda, Van Son Le, Seiler Christiane, Junker Astrid, Weigelt-Fischer Kathleen, Klukas Christian, Altmann Thomas, Sreenivasulu Nese, Bäumlein Helmut, Kuhlmann Markus

机构信息

Research Group Abiotic Stress Genomics, Interdisciplinary Center for Crop Plant Research (IZN), Halle (Saale), Germany, and Leibniz Institute of Plant Genetics and Crop Plant Research (IPK) Gatersleben, Stadt Seeland, OT Gatersleben, Germany.

Research Group Gene Regulation, Leibniz Institute of Plant Genetics and Crop Plant Research (IPK) Gatersleben, Stadt Seeland, OT Gatersleben, Germany; National Key Laboratory of Gene Technology, Institute of Biotechnology Vietnam, Academy of Science and Technology, Hanoi, Vietnam.

出版信息

PLoS One. 2014 Oct 15;9(10):e110065. doi: 10.1371/journal.pone.0110065. eCollection 2014.

DOI:10.1371/journal.pone.0110065

PMID:25333723

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4198191/

Abstract

Crop plants are regularly challenged by a range of environmental stresses which typically retard their growth and ultimately compromise economic yield. The stress response involves the reprogramming of approximately 4% of the transcriptome. Here, the behavior of AtRD22 and AtUSPL1, both members of the Arabidopsis thaliana BURP (BNM2, USP, RD22 and polygalacturonase isozyme) domain-containing gene family, has been characterized. Both genes are up-regulated as part of the abscisic acid (ABA) mediated moisture stress response. While AtRD22 transcript was largely restricted to the leaf, that of AtUSPL1 was more prevalent in the root. As the loss of function of either gene increased the plant's moisture stress tolerance, the implication was that their products act to suppress the drought stress response. In addition to the known involvement of AtUSPL1 in seed development, a further role in stress tolerance was demonstrated. Based on transcriptomic data and phenotype we concluded that the enhanced moisture stress tolerance of the two loss-of-function mutants is a consequence of an enhanced basal defense response.

摘要

农作物经常受到一系列环境胁迫的挑战，这些胁迫通常会阻碍其生长并最终影响经济产量。应激反应涉及约4%的转录组重编程。在此，对拟南芥BURP（BNM2、USP、RD22和多聚半乳糖醛酸酶同工酶）结构域基因家族的两个成员AtRD22和AtUSPL1的行为进行了表征。这两个基因作为脱落酸（ABA）介导的水分胁迫反应的一部分被上调。虽然AtRD22转录本主要局限于叶片，但AtUSPL1转录本在根中更为普遍。由于任一基因功能的丧失都提高了植物的水分胁迫耐受性，这意味着它们的产物起到抑制干旱胁迫反应的作用。除了已知的AtUSPL1参与种子发育外，还证明了其在胁迫耐受性方面的进一步作用。基于转录组数据和表型，我们得出结论，两个功能缺失突变体增强的水分胁迫耐受性是基础防御反应增强的结果。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2739/4198191/6c1cb7f41f12/pone.0110065.g001.jpg

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AtRD22和AtUSPL1是拟南芥中参与耐旱性的植物特异性BURP结构域家族成员。

AtRD22 and AtUSPL1, members of the plant-specific BURP domain family involved in Arabidopsis thaliana drought tolerance.

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