桦木 ELONGATED HYPOCOTYL 5 基因可增强对紫外线-B 和干旱的耐受性。

Forestry research Pub Date : 2024-06-19 eCollection Date: 2024-01-01 DOI:10.48130/forres-0024-0019
Shangzhu Gao, Xiaohui Chen, Meihan Lin, Yibo Yin, Xiaoyi Li, Yaguang Zhan, Ying Xin, Fansuo Zeng
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引用次数: 0

摘要

紫外线-B 辐射和干旱是限制植物生长的主要因素,尤其是在夏季。ELONGATED HYPOCOTYL 5(HY5)是一种 bZIP 转录因子(TF),对光形态发生具有有利影响。然而,Betula platyphylla 的 HY5(BpHY5)序列尚未确定,基因功能也未明确。我们克隆了 BpHY5 的序列,并将其定位于细胞核。拟南芥异源表达和反向突变的下胚轴表型表明,BpHY5 与 AtHY5 同源。BpHY5的表达在紫外线-B辐射、干旱条件和脱落酸(ABA)的存在下均有所增加。BpHY5 的过表达提高了对 UV-B 辐射和干旱的耐受性,降低了对 ABA 的敏感性,并具有更高的发芽率和返青率、更发达的根系、更强的活性氧清除能力和更低的损伤程度。此外,过表达 BpHY5 能上调耐性相关基因(NCED3/9、ABI5、DREB2A、RD20、ERF4、NDB2 和 APX2)的表达。简而言之,该研究表明,桦树中的 BpHY5 是植物对紫外线-B 辐射和干旱胁迫反应的有益调节因子。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A birch ELONGATED HYPOCOTYL 5 gene enhances UV-B and drought tolerance.

UV-B radiation and drought majorly restrict plant growth, particularly in summer. ELONGATED HYPOCOTYL 5 (HY5), a bZIP transcription factor (TF), has a beneficial impact on photomorphogenesis. However, the sequence of HY5 from Betula platyphylla (BpHY5) has not been identified and the gene functions remain unclarified. We cloned the sequence of BpHY5, which was targeted to the nucleus. The hypocotyl phenotypes of heterologous expression in Arabidopsis thaliana and reverse mutation showed that BpHY5 is homologous to AtHY5. The expression of BpHY5 was increased in response to UV-B radiation, drought conditions, and the presence of abscisic acid (ABA). The overexpression of BpHY5 resulted in increased tolerance to UV-B radiation and drought and decreased ABA sensitivity with higher germination and greening rate, more developmental root system, stronger reactive oxygen species scavenging ability, and lower damage degree. The lignin content under UV-B condition of BpHY5/Col was higher than that of Col. Furthermore, overexpressing BpHY5 up-regulated the expression of genes related to tolerance (NCED3/9, ABI5, DREB2A, RD20, ERF4, NDB2, and APX2). In brief, the study suggests that BpHY5 from birch serves as a beneficial modulator of plant responses to UV-B radiation and drought stress.

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