赤霉素氧化酶基因在两种大麦(Hordeum vulgare)基因型中的转录本丰度比较,这两种基因型在不同的缺水制度下具有截然不同的抗宿主性。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Shoaib Liaqat, Zulfiqar Ali, Muhammad Abu Bakar Saddique, Rao Muhammad Ikram, Imtiaz Ali
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引用次数: 0

摘要

大麦(Hordeum vulgare)是世界第四大重要谷物作物,特别适应恶劣环境。然而,大麦的结实是制约其产量的一个主要因素,会造成 13-65% 的产量损失。赤霉素(GA)平衡基因(如 HvGA20ox、HvGA3ox 和 HvGA2ox)负责改变植物高度和节间长度的表型,从而促进抗倒伏。本研究探讨了两种截然不同的大麦基因型(5-GSBON-18,抗倒伏;5-GSBON-70,对倒伏敏感)中不同 HvGAox 转录物的表达情况,这两种基因型分别在对照(水培,完全随机因子设计)和田间条件(分块,完全随机区组设计)下播种,并采用两种灌溉处理(正常灌溉,三次灌溉;缺水灌溉,一次灌溉)。在水培实验中,对施用处理后 0、¾、1½、3 和 6 小时的幼苗进行了表达分析。在田间试验中,对叶片、芽节和节间进行了取样。在缺水条件下,5-GSBON-18 的 HvGA20ox.1 转录物下调,HvGA2ox.2 转录物上调 2 倍。该基因型的植株高度(18%-20%)、结实率(10%-15%)和产量(10%-20%)也明显下降。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparative transcript abundance of gibberellin oxidases genes in two barley (Hordeum vulgare) genotypes with contrasting lodging resistance under different regimes of water deficit.

Barley (Hordeum vulgare ) is the world's fourth most important cereal crop, and is particularly well adapted to harsh environments. However, lodging is a major productivity constraint causing 13-65% yield losses. Gibberellic acid (GA) homeostatic genes such as HvGA20ox, HvGA3ox and HvGA2ox are responsible for changes in plant phenotype for height and internodal length that contribute towards lodging resistance. This study explored the expression of different HvGAox transcripts in two contrasting barley genotypes (5-GSBON-18, lodging resistant; and 5-GSBON-70, lodging sensitive), which were sown both under controlled (hydroponic, completely randomised factorial design) and field conditions (split-plot, completely randomised block design) with two irrigation treatments (normal with three irrigation events; and water deficit with one irrigation event). In the hydroponic experiment, expression analysis was performed on seedlings at 0, ¾, 1½, 3 and 6h after application of treatment. In the field experiment, leaf, shoot nodes and internodes were sampled. Downregulation of HvGA20ox.1 transcript and 2-fold upregulation of HvGA2ox.2 transcript were observed in 5-GSBON-18 under water deficit conditions. This genotype also showed a significant reduction in plant height (18-20%), lodging (<10%), and increased grain yield (15-18%) under stress. Utilisation of these transcripts in barley breeding has the potential to reduce plant height, lodging and increased grain yield.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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