节节麦和长穗偃麦草的外源染色体片段通过增加根系的数量和深度提高小麦的耐旱性。

Alien chromosome segment from Aegilops speltoides and Dasypyrum villosum increases drought tolerance in wheat via profuse and deep root system.

机构信息

Department of Agronomy, Kansas State University, Manhattan, Kansas, 66506, USA.

Department of Crop Physiology, Tamil Nadu Agricultural University, Coimbatore, 641 003, India.

出版信息

BMC Plant Biol. 2019 Jun 7;19(1):242. doi: 10.1186/s12870-019-1833-8.

DOI:10.1186/s12870-019-1833-8

PMID:31174465

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6554880/

Abstract

BACKGROUND

Recurrent drought associated with climate change is a major constraint to wheat (Triticum aestivum L.) productivity. This study aimed to (i) quantify the effects of addition/substitution/translocation of chromosome segments from wild relatives of wheat on the root, physiological and yield traits of hexaploid wheat under drought, and (ii) understand the mechanism(s) associated with drought tolerance or susceptibility in wheat-alien chromosome lines.

METHODS

A set of 48 wheat-alien chromosome lines (addition/substitution/translocation lines) with Chinese Spring background were used. Seedling root traits were studied on solid agar medium. To understand the influence of drought on the root system of adult plants, these 48 lines were grown in 150-cm columns for 65 d under full irrigation or withholding water for 58 d. To quantify the effect of drought on physiological and yield traits, the 48 lines were grown in pots under full irrigation until anthesis; after that, half of the plants were drought stressed by withholding water for 16 d before recording physiological and yield-associated traits.

RESULTS

The alien chromosome lines exhibited altered root architecture and decreased photochemical efficiency and seed yield and its components under drought. The wheat-alien chromosome lines T5DS·5S#3L (TA5088) with a chromosome segment from Aegilops speltoides (5S) and T5DL5 V#3S (TA5638) with a chromosome segment from Dasypyrum villosum (5 V) were identified as drought tolerant, and the drought tolerance mechanism was associated with a deep, thin and profuse root system.

CONCLUSIONS

The two germplasm lines (TA5088 and TA5638) could be used in wheat breeding programs to improve drought tolerance in wheat and understand the underlying molecular genetic mechanisms of root architecture and drought tolerance.

摘要

背景

与气候变化相关的复发性干旱是小麦（Triticum aestivum L.）生产力的主要制约因素。本研究旨在：（i）量化来自小麦野生近缘种的染色体片段的添加/替代/易位对六倍体小麦在干旱下的根、生理和产量性状的影响，以及（ii）了解与小麦-外源染色体系耐旱性或敏感性相关的机制。

方法

使用一组具有春小麦背景的 48 条小麦-外源染色体系（添加/替代/易位系）。在固体琼脂培养基上研究幼苗根系性状。为了了解干旱对成年植株根系的影响，将这 48 条系在 150-cm 柱中种植 65 天，在充分灌溉或停水 58 天的条件下。为了量化干旱对生理和产量性状的影响，将这 48 条系在充分灌溉的盆中种植，直到开花；之后，一半的植物通过停水 16 天来进行干旱胁迫，然后记录生理和与产量相关的性状。

结果

外源染色体系表现出改变的根系结构和降低的光化学效率以及种子产量及其组成，在干旱条件下。具有来自 Aegilops speltoides（5S）的染色体片段的小麦-外源染色体系 T5DS·5S#3L（TA5088）和具有来自 Dasypyrum villosum（5V）的染色体片段的 T5DL5V#3S（TA5638）被鉴定为耐旱，其耐旱机制与深、薄和丰富的根系有关。

结论

这两个种质系（TA5088 和 TA5638）可用于小麦育种计划，以提高小麦的耐旱性，并了解根系结构和耐旱性的潜在分子遗传机制。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f212/6554880/78ecf1a917a4/12870_2019_1833_Fig1_HTML.jpg

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节节麦和长穗偃麦草的外源染色体片段通过增加根系的数量和深度提高小麦的耐旱性。

Alien chromosome segment from Aegilops speltoides and Dasypyrum villosum increases drought tolerance in wheat via profuse and deep root system.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

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方法

结果

结论

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