多害虫抗性小麦基因第11和12外显子的变异对叶锈病抗性具有独立的累加效应。

Variations in exons 11 and 12 of the multi-pest resistance wheat gene are independently additive for leaf rust resistance.

作者信息

Cloutier Sylvie, Reimer Elsa, Khadka Bijendra, McCallum Brent D

机构信息

Ottawa Research and Development Centre, Agriculture and Agri-Food Canada, Ottawa, ON, Canada.

Morden Research and Development Centre, Agriculture and Agri-Food Canada, Morden, MB, Canada.

出版信息

Front Plant Sci. 2023 Feb 23;13:1061490. doi: 10.3389/fpls.2022.1061490. eCollection 2022.

DOI:10.3389/fpls.2022.1061490

PMID:36910459

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9995823/

Abstract

INTRODUCTION

Characterization of germplasm collections for the wheat leaf rust gene Lr34 previously defined five haplotypes in spring wheat. All resistant lines had a 3-bp TTC deletion (null) in exon 11, resulting in the absence of a phenylalanine residue in the ABC transporter, as well as a single nucleotide C (Tyrosine in Lr34+) to T (Histidine in Lr34-) transition in exon 12. A rare haplotype present in Odesskaja 13 and Koktunkulskaja 332, both of intermediate rust resistance, had the 3-bp deletion typical of Lr34+ in exon 11 but the T nucleotide of Lr34- in exon 12.

METHODS

To quantify the role of each mutation in leaf rust resistance, Odesskaja 13 and Koktunkulskaja 332 were crossed to Thatcher and its near-isogenic line Thatcher-Lr34 (RL6058). Single seed descent populations were generated and evaluated for rust resistance in six different rust nurseries.

RESULTS

The Odesskaja 13 progeny with the TTC/T haplotype were susceptible with an average severity rating of 62.3%, the null/T haplotype progeny averaged 39.7% and the null/C haplotype was highly resistant, averaging 13.3% severity. The numbers for the Koktunkulskaja 332 crosses were similar with 63.5%, 43.5% and 23.7% severity ratings, respectively. Differences between all classes in all crosses were statistically significant, indicating that both mutations are independently additive for leaf rust resistance. The three-dimensional structural models of LR34 were used to analyze the locations and putative interference of both amino acids with the transport channel. Koktunkulskaja 332 also segregated for marker csLV46 which is linked to Lr46. Rust severity in lines with Lr34+ and csLV46+ had significantly lower rust severity ratings than those without, indicating the additivity of the two loci.

DISCUSSION

This has implications for the deployment of Lr34 in wheat cultivars and for the basic understanding of this important wheat multi-pest durable resistance gene.

摘要

引言

对先前确定的小麦叶锈病基因Lr34的种质资源库进行特征分析，在春小麦中定义了五种单倍型。所有抗性品系在第11外显子中有一个3bp的TTC缺失（无效），导致ABC转运蛋白中缺少一个苯丙氨酸残基，以及第12外显子中单个核苷酸C（Lr34+中的酪氨酸）到T（Lr34-中的组氨酸）的转变。在Odesskaja 13和Koktunkulskaja 332中存在一种罕见的单倍型，二者均具有中等锈病抗性，在第11外显子中有Lr34+典型的3bp缺失，但在第12外显子中有Lr34-的T核苷酸。

方法

为了量化每个突变在叶锈病抗性中的作用，将Odesskaja 13和Koktunkulskaja 332与Thatcher及其近等基因系Thatcher-Lr34（RL6058）杂交。通过单粒传法构建群体，并在六个不同的锈病苗圃中评估其锈病抗性。

结果

具有TTC/T单倍型的Odesskaja 13后代感病，平均严重度评级为62.3%，无效/T单倍型后代平均为39.7%，无效/C单倍型高度抗病，平均严重度为13.3%。Koktunkulskaja 332杂交组合的相应数据相似，严重度评级分别为63.5%、43.5%和23.7%。所有杂交组合中所有类别之间的差异具有统计学意义，表明这两个突变在叶锈病抗性方面具有独立的累加效应。利用LR34的三维结构模型分析了两种氨基酸在转运通道中的位置和可能的干扰。Koktunkulskaja 332还分离出与Lr46连锁的标记csLV46。具有Lr34+和csLV46+的品系的锈病严重度评级显著低于没有这些标记的品系，表明这两个基因座具有累加效应。

讨论

这对Lr34在小麦品种中的应用以及对这个重要的小麦多害虫持久抗性基因的基本理解具有重要意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7098/9995823/5ad3c5c1c8d6/fpls-13-1061490-g001.jpg

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多害虫抗性小麦基因第11和12外显子的变异对叶锈病抗性具有独立的累加效应。

Variations in exons 11 and 12 of the multi-pest resistance wheat gene are independently additive for leaf rust resistance.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

引言

方法

结果

讨论

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