Transcriptomics of developing grains reveals putative candidate genes for grain zinc and iron in bread wheat cultivar Zincol-2016

IF 3.9 2区农林科学 Q2 FOOD SCIENCE & TECHNOLOGY Journal of Cereal Science Pub Date : 2024-07-01 DOI:10.1016/j.jcs.2024.103966

Samar Naseer , Mengjing Sun , Bushra Bibi , Humaira Qayyum , Muhammad Ramzan Khan , Chenyang Hao , Xueyong Zhang , Yuanfeng Hao , Awais Rasheed , Zhonghu He

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Abstract

A high grain zinc wheat cultivar, Zincol-2016, was released in Pakistan to mitigate mineral malnutrition. Here, we used RNAseq based approach to reveal transcriptional landscape of its developing grains, and to identify genetic variants in zinc (Zn) and iron (Fe) homeostasis genes. Differential gene expression analysis identified 8370 differentially expressed genes (DEGs) over the course of grain filling. The profiling of 265 Fe/Zn homeostasis genes revealed the homeologs of TaNAS9, TaFER1, TaNAAT2, TaDMAS, TaZIFL5-A, TaZIFL5-D, TaZIP14-B, TaNRAMP3, TaVIT1, TaPRI2-D, TabZIPF1-7B, TabZIPF1-7D, TabZIPF2-5A, and TabZIPF2-5B had increased expression in Zincol-2016 relative to other cultivars from expVIP database. The variant calling identified 358 SNPs and 34 InDels in the Fe/Zn homeostasis genes. Two of those SNPs in TaZIP14-B (TraesCS3B02G140400), and TaNAAT2-B (TraesCS1B02G300600), were associated with grain zinc and iron concentrations (GZnC and GFeC) in a diverse panel of 145 wheat cultivars. The Zincol-type alleles of both genes significantly increased GZnC and GFeC by 7.3–8.6% and 5.9–6.3%, respectively. In addition, 8 SNPs causing missense mutation and 2 InDels causing frameshift mutation were found unique to Zincol. The present study forms a basis for understanding the genetic basis of high GZnC and GFeC in Zincol-2016 and can help efforts to biofortify other wheat varieties.

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发育中谷粒的转录组学揭示了面包小麦栽培品种 Zincol-2016 中谷粒锌和铁的假定候选基因

巴基斯坦推出了高锌小麦品种 Zincol-2016，以缓解矿物质营养不良问题。在这里，我们使用基于 RNAseq 的方法揭示了其发育中谷粒的转录景观，并确定了锌（Zn）和铁（Fe）平衡基因的遗传变异。差异基因表达分析确定了谷粒灌浆过程中的 8370 个差异表达基因（DEGs）。对265个铁/锌平衡基因的分析表明，与expVIP数据库中的其他栽培品种相比，TaNAS9、TaFER1、TaNAAT2、TaDMAS、TaZIFL5-A、TaZIFL5-D、TaZIP14-B、TaNRAMP3、TaVIT1、TaPRI2-D、TabZIPF1-7B、TabZIPF1-7D、TabZIPF2-5A和TabZIPF2-5B的同源基因在Zincol-2016中的表达量有所增加。变异调用在铁/锌平衡基因中发现了 358 个 SNP 和 34 个 InDels。其中，TaZIP14-B（TraesCS3B02G140400）和 TaNAAT2-B（TraesCS1B02G300600）中的两个 SNP 与 145 个小麦栽培品种的谷粒锌和铁浓度（GZnC 和 GFeC）有关。这两个基因的 Zincol 型等位基因分别使 GZnC 和 GFeC 显著增加了 7.3-8.6% 和 5.9-6.3%。此外，还发现了 8 个导致错义突变的 SNP 和 2 个导致框移突变的 InDels，它们都是 Zincol 独有的基因。本研究为了解 Zincol-2016 高 GZnC 和 GFeC 的遗传基础奠定了基础，有助于对其他小麦品种进行生物强化。

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来源期刊

Journal of Cereal Science 工程技术-食品科技

CiteScore

7.80

自引率

2.60%

发文量

163

审稿时长

38 days

期刊介绍： The Journal of Cereal Science was established in 1983 to provide an International forum for the publication of original research papers of high standing covering all aspects of cereal science related to the functional and nutritional quality of cereal grains (true cereals - members of the Poaceae family and starchy pseudocereals - members of the Amaranthaceae, Chenopodiaceae and Polygonaceae families) and their products, in relation to the cereals used. The journal also publishes concise and critical review articles appraising the status and future directions of specific areas of cereal science and short communications that present news of important advances in research. The journal aims at topicality and at providing comprehensive coverage of progress in the field.