College of Grassland Science and Technology, Sichuan Agricultural University, Chengdu, 611130, China.
Genome. 2022 Apr;65(4):189-203. doi: 10.1139/gen-2020-0201. Epub 2022 Feb 1.
The C2H2-type zinc finger protein (ZFP) family is one of the largest transcription factor families in the plant kingdom and its members are involved in plant growth, development, and stress responses. As an economically valuable perennial graminaceous forage crop, orchardgrass () is an important feedstuff resource owing to its high yield and quality. In this study, 125 C2H2-type ZFPs in orchardgrass (Dg-ZFPs) were identified and further classified by phylogenetic analysis. The members with similar gene structures were generally clustered into the same groups, with proteins containing the conserved QALGGH motif being concentrated in groups VIII and IX. Gene ontology and miRNA target analyses indicated that Dg-ZFPs likely perform diverse biological functions through their gene interactions. The RNA-seq data revealed differentially expressed genes across tissues and development phases, suggesting that some Dg-ZFPs might participate in growth and development regulation. Abiotic stress responses of Dg- genes were verified by qPCR and transformation, revealing that Dg-ZFP125 could enhance the tolerance of yeasts to osmotic and salt stresses. Our study performed a novel systematic analysis of Dg-ZFPs in orchardgrass, providing a reference for this gene family in other grasses and revealing new insights for enhancing gene utilization.
C2H2 型锌指蛋白(ZFP)家族是植物界最大的转录因子家族之一,其成员参与植物的生长、发育和应激反应。作为一种具有经济价值的多年生禾本科饲料作物,鸭茅()因其产量高、品质好而成为重要的饲料资源。本研究在鸭茅中鉴定到 125 个 C2H2 型 ZFPs(Dg-ZFPs),并通过系统进化分析对其进行了进一步分类。具有相似基因结构的成员通常聚集在同一组中,含有保守的 QALGGH 基序的蛋白集中在第 VIII 和第 IX 组中。基因本体和 miRNA 靶分析表明,Dg-ZFPs 可能通过基因相互作用发挥多种生物学功能。RNA-seq 数据显示不同组织和发育阶段的差异表达基因,表明一些 Dg-ZFPs 可能参与生长和发育的调控。qPCR 和转化验证了 Dg-基因对非生物胁迫的响应,表明 Dg-ZFP125 可以增强酵母对渗透压和盐胁迫的耐受性。本研究对鸭茅中的 Dg-ZFPs 进行了系统分析,为其他禾本科植物中的该基因家族提供了参考,并为增强基因利用提供了新的见解。
