Genomic analysis of sugar transporter genes in peanut (Arachis hypogaea): Characteristic, evolution and expression profiles during development and stress

Q3 Agricultural and Biological Sciences Oil Crop Science Pub Date : 2022-10-01 DOI:10.1016/j.ocsci.2022.11.002
Zhijun Xu , Lei Xu , Xiaowen Hu
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引用次数: 1

Abstract

Peanut (Arachis hypogaea L.) is an economically significant crop with aerial cleistogamous flowers and subterranean geocarpic fruit (pods). The formation of peanut pod requires movement of the embryo from air to ground and then development in the soil, which is a complex biological process involving transport and accumulation of sugars. Sugar transport proteins (STP) mediate the transport of monosaccharides in various physiological processes, including fertilization, ovary formation, and seed development. In this study, a total of 36 AhSTP genes (AhSTP1–36) containing the conserved sugar_tr motif were identified in the A. hypogaea genome. Phylogenetic analysis revealed that AhSTP genes were classified into four clades, and the arrangement of motifs in AhSTP proteins was similar within clades. Synteny analysis revealed that segmental duplication events have played an important role in the expansion of STP genes in peanut, and chromosome rearrangements might have facilitated the exchange of STP genes between the A and B sub-genomes. Transcriptome analyses revealed that the expression patterns of AhSTP genes varied among tissues. Hormone and abiotic stress treatments could up-regulate or down-regulate the expression of AhSTP genes, and low temperature had a major effect on the expression of most AhSTP genes. Four AhSTP genes (AhSTP3, AhSTP9, AhSTP19, and AhSTP28) were specifically expressed in the pod, indicating that these genes might be involved in pod formation and development in peanut. The unique expression of these four genes during pod construction and development was confirmed in two different type cultivars using quantitative real-time PCR analysis. Our findings provide new insights into the STP gene family in peanut and will aid future functional studies of AhSTP genes.

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花生糖转运基因的基因组分析:发育和胁迫过程中的特征、进化和表达谱
花生(arachhis hypogaea L.)是一种具有空中闭花受精和地下果实(豆荚)的重要经济作物。花生豆荚的形成需要胚从空气中移动到地面,然后在土壤中发育,这是一个复杂的生物过程,涉及糖的运输和积累。糖转运蛋白(STP)在多种生理过程中介导单糖的转运,包括受精、子房形成和种子发育。在本研究中,共鉴定出36个含有保守的sugar_tr基序的AhSTP基因(AhSTP1-36)。系统发育分析表明,AhSTP基因可划分为4个支系,支系内AhSTP蛋白的基序排列相似。同源性分析表明,区段重复事件在花生STP基因扩增中发挥了重要作用,染色体重排可能促进了STP基因在A和B亚基因组之间的交换。转录组分析显示,AhSTP基因的表达模式在不同组织中存在差异。激素和非生物胁迫处理可上调或下调AhSTP基因的表达,低温对大多数AhSTP基因的表达有主要影响。4个AhSTP基因(AhSTP3、AhSTP9、AhSTP19和AhSTP28)在花生荚中特异性表达,表明这些基因可能参与花生荚的形成和发育。通过实时荧光定量PCR分析,证实了这4个基因在两种不同类型品种豆荚构建和发育过程中的独特表达。我们的发现为花生STP基因家族提供了新的见解,并将有助于未来AhSTP基因的功能研究。
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来源期刊
Oil Crop Science
Oil Crop Science Food Science, Plant Science, Agronomy and Crop Science
CiteScore
3.40
自引率
0.00%
发文量
20
审稿时长
74 days
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