The expression of lignin biosynthesis genes during plant development and effects of downregulated cinnamyl alcohol dehydrogenase (CAD) gene in bahiagrass (Paspalum notatum Flügge)

IF 1.1 4区 农林科学 Q3 AGRICULTURE, MULTIDISCIPLINARY
Hwan May Ng, Takahiro Gondo, Tomohito Yamada, Hidenori Tanaka, Ryo Akashi
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引用次数: 0

Abstract

Bahiagrass (Paspalum notatum Flügge) is a warm-season grass where high lignin content limits its forage quality, negatively affecting animal performance. To create a new breeding method by genome editing, isolation and characterization of lignin biosynthesis genes and identification of their molecular relationships are essential. The caffeic acid O-methyltransferase (COMT) and cinnamyl alcohol dehydrogenase (CAD) cDNA clones were isolated from bahiagrass, and their protein sequences showed high similarity to other C4 monocot species through phylogenetic analysis. Gene expression analysis of phenylalanine ammonia-lyase (PAL), COMT and CAD, involved in crucial stages of lignin biosynthesis and lignin content, was conducted at different plant developmental stages. The highest gene expression levels of these genes were observed in the vegetative (V) and early reproductive stages, while the lignin content increased until the middle reproductive stage and remained constant thereafter. Additionally, to further understand the molecular relationships in lignin biosynthesis, the effect of CAD downregulation was analyzed in transgenic bahiagrass lines introduced with sorghum CAD antisense and RNAi vector obtained from a previous report. This led to a reduced lignin content and affected the expression of PAL and COMT working upstream of CAD. In the V stage, PAL expression was lower in transgenic lines compared to wild type (WT), while COMT expression showed no significant differences. However, PAL and COMT expression of transgenic lines in the middle reproductive stage (R2) was significantly higher than in the WT. These findings suggest that the downregulation of CAD gene expression affects PAL and COMT expression and induces a feedback system in the R2 stage. Lignin content influenced the phenotype of the transgenic plants with significantly reduced lignin, exhibiting a dwarf phenotype with shorter plant heights. The findings of this study can be applied to genome editing for the development of practical new breeding materials with improved digestibility in bahiagrass.

大叶女贞(Paspalum notatum Flügge)植物发育过程中木质素生物合成基因的表达及肉桂醇脱氢酶(CAD)基因下调的影响
巴夏草(Paspalum notatum Flügge)是一种暖季型禾本科牧草,木质素含量高限制了其饲料品质,对动物生产性能产生不利影响。要通过基因组编辑创建一种新的育种方法,必须分离木质素生物合成基因并确定其特征及其分子关系。通过系统进化分析,从稗草中分离出了咖啡酸 O-甲基转移酶(COMT)和肉桂醇脱氢酶(CAD)cDNA克隆,其蛋白质序列与其他C4单子叶植物物种具有高度相似性。在植物的不同发育阶段,对参与木质素生物合成和木质素含量关键阶段的苯丙氨酸氨解酶(PAL)、COMT和CAD进行了基因表达分析。这些基因的最高基因表达水平出现在无性繁殖期(V)和早期生殖期,而木质素含量在生殖中期之前一直在增加,之后保持不变。此外,为了进一步了解木质素生物合成过程中的分子关系,研究人员还分析了用高粱 CAD 反义载体和 RNAi 载体导入的转基因大叶黄杨品系中 CAD 下调的影响。这导致木质素含量降低,并影响了在 CAD 上游起作用的 PAL 和 COMT 的表达。在 V 期,与野生型(WT)相比,转基因品系的 PAL 表达量较低,而 COMT 的表达量没有显著差异。然而,转基因品系在生殖中期(R2)的 PAL 和 COMT 表达明显高于 WT。这些发现表明,CAD 基因表达的下调会影响 PAL 和 COMT 的表达,并在 R2 阶段诱导一个反馈系统。木质素含量对转基因植株的表型有影响,木质素含量明显降低的转基因植株表现出植株高度较矮的矮小表型。本研究的结果可应用于基因组编辑,以开发出具有更好消化率的巴夏草实用育种新材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Grassland Science
Grassland Science Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
2.70
自引率
7.70%
发文量
38
审稿时长
>12 weeks
期刊介绍: Grassland Science is the official English language journal of the Japanese Society of Grassland Science. It publishes original research papers, review articles and short reports in all aspects of grassland science, with an aim of presenting and sharing knowledge, ideas and philosophies on better management and use of grasslands, forage crops and turf plants for both agricultural and non-agricultural purposes across the world. Contributions from anyone, non-members as well as members, are welcome in any of the following fields: grassland environment, landscape, ecology and systems analysis; pasture and lawn establishment, management and cultivation; grassland utilization, animal management, behavior, nutrition and production; forage conservation, processing, storage, utilization and nutritive value; physiology, morphology, pathology and entomology of plants; breeding and genetics; physicochemical property of soil, soil animals and microorganisms and plant nutrition; economics in grassland systems.
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