Polyphosphate Accelerates Transformation of Nonstructural Carbohydrates to Improve Growth of ppk-Expressing Transgenic Rice in Phosphorus Deficiency Culture

IF 5.6 2区 农林科学 Q1 AGRONOMY
Zhu Jinling , Wei Ruping , Wang Xin , Zheng Chaoqun , Wang Mengmeng , Yang Yicheng , Yang Liuyan
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引用次数: 3

Abstract

Crop yield and quality are often limited by the amount of phosphate fertilizer added to infertile soils, a key limiting factor for sustainable development in modern agriculture. The polyphosphate kinase (ppk) gene -expressing transgenic rice with a single-copy line (ETRS) is constructed to improve phosphate fertilizer utilization efficiency for phosphorus resource conservation. To investigate the potential mechanisms of the increased biomass in ETRS in low phosphate culture, ETRS was cultivated in a low inorganic phosphate (Pi) culture medium (15 μmol/L Pi, LP) and a normal Pi culture medium (300 μmol/L Pi, CP), respectively. After 89 d of cultivation in different concentrations of phosphate culture media, the total phosphorus, polyphosphate (polyP), biomass, photosynthetic rate, nonstructural carbohydrate (NSC) contents, related enzyme activities, and related gene expression levels were analyzed. The results showed that ETRS had a high polyP amount to promote the photosynthetic rate in LP, and its biomass was almost the same as the wild type (WT) in CP. The NSC content of ETRS in LP was higher than that of WT in LP, but slightly lower than that of WT in CP. PolyP notably promoted the sucrose phosphate synthase activities of ETRS and significantly down-regulated the expression levels of sucrose transporter genes (OsSUT3 and OsSUT4), resulting in inhibiting the transport of sucrose from shoot to root in ETRS. It was concluded that polyP can stimulate the synthesis of NSCs in LP, which improved the growth of ETRS and triggered the biological activities of ETRS to save phosphate fertilizer. Our study provides a new way to improve the utilization rate of phosphate fertilizer in rice production.

多磷酸盐促进非结构碳水化合物转化促进缺磷转基因水稻生长
作物的产量和品质往往受到施用磷肥量的限制,这是现代农业可持续发展的一个关键限制因素。为提高磷肥利用效率,节约磷资源,构建了表达多磷酸激酶(ppk)基因的转基因水稻单拷贝系(ETRS)。为了研究低磷培养中ETRS生物量增加的可能机制,将ETRS分别培养在低无机磷酸盐(Pi)培养基(15 μmol/L Pi, LP)和普通Pi培养基(300 μmol/L Pi, CP)中。在不同浓度的磷酸盐培养基中培养89 d后,分析其总磷、多磷酸盐(polyP)、生物量、光合速率、非结构碳水化合物(NSC)含量、相关酶活性及相关基因表达水平。结果表明,ETRS在LP中具有较高的polyP量,能促进LP的光合速率,其生物量与野生型(WT)在CP中基本相同,LP中ETRS的NSC含量高于LP中的WT,但略低于CP中的WT, polyP显著促进ETRS的蔗糖磷酸合成酶活性,显著下调蔗糖转运基因OsSUT3和OsSUT4的表达水平。导致ETRS中蔗糖从茎部到根的运输受到抑制。综上所述,polyP可以刺激LP中NSCs的合成,从而促进ETRS的生长,触发ETRS的生物活性,节约磷肥。本研究为提高水稻磷肥利用率提供了一条新的途径。
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
Rice Science
Rice Science Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
8.90
自引率
6.20%
发文量
55
审稿时长
40 weeks
期刊介绍: Rice Science is an international research journal sponsored by China National Rice Research Institute. It publishes original research papers, review articles, as well as short communications on all aspects of rice sciences in English language. Some of the topics that may be included in each issue are: breeding and genetics, biotechnology, germplasm resources, crop management, pest management, physiology, soil and fertilizer management, ecology, cereal chemistry and post-harvest processing.
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