促芽肥对水稻再生芽萌发生长过程蛋白质表达的影响

Effects of nitrogen application for bud development on protein expression of ratooning buds of rice

  • 摘要: 采用比较蛋白质组学的方法和技术, 并结合相关生理指标测定, 探讨了促芽肥对水稻再生芽萌发生长过程中蛋白质表达及相应生理特性的影响。共获得了20个在不同促芽肥下再生芽萌发生长过程出现差异表达的蛋白质点, 涉及再生芽萌发生长过程的能量代谢、生长调控和抗逆响应等。在其他栽培措施一致的情况下, 施用促芽肥能有效地降低再生芽萌发生长过程中能量代谢相关蛋白的下调幅度, 提高光合相关蛋白的表达, 从而使再生芽具有相对较强的能量合成能力和光合自养能力, 更好地满足再生芽分化生长对能量和物质的需求; 还能相对降低抑制再生芽萌发生长相关蛋白的表达, 提高促进再生芽分化过程细胞分裂和伸长相关蛋白及抗性相关蛋白的表达, 促进再生芽的萌发生长, 增强再生芽抵御外界生物和非生物胁迫的能力, 提高对各种不良环境的适应性, 因而其倒2至倒5各节位再生芽的活芽率和芽长极显著高于未施用促芽肥处理, 从而显著提高了再生季的单位面积有效穗数、结实率和产量, 实现了再生季的高产增产。

     

    Abstract: Ratooning rice, with significant improvement in potential yield, has become a major farming system to raise multiple crop index. Ratooning rice yield is directly related to the rate of ratooning bud germinating into spikes, and thereby enhancing ratooning bud germination is a key element for ratooning rice high yield. Numerous studies on rice eco-physiology have shown that nitrogen application enhances bud development also strongly promotes ratooning bud germination. However, the molecular mechanism of nitrogen application for bud development to promote ratooning bud germination has remained unclear. This paper studied the effects of nitrogen application for bud development on protein expression of ratooning buds of rice and the corresponding physiological characteristics by using comparative proteomics and relative physiological indicators. A total of 20 differentially expressed proteins were detected in different treatments in 2-DE maps of ratooning bud proteome. The proteins involved in energy metabolism, growth regulation, defense response to stress, etc. The results indicated that the expression abundance of nucleoside diphosphate kinase protein involved in energy metabolism was down-regulated and the proteins involved in photosynthesis (probable photosystem Ⅱ oxygen-evolving complex protein and cytochrome b6-f complex iron-sulfur subunit) were up-regulated during ratooning bud germination. Furthermore, protein expressions were higher under nitrogen application treatment than non-fertilization treatment on 7 d and 14 d after nitrogen application for bud development. It suggested that nitrogen application for ratooning bud development significantly slowed the down-regulation of proteins involved in energy metabolism, and promoted the up-regulation of proteins involved in photosynthesis. Thus ratooning buds mediated by fertilization treatment had relatively stronger energy synthesis and photoautotroph capabilities, which better met the needs of energy and material for ratooning bud germination and differentiation. Six protein spots involved in cellular growth and five protein spots involved in resistance were detected and identified in the study. Among them, two protein spots (translationally-controlled tumor protein homolog and actin-depolymerizing factor) were down-regulated and nine protein spots (e.g., germin-like protein, ABA/WDS-induced protein, putative quinone-oxidoreductase QR2, Cu-Zn superoxide dismutase and dirigent-like protein) were up-regulated during the ratooning bud germination. Furthermore, expression abundance of proteins (e.g., ABA/WDS-induced protein and actin-depolymerizing factor on the 7th and 14th day, germin-like protein on the 7th day of fertilization) was lower under nitrogen application treatment than non-fertilization treatment. Proteins (e.g., translationally-controlled tumor protein homolog, putative quinone-oxidoreductase QR2, Cu-Zn superoxide dismutase and dirigent-like protein on the 7th and 14th day, germin-like protein on the 14th day) had higher expressions under fertilization treatment than non-fertilization treatment. It indicated that nitrogen application for ratooning bud development relatively cut down the expression abundance of proteins that inhibited ratooning bud germination. Meanwhile, it increased the expression abundance of proteins related to cell division, elongation and resistance, which promoted the germination of ratooning bud and enhanced the ability to resist adverse conditions. Therefore compared with those under non-fertilization treatment, living bud rate and length of the 2nd to the 5th ratooning bud were significantly higher in nitrogen application treatment. As a result, nitrogen application for bud development significantly improved effective panicle number, seed setting rate and grain yield of ratooning rice, which was aimed at getting high yield and significant improvement in ratooning rice production.

     

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