硅通过减少高粱中腐胺的积累来缓解缺钾诱导的叶片黄化。

Silicon-moderated K-deficiency-induced leaf chlorosis by decreasing putrescine accumulation in sorghum.

作者信息

Chen Daoqian, Cao Beibei, Qi Lingyun, Yin Lina, Wang Shiwen, Deng Xiping

机构信息

State Key Laboratory of Soil Erosion and Dryland Farming on the Loess Plateau, Institute of Soil and Water Conservation College of Life Sciences.

College of Nat Resources and Environment, Northwest A&F University, Yangling, Shaanxi, 712100, China.

出版信息

Ann Bot. 2016 Aug;118(2):305-15. doi: 10.1093/aob/mcw111. Epub 2016 Jun 20.

DOI:10.1093/aob/mcw111

PMID:27325899

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4970372/

Abstract

BACKGROUND AND AIMS

Although silicon (Si) has been widely reported to alleviate plant nutrient deficiency, the alleviating effect of Si on potassium (K) deficiency and its underlying mechanism are poorly understood. Here, we examined whether Si-regulated putrescine (Put) metabolisms are involved in Si-alleviated K deficiency.

METHODS

Sorghum seedlings were grown in K deficiency solution with and without Si for 15 d. The influence of K deficiency and Si on leaf chlorosis symptoms, K(+) concentration, polyamine (PA) levels, amine oxidase activities, the transcription of Put synthesis genes, antioxidant enzyme activities and H2O2 accumulation were measured.

KEY RESULTS

Under K-sufficient conditions, plant growth was not affected by Si application. Si application significantly alleviated the growth inhibition induced by K-deficient stress, however. K deficiency induced leaf chlorosis and reduction in several leaf chlorosis-related metrics, including photosynthesis, efficiency of photosystem II photochemistry, chlorophyll content and chlorophyll a/b ratio; all of these changes were moderated by Si application. Si application did not influence the K(+) concentration in leaves under K-sufficient or K-deficient conditions. It did, however, decrease the excessive accumulation of Put that was otherwise induced by K deficiency. Simultaneously, Put synthesis gene transcription and activation of amine oxidases were down-regulated by Si application under K-deficient conditions. In addition, Si reduced K-deficiency-enhanced antioxidant enzyme activities and decreased K-deficiency-induced H2O2 accumulation.

CONCLUSIONS

These results indicate that Si application could reduce K-deficiency-induced Put accumulation by inhibiting Put synthesis and could decrease H2O2 production via PA oxidation. Decreased H2O2 accumulation contributes to the alleviation of cell death, thereby also alleviating K-deficiency-induced leaf chlorosis and necrosis.

摘要

背景与目的

尽管已有广泛报道称硅（Si）可缓解植物营养缺乏，但硅对钾（K）缺乏的缓解作用及其潜在机制仍知之甚少。在此，我们研究了硅调节的腐胺（Put）代谢是否参与硅缓解钾缺乏的过程。

方法

将高粱幼苗在含硅和不含硅的缺钾溶液中培养15天。测定了缺钾和硅对叶片黄化症状、钾离子浓度、多胺（PA）水平、胺氧化酶活性、Put合成基因转录、抗氧化酶活性和过氧化氢积累的影响。

关键结果

在钾充足的条件下，施硅不影响植物生长。然而，施硅显著缓解了缺钾胁迫诱导的生长抑制。缺钾导致叶片黄化，并使一些与叶片黄化相关的指标降低，包括光合作用、光系统II光化学效率、叶绿素含量和叶绿素a/b比值；施硅缓解了所有这些变化。在钾充足或缺钾条件下，施硅均不影响叶片中的钾离子浓度。然而，它确实减少了缺钾诱导的Put过量积累。同时，在缺钾条件下，施硅下调了Put合成基因的转录和胺氧化酶的活性。此外，硅降低了缺钾增强的抗氧化酶活性，并减少了缺钾诱导的过氧化氢积累。

结论

这些结果表明，施硅可通过抑制Put合成减少缺钾诱导的Put积累，并可通过PA氧化减少过氧化氢的产生。过氧化氢积累的减少有助于缓解细胞死亡，从而也缓解了缺钾诱导的叶片黄化和坏死。

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