砷在整个生长周期中在水稻中的吸收和转运相关的基因表达动态。

Dynamics of gene expression associated with arsenic uptake and transport in rice during the whole growth period.

机构信息

SCNU Environmental Research Institute, Guangdong Provincial Key Laboratory of Chemical Pollution and Environmental Safety & MOE Key Laboratory of Theoretical Chemistry of Environment, South China Normal University, Guangzhou, 510006, China.

Guangdong Institute of Eco-Environmental Science & Technology, Guangdong Key Laboratory of Integrated Agro-environmental Pollution Control and Management, Guangzhou, 510650, China.

出版信息

BMC Plant Biol. 2020 Mar 31;20(1):133. doi: 10.1186/s12870-020-02343-1.

DOI:10.1186/s12870-020-02343-1

PMID:32234010

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7106585/

Abstract

BACKGROUND

Genes associated with arsenite uptake and transport in rice plants (i.e., OsLsi1, OsLsi2, OsLsi3, OsLsi6 and OsABCC1) have been identified to date. However, their expression over time during the whole growth period of rice under arsenite stress conditions is still poorly understood. In this study, the dynamics of gene expression associated with arsenite transport and arsenic concentrations in different organs of rice were investigated to determine the critical period(s) of arsenite uptake and translocation regulated by gene expression during the whole growth period.

RESULTS

The relative expression of OsLsi2 and OsLsi1 in the roots was upregulated and reached its highest value (2 = 4.04 and 1.19, respectively) at the jointing stage (9 weeks after transplantation), in which the arsenic concentration in roots also was the highest at 144 mg/kg. A range from 45.1 to 61.2% of total arsenic accumulated in the roots during seedling to heading stages (3-16 weeks), which was mainly associated with the relatively high expression of OsABCC1 (1.50-7.68), resulting in arsenic located in the vacuoles of roots. Subsequently, the As translocation factor from root to shoot increased over time from heading to milky ripe (16-20 weeks), and 74.3% of the arsenic accumulated in shoots at the milk stage. Such an increase in arsenic accumulation in shoots was likely related to the findings that (i) OsABCC1 expression in roots was suppressed to 0.14-0.75 in 18-20 weeks; (ii) OsLsi3 and OsABCC1 expression in nodes I, II, and III was upregulated to 4.01-25.8 and 1.59-2.36, respectively, in 16-20 weeks; and (iii) OsLsi6 and OsABCC1 expression in leaves and husks was significantly upregulated to 2.03-5.26 at 18 weeks.

CONCLUSIONS

The jointing stage is the key period for the expression of arsenite-transporting genes in roots, and the heading to milky ripe stages are the key period for the expression of arsenite-transporting genes in shoots, both of which should be considered for regulation during safe rice production in arsenic-contaminated paddy soil.

摘要

背景

迄今为止，已鉴定出与水稻植株中亚砷酸盐摄取和转运相关的基因（即 OsLsi1、OsLsi2、OsLsi3、OsLsi6 和 OsABCC1）。然而，在砷胁迫条件下，水稻整个生长期间这些基因的表达随时间的变化仍知之甚少。本研究调查了与砷酸盐转运和砷浓度相关的基因表达在水稻不同器官中的动态变化，以确定在整个生长期间受基因表达调控的砷酸盐摄取和转运的关键时期。

结果

在分蘖期（移栽后 9 周），根中 OsLsi2 和 OsLsi1 的相对表达上调，达到最高值（分别为 2=4.04 和 1.19），此时根中的砷浓度也最高，为 144mg/kg。在幼苗到抽穗期（3-16 周），约 45.1%至 61.2%的总砷积累在根部，这主要与 OsABCC1（1.50-7.68）的相对高表达有关，导致砷位于根部的液泡中。随后，从抽穗期到乳熟期（16-20 周），根到茎的砷转运因子随时间增加，74.3%的砷积累在乳熟期的茎中。这种在茎中积累砷的增加可能与以下发现有关：（i）在 18-20 周时，根中 OsABCC1 的表达被抑制到 0.14-0.75；（ii）在 16-20 周时，节点 I、II 和 III 中 OsLsi3 和 OsABCC1 的表达分别上调至 4.01-25.8 和 1.59-2.36；（iii）在 18 周时，叶和壳中 OsLsi6 和 OsABCC1 的表达显著上调至 2.03-5.26。

结论

分蘖期是根部砷转运基因表达的关键时期，抽穗到乳熟期是茎部砷转运基因表达的关键时期，在砷污染稻田进行安全水稻生产时应考虑对这两个时期进行调控。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/25ff/7106585/fe3e02ae08f2/12870_2020_2343_Fig1_HTML.jpg

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砷在整个生长周期中在水稻中的吸收和转运相关的基因表达动态。

Dynamics of gene expression associated with arsenic uptake and transport in rice during the whole growth period.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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