藻多糖-硒纳米颗粒调控水稻植株中硒的吸收与分配。

Algal polysaccharides-Selenium nanoparticles regulate the uptake and distribution of selenium in rice plants.

作者信息

Yang Chunmei, Wang Chaoxin, Khan Zaid, Duan Songpo, Li Zhiming, Shen Hong

机构信息

College of Natural Resources and Environment, South China Agricultural University, Guangzhou, China.

出版信息

Front Plant Sci. 2023 Mar 10;14:1135080. doi: 10.3389/fpls.2023.1135080. eCollection 2023.

DOI:10.3389/fpls.2023.1135080

PMID:36968401

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10036908/

Abstract

INTRODUCTION

Selenium (Se) is an essential trace element required for proper human and animal health.

METHODS

In this paper, we investigated the uptake and distribution characteristics of a new Se fertilizer, which comprises algal polysaccharides-selenium nanoparticles (APS-SeNPs), in rice plants in both hydroponic and pot experiments.

RESULTS

The results from the hydroponic experiments revealed that the rice root uptake of APS-SeNPs fitted the Michaelis-Menten equation, with a of 13.54 μg g root dry weight (DW) per hour, which was 7.69 and 2.23 times those of selenite and selenate treatments, respectively. The root uptake of APS-SeNPs was inhibited by AgNO (64.81%-79.09%) and carbonyl cyanide 3-chlorophenylhydrazone (CCCP; 19.83%-29.03%), indicating that the uptake of APS-SeNPs by rice roots is mainly aquaporins and is also affected by metabolic activity. Moreover, sulfur deficiency caused rice roots to absorb more APS-SeNPs, but treatment with APS-SeNPs increased the expression of the sulfate transporter in the roots, suggesting that is probably involved in the uptake of APS-SeNPs. The application of APS-SeNPs significantly increased the Se content in rice plants and the apparent Se uptake efficiency compared with selenate and selenite treatments. Most of the Se in the roots of rice plants was distributed in the cell wall, while it was primarily located in the cytosol in the shoots when treated with APS-SeNPs. The results from the pot experiments indicated that the application of Se enhanced the Se content of each rice tissue. It is worth noting that the Se content in brown rice under APS-SeNP treatment was higher than that under selenite or selenate treatment and was mainly concentrated in the embryo end, with the Se in organic form.

DISCUSSION

Our findings provide important insights into the uptake mechanism and the distribution of APS-SeNPs in rice plants.

摘要

引言

硒（Se）是人类和动物健康所需的必需微量元素。

方法

在本文中，我们通过水培和盆栽实验研究了一种新型硒肥（包含藻多糖 - 硒纳米颗粒，APS - SeNPs）在水稻植株中的吸收和分布特性。

结果

水培实验结果表明，水稻根系对APS - SeNPs的吸收符合米氏方程，吸收速率为每小时13.54μg g根干重（DW），分别是亚硒酸盐和硒酸盐处理的7.69倍和2.23倍。硝酸银（64.81% - 79.09%）和羰基氰3 - 氯苯腙（CCCP；19.83% - 29.03%）抑制了水稻根系对APS - SeNPs的吸收，表明水稻根系对APS - SeNPs的吸收主要通过水通道蛋白，并且还受代谢活性影响。此外，硫缺乏导致水稻根系吸收更多的APS - SeNPs，但用APS - SeNPs处理增加了根系中硫酸盐转运蛋白的表达，表明硫酸盐转运蛋白可能参与了APS - SeNPs的吸收。与亚硒酸盐和硒酸盐处理相比，施用APS - SeNPs显著提高了水稻植株中的硒含量和表观硒吸收效率。水稻植株根系中的大部分硒分布在细胞壁中，而用APS - SeNPs处理时，地上部分的硒主要位于细胞质中。盆栽实验结果表明，施用硒提高了水稻各组织的硒含量。值得注意的是，APS - SeNP处理下糙米中的硒含量高于亚硒酸盐或硒酸盐处理，并且主要集中在胚端，以有机形式存在。

讨论

我们的研究结果为APS - SeNPs在水稻植株中的吸收机制和分布提供了重要见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d323/10036908/ebf6a9ece32a/fpls-14-1135080-g009.jpg

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藻多糖-硒纳米颗粒调控水稻植株中硒的吸收与分配。

Algal polysaccharides-Selenium nanoparticles regulate the uptake and distribution of selenium in rice plants.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

引言

方法

结果

讨论

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