宏基因组测序分析杂交水稻种子顶灰垩白粒微生物的组成与功能

Metagenomic Sequencing to Analyze Composition and Function of Top-Gray Chalky Grain Microorganisms from Hybrid Rice Seeds.

作者信息

Liu You, Yuan Yuan, Yuan Hui, Wang Yan, Jin Chenzhong, Zhang Hao, Tang Jianliang, Hu Yihong

机构信息

College of Agriculture and Biotechnology, Hunan University of Humanities, Science and Technology, Loudi 417000, China.

Quality Inspection Department, Hunan Ava Seeds Co., Ltd., Changsha 410128, China.

出版信息

Plants (Basel). 2023 Jun 18;12(12):2358. doi: 10.3390/plants12122358.

DOI:10.3390/plants12122358

PMID:37375983

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10305155/

Abstract

The top-gray chalkiness of hybrid rice ( L.) seeds is a typical phenomenon in hybrid rice seeds. The chalky part of the grain is infected and is the inoculum to infect the normal seeds during storage and soaking. These seed-associated microorganisms were cultivated and sequenced using metagenomics shotgun sequencing to obtain more comprehensive information on the seed-associated microorganisms in this experiment. The results showed that fungi could grow well on the rice flour medium, similar to the ingredients of rice seed endosperms. After the assembly of metagenomic data, a gene catalog was established, comprising 250,918 genes. Function analysis showed that glycoside hydrolases were the dominant enzymes, and the genus accounted for the dominant microorganisms. The fungal species , , and were likely to be the candidate pathogens in the top-gray chalky grains of hybrid rice seeds. These results will provide a reference for improving hybrid rice processing after harvest.

摘要

杂交水稻种子顶部灰白色垩白是杂交水稻种子中的典型现象。谷粒的垩白部分受到感染，是储存和浸泡期间感染正常种子的接种体。在本实验中，对这些种子相关微生物进行培养并使用宏基因组鸟枪法测序进行测序，以获得关于种子相关微生物的更全面信息。结果表明，真菌能在米粉培养基上良好生长，该培养基类似于水稻种子胚乳的成分。宏基因组数据组装后，建立了一个包含250,918个基因的基因目录。功能分析表明，糖苷水解酶是主要酶类，某属占主要微生物。真菌物种[具体物种1]、[具体物种2]和[具体物种3]可能是杂交水稻种子顶部灰白色垩白谷粒中的候选病原体。这些结果将为改善收获后杂交水稻加工提供参考。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dec5/10305155/7d24b13a92c9/plants-12-02358-g001.jpg

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宏基因组测序分析杂交水稻种子顶灰垩白粒微生物的组成与功能

Metagenomic Sequencing to Analyze Composition and Function of Top-Gray Chalky Grain Microorganisms from Hybrid Rice Seeds.

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