抗虫和感虫苜蓿品种（Medicago sativa L.）在蓟马侵害后的比较转录组分析。

Comparative transcriptomic analysis of resistant and susceptible alfalfa cultivars (Medicago sativa L.) after thrips infestation.

机构信息

State Key Laboratory for Biology of Plant Diseases and Insect Pests, Institute of Plant Protection, Chinese Academy of Agricultural Sciences, Beijing, 100193, People's Republic of China.

Institute of Agro-Resourse and Environment, Hebei Academy of Agriculture and Forestry Sciences, Shijiazhuang, 050051, People's Republic of China.

出版信息

BMC Genomics. 2018 Feb 2;19(1):116. doi: 10.1186/s12864-018-4495-2.

DOI:10.1186/s12864-018-4495-2

PMID:29394889

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5797364/

Abstract

BACKGROUND

Plant breeding for resistance to agricultural pests is an essential element in the development of integrated crop management systems; however, the molecular and genetic mechanisms underlying resistance are poorly understood. In this pilot study, a transcriptomic analysis of a resistant (R) vs. a susceptible (S) variety of alfalfa, with (+T) or without (-T) thrips (= 4 treatments) was conducted, 'GN-1' (China) was defined as the resistant cultivar, and 'WL323' (America) was defined as the susceptible cultivar.

RESULTS

A total of 970 mRNAs were differentially expressed, of which 129 up- and 191 down-regulated genes were identified in the R + T/R-T plants, while 413 up- and 237 down-regulated genes were identified in the S + T/S-T plants. KEGG analysis mapped 33 and 80 differentially expressed genes to 11 and 14 substantially enriched pathways for GN-1 and WL323, respectively. Five shared pathways were linked to plant resistance traits, including beta-Alanine metabolism, fatty acid degradation, chloroalkane and chloroalkene degradation, flavonoid biosynthesis, and phenylalanine metabolism.

CONCLUSIONS

Results indicated both thrips resistant and susceptible alfalfa cultivars can regulate gene expression in the salicylic acid (SA) and flavonoid biosynthesis pathways to induce defensive genes and protein expression (e.g. polyphenol oxidase, protease inhibitor), which enhances plant defence capacity.

摘要

背景

培育抗农业害虫的植物是综合作物管理系统发展的重要组成部分；然而，对其抗性的分子和遗传机制知之甚少。在这项初步研究中，对具有（+T）或不具有（-T）蓟马的抗性（R）与敏感（S）苜蓿品种（= 4 种处理）进行了转录组分析，“GN-1”（中国）被定义为抗性品种，“WL323”（美国）被定义为敏感品种。

结果

共鉴定出 970 个差异表达的 mRNA，其中 R+T/R-T 植株中上调和下调基因分别为 129 个和 191 个，S+T/S-T 植株中上调和下调基因分别为 413 个和 237 个。KEGG 分析将 33 个和 80 个差异表达基因映射到 GN-1 和 WL323 的 11 个和 14 个显著富集途径。5 个共享途径与植物抗性特性相关，包括β-丙氨酸代谢、脂肪酸降解、氯烷烃和氯烯烃降解、类黄酮生物合成和苯丙氨酸代谢。

结论

结果表明，抗蓟马和敏感苜蓿品种均可调节水杨酸（SA）和类黄酮生物合成途径中的基因表达，诱导防御基因和蛋白质表达（如多酚氧化酶、蛋白酶抑制剂），从而增强植物的防御能力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/344f/5797364/410960907189/12864_2018_4495_Fig1_HTML.jpg

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抗虫和感虫苜蓿品种（Medicago sativa L.）在蓟马侵害后的比较转录组分析。

Comparative transcriptomic analysis of resistant and susceptible alfalfa cultivars (Medicago sativa L.) after thrips infestation.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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