RNA测序研究揭示了不同野生大豆种质对臭氧水平升高的遗传响应。

RNA-Seq study reveals genetic responses of diverse wild soybean accessions to increased ozone levels.

作者信息

Waldeck Nathan, Burkey Kent, Carter Thomas, Dickey David, Song Qijian, Taliercio Earl

机构信息

Driskill Graduate Program in Life Sciences, Northwestern University Feinberg School of Medicine, Chicago, IL, 60611, USA.

Soybean and Nitrogen Fixation Research Unit, and the Department of Crop and Soil Sciences, North Carolina State University, Raleigh, NC, 27695, USA.

出版信息

BMC Genomics. 2017 Jun 29;18(1):498. doi: 10.1186/s12864-017-3876-2.

DOI:10.1186/s12864-017-3876-2

PMID:28662633

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5493002/

Abstract

BACKGROUND

Ozone is an air pollutant widely known to cause a decrease in productivity in many plant species, including soybean (Glycine max (L.) Merr). While the response of cultivated soybean to ozone has been studied, very little information is available regarding the ozone response of its wild relatives.

RESULTS

Ozone-resistant wild soybean accessions were identified by measuring the response of a genetically diverse group of 66 wild soybean (Glycine soja Zucc. and Sieb.) accessions to elevated ozone levels. RNA-Seq analyses were performed on leaves of different ages from selected ozone-sensitive and ozone-resistant accessions that were subjected to treatment with an environmentally relevant level of ozone. Many more genes responded to elevated ozone in the two ozone-sensitive accessions than in the ozone-resistant accessions. Analyses of the ozone response genes indicated that leaves of different ages responded differently to ozone. Older leaves displayed a consistent reduction in expression of genes involved in photosynthesis in response to ozone, while changes in expression of defense genes dominated younger leaf tissue in response to ozone. As expected, there is a substantial difference between the response of ozone-sensitive and ozone-resistant accessions. Genes associated with photosystem 2 were substantially reduced in expression in response to ozone in the ozone-resistant accessions. A decrease in peptidase inhibitors was one of several responses specific to one of the ozone resistant accessions.

CONCLUSION

The decrease in expression in genes associated with photosynthesis confirms that the photosynthetic apparatus may be an early casualty in response to moderate levels of ozone. A compromise of photosynthesis would substantially impact plant growth and seed production. However, the resistant accessions may preserve their photosynthetic apparatus in response to the ozone levels used in this study. Older leaf tissue of the ozone-resistant accessions showed a unique down-regulation of genes associated with endopeptidase inhibitor activity. This study demonstrates the existence of significant diversity in wild soybean for ozone response. Wild soybean accessions characterized in this study can be used by soybean breeders to enhance ozone tolerance of this important food crop.

摘要

背景

臭氧是一种空气污染物，众所周知它会导致包括大豆（Glycine max (L.) Merr）在内的许多植物物种的生产力下降。虽然已对栽培大豆对臭氧的反应进行了研究，但关于其野生近缘种对臭氧的反应的信息却非常少。

结果

通过测量66份遗传多样性的野生大豆（Glycine soja Zucc. and Sieb.）材料对升高的臭氧水平的反应，鉴定出了耐臭氧的野生大豆材料。对选自臭氧敏感和耐臭氧材料的不同年龄叶片进行RNA测序分析，这些材料用与环境相关水平的臭氧进行处理。与耐臭氧材料相比，两个臭氧敏感材料中对升高的臭氧有反应的基因更多。对臭氧反应基因的分析表明，不同年龄的叶片对臭氧的反应不同。老叶对臭氧的反应表现为参与光合作用的基因表达持续降低，而防御基因的表达变化在幼叶组织中对臭氧的反应中占主导。正如预期的那样，臭氧敏感和耐臭氧材料的反应存在很大差异。耐臭氧材料中与光系统2相关的基因在臭氧处理下表达大幅降低。肽酶抑制剂的减少是其中一个耐臭氧材料特有的几种反应之一。

结论

与光合作用相关的基因表达下降证实，光合机构可能是对中等水平臭氧反应的早期受害者。光合作用受损将严重影响植物生长和种子生产。然而，耐臭氧材料可能会在本研究使用的臭氧水平下保留其光合机构。耐臭氧材料的老叶组织显示出与内肽酶抑制剂活性相关的基因独特下调。本研究证明了野生大豆在臭氧反应方面存在显著多样性。本研究中鉴定的野生大豆材料可被大豆育种者用于提高这种重要粮食作物的耐臭氧性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/946d/5493002/74f890edb02d/12864_2017_3876_Fig1_HTML.jpg

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RNA测序研究揭示了不同野生大豆种质对臭氧水平升高的遗传响应。

RNA-Seq study reveals genetic responses of diverse wild soybean accessions to increased ozone levels.

作者信息

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RESULTS

CONCLUSION

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结果

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