iTRAQ-based quantitative proteomic analysis of heat stress-induced mechanisms in pepper seedlings

As one of the most important vegetable crops, pepper has rich nutritional value and high economic value. Increasing heat stress due to the global warming has a negative impact on the growth and yield of pepper. To understand the heat stress response mechanism of pepper, an iTRAQ-based quantitative p...

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Veröffentlicht in:PeerJ (San Francisco, CA) CA), 2021-06, Vol.9, p.e11509-e11509, Article e11509
Hauptverfasser: Wang, Jing, Liang, Chengliang, Yang, Sha, Song, Jingshuang, Li, Xuefeng, Dai, Xiongze, Wang, Fei, Juntawong, Niran, Tan, Fangjun, Zhang, Xilu, Jiao, Chunhai, Zou, Xuexiao, Chen, Wenchao
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Sprache:eng
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Zusammenfassung:As one of the most important vegetable crops, pepper has rich nutritional value and high economic value. Increasing heat stress due to the global warming has a negative impact on the growth and yield of pepper. To understand the heat stress response mechanism of pepper, an iTRAQ-based quantitative proteomic analysis was employed to identify possible heat-responsive proteins and metabolic pathways in 17CL30 and 05S180 pepper seedlings under heat stress. In the present study, we investigated the changes of phenotype, physiology, and proteome in heat-tolerant (17CL30) and heat-sensitive (05S180) pepper cultivars in response to heat stress. Phenotypic and physiological changes showed that 17CL30 had a stronger ability to resist heat stress compared with 05S180. In proteomic analysis, a total of 3,874 proteins were identified, and 1,591 proteins were considered to participate in the process of heat stress response. According to bioinformatic analysis of heat-responsive proteins, the heat tolerance of 17CL30 might be related to a higher ROS scavenging, photosynthesis, signal transduction, carbohydrate metabolism, and stress defense, compared with 05S180.
ISSN:2167-8359
2167-8359
DOI:10.7717/peerj.11509