Study on the Mechanism of Grafting to Improve the Tolerance of Pepper to Low Temperature

Author:

Long Huijun12ORCID,Li Ziyu12,Suo Huan12,Ou Lijun12,Miao Wu12,Deng Wenqiao3

Affiliation:

1. College of Horticulture, Hunan Agricultural University, Changsha 410128, China

2. Huangpu Innovation Research Institute, Hunan Agricultural University, Guangzhou 510000, China

3. Changsha Academy of Agricultural Sciences, Changsha 410026, China

Abstract

Pepper is a horticultural crop that does not tolerate low temperatures. To investigate how the grafted pepper responds to low temperature stress in the short term, transcriptome analysis was performed on grafted seedlings treated with low temperature for 1 h, 4 h, 12 h and 24 h compared with those treated for 0 h. The results showed that genes related to CAM4, MPK8, RbohD and OXI1 might be related to the response of grafted seedlings to low temperature stress in the short term. To investigate how low temperature tolerant rootstocks can improve the low temperature tolerance of grafted peppers, morphological and physiological indices of self-rooted and grafted seedlings were analyzed under low temperature conditions for different days. The results showed that the degree of wilting, REL and MDA content of grafted seedlings were significantly lower than those of self-rooted seedlings, and the antioxidant enzyme activities were significantly higher than those of self-rooted seedlings under low temperature stress. The results indicated that grafted pepper would activate ROS-related genes in a short period of time after low temperature stress and produce a large amount of ROS in response to the low temperature stress. When ROS accumulated to a certain level, the grafted pepper could increase the enzyme activity of antioxidant system to remove the ROS produced in the body, and help the pepper seedlings adapt to low temperature stress through osmoregulation mechanism, so as to resist the damage caused by low temperature. The results of the study provide ideas for growing pepper in low temperature environment.

Funder

the National Specialty Vegetable Industry Technology System Post Expert Funds

the Huangpu Research Institute Project of Hunan Agricultural University

Publisher

MDPI AG

Subject

Agronomy and Crop Science

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