Effects of Exogenous 24-Epibrassinolide Leaves Spraying Application on Chlorophyll Accumulation and Gene Expression Profiles of Chlorophyll Metabolism in Celery

Celery is an important leaf vegetable crop in Apiaceae, of which the petiole and leaf blade are the main edible parts. The content and proportion of photosynthetic pigments, mainly chlorophyll, have an important effect on the growth and quality of celery. As a brassinosteroid (BR) plant hormone with...

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Published inHorticulturae Vol. 9; no. 12; p. 1279
Main Authors Chen, Chen, Wang, Li-Xiang, Li, Meng-Yao, Tan, Guo-Fei, Zhang, Er-Jin, Liu, Pei-Zhuo, Liu, Hui, Tao, Jian-Ping, Shu, Sheng, Zhou, Jian-Hua, Xiong, Ai-Sheng
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.12.2023
Subjects
24-epibrassinolide
Accumulation
Agricultural production
Biosynthesis
Blades
Celery
Chlorophyll
chlorophyll accumulation
Environmental degradation
Enzymes
Gene expression
gene expression profiles
Gene regulation
Genes
growth period
Humidity
Leaves
Metabolism
Photosynthetic pigments
Physiology
Plant growth
Senescence
Software
Spraying
Vegetables
United States > US
China
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Summary:Celery is an important leaf vegetable crop in Apiaceae, of which the petiole and leaf blade are the main edible parts. The content and proportion of photosynthetic pigments, mainly chlorophyll, have an important effect on the growth and quality of celery. As a brassinosteroid (BR) plant hormone with high physiological activity, 24-epibrassinolide (24-EBL) has the physiological functions of promoting chlorophyll accumulation and delaying leaf senescence. To investigate the effects of 24-EBL treatment on chlorophyll accumulation at different growth stages of celery, celery plants (variety Ningqin NO. 1) were treated from 45~59 days after sowing (DAS), at intervals of 7 days, with two different concentrations of 24-EBL: 1.04 × 10−6 mol·L−1 and 1.67 × 10−6 mol·L−1. The content of chlorophyll and the expression levels of genes related to its metabolism were determined in celery leaf blades and petioles at three different stages (52, 59, 66 DAS). In the first stage (52 DAS), 1.04 × 10−6 mol·L−1 treatment of 24-EBL increased the expression levels of genes related to chlorophyll biosynthesis (AgHEML, AgCHLG, and AgCAO) to promote the accumulation of chlorophyll in leaf blades. During the second and third stages (59 and 66 DAS, respectively), 1.67 × 10−6 mol·L−1 24-EBL treatment induced the expression levels of genes related to chlorophyll cyclic regeneration (AgCLH) and inhibited the up-regulation of genes related to chlorophyll degradation (AgNYC, AgHCAR, and AgPPH) to promote chlorophyll (especially chlorophyll b) accumulation. These treatments regulated the ratio of chlorophyll a content to chlorophyll b content and changed the leaf color of the celery. The results show that leaf spraying with an appropriate concentration of 24-EBL can facilitate chlorophyll synthesis by promoting chlorophyll synthesis and cycling-related gene expression levels and increase chlorophyll content in the leaves of celery. This study provides a reference for exploring the specific function of 24-EBL in regulating chlorophyll content during the growth and development of celery.
ISSN:2311-7524
2311-7524
DOI:10.3390/horticulturae9121279