Identification of Leaf Waxy Candidate Gene and Expression Changes in Related Genes in Response to Cold Stress of Cabbage (Brassica oleracea L.)
Dengkui Shao, Yanjing Ren, Changrong Deng, Junqin Wen, Baohua Li, Quanhui Li, Lugang Zhang

TL;DR
This study identifies a gene responsible for leaf wax in cabbage and explores how cold stress affects wax-related gene expression.
Contribution
The study identifies BoCER1 as a candidate gene for leaf wax formation and reveals gene expression changes under cold stress.
Findings
BoCER1 is identified as the candidate gene controlling leaf wax in Brassica oleracea.
Cold stress upregulates α-linolenic acid pathway genes, potentially increasing jasmonic acid accumulation.
Wax synthesis pathway genes are upregulated in waxy cabbage, promoting wax formation.
Abstract
In cabbage, epidermal wax plays a key role in adaptation to abiotic and biotic stresses. The glossy green cabbage variety, which has less wax, is becoming increasingly popular on the market. In this study, the highly inbred waxy cabbage HQ2-1 and the glossy green cabbage Y2-1 were sampled for fine mapping and transcriptomics analysis. In the glossy green leaf cabbage, inheritance follows a simple dominant pattern. BSA-seq and interval targeted sequencing technology identified BoCER1 as the candidate gene controlling the leaf wax trait in Brassica oleracea. Downregulated genes in the α-linolenic acid metabolic pathway and upregulated genes in the wax synthesis pathway in HQ2-1 collectively promote wax formation in HQ2-1 leaves. Cold stress induced the upregulation of α-linolenic acid metabolic pathway genes in HQ2-1, and we speculate that the upregulation of these genes may promote…
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Taxonomy
TopicsPlant Surface Properties and Treatments · Lipid metabolism and biosynthesis · Plant Physiology and Cultivation Studies
