Affiliation:
1. Zhejiang Institute of Subtropical Crops, Wenzhou 325005, China
Abstract
To meet the large demand for Asparagus officinalis in the spring market and improve the economic benefits of cultivating asparagus, we explored the molecular mechanism underlying the response of A. officinalis to low temperature. First, “Fengdao No. 1” was screened out under low-temperature treatment. Then, the transcriptome sequencing and hormone detection of “Fengdao No. 1” and “Grande” (control) were performed. Transcriptome sequencing resulted in screening out key candidate genes, while hormone analysis indicated that ABA was important for the response to low temperature. The combined analysis indicated that the AoMYB56 gene may regulate ABA in A. officinalis under low temperature. And the phylogenetic tree was constructed, and subcellular localisation was performed. From these results, we speculated that the AoMYB56 gene may regulate ABA in A. officinalis. The results of this research provide a theoretical basis for the further exploration of low-temperature response in A. officinalis.
Funder
Technology Commissioner of Wenzhou
Ouhai Science Innovation Center Program of Zhejiang Academy of Agricultural Sciences
Zhejiang Leading Talents Program
Reference52 articles.
1. Yu, T., Nassuth, A., and Peterson, R. (2001). Characterization of the interaction between the dark septate fungus Phialocephala fortinii and Asparagus officinalis roots. Can. J. Microbiol., 47.
2. Induction of systemic disease resistance and pathogen defence responses in Asparagus officinalis inoculated with nonpathogenic strains of Fusarium oxysporum;He;Plant Pathol.,2010
3. Low temperature regulation of the Arabidopsis CBF family of AP2 transcriptional activators as an early step in cold-induced COR gene expression;Gilmour;Plant J.,2010
4. Role of MaABI5-like in abscisic acid-induced cold tolerance of ‘Fenjiao’ banana fruit;Song;Hortic. Res.,2022
5. Transcriptome changes for Arabidopsis in response to salt, osmotic, and cold Stress;Kreps;Plant Physiol.,2002