loading page

Overexpression of FERONIA receptor-like kinase MdMRLK2 enhances apple cold tolerance by modulating cell wall components, osmotic adjustment substances and anthocyanin biosynthesis
  • +5
  • Yuanyuan Jing,
  • Tingting Pei,
  • Chunrong Li,
  • Duanni Wang,
  • Qi Wang,
  • Pengmin Li,
  • Changhai Liu,
  • Fengwang Ma
Yuanyuan Jing
Northwest Agriculture and Forestry University

Corresponding Author:jingyuanyuan@nwafu.edu.cn

Author Profile
Tingting Pei
Northwest Agriculture and Forestry University
Author Profile
Chunrong Li
Northwest Agriculture and Forestry University
Author Profile
Duanni Wang
Northwest Agriculture and Forestry University
Author Profile
Qi Wang
Northwest Agriculture and Forestry University
Author Profile
Pengmin Li
Northwest Agriculture and Forestry University
Author Profile
Changhai Liu
Northwest Agriculture and Forestry University
Author Profile
Fengwang Ma
Northwest Agriculture and Forestry University
Author Profile

Abstract

Cold stress is the main abiotic stress in temperate fruit crops, affecting the yield and fruit quality of apple in China and European countries. The plant receptor-like kinase FERONIA is involved in abiotic stresses. However, little is known about its function in apple cold resistance. In this study, the apple FERONIA receptor-like kinase encoding gene MdMRLK2 was rapidly induced by cold treatment. MdMRLK2 overexpression apple plants showed enhanced cold resistance relative to wild-type. Further analyses indicated that, under cold condition, MdMRLK2 overexpression apple plants had i) reduced activities of polygalacturonase, pectinate lyase, pectinesterase and cellulase; ii) higher contents of water insoluble pectin, lignin, cellulose and hemicellulose; iii) more soluble sugars and free amino acids accumulation; iv) reduced photosystem damage. Intriguingly, MdMRLK2 interacted with MdMYBPA1 and promoted its binding to MdANS and MdUFGT promoters, leading to increased anthocyanin biosynthesis. Collectively, these findings unveiled a novel function of apple FERONIA MdMRLK2 in regulating cold resistance.