iTRAQ-based proteomic analysis reveals several key metabolic pathways associated with male sterility in Salvia miltiorrhiza

Ruihong Wang; Congyu Lu; Zhiming Shu; Xinbo Yuan; Han Jiang; Hongbo Guo

doi:10.1039/c9ra09240d

iTRAQ-based proteomic analysis reveals several key metabolic pathways associated with male sterility in Salvia miltiorrhiza

RSC Adv. 2020 Apr 30;10(29):16959-16970. doi: 10.1039/c9ra09240d. eCollection 2020 Apr 29.

Authors

Ruihong Wang^{1

2}, Congyu Lu³, Zhiming Shu¹, Xinbo Yuan¹, Han Jiang², Hongbo Guo¹

Affiliations

¹ College of Chemistry and Pharmacy, Northwest A&F University Yangling 712100 China hbguo@nwsuaf.edu.cn.
² College of Life Sciences, Northwest A&F University Yangling 712100 China.
³ Centre for Bioinformatics & Computational Biology, University of Delaware Newark DE 19713 USA.

Abstract

Male sterility is a common phenomenon in flowering plants, and it has been widely used in hybrid seed production in a number of economically important crops. In 2002, our team discovered a natural male sterile mutant of Salvia miltiorrhiza. It provided us with the possibility of obtaining stable and controllable quality. To study the molecular mechanism of male sterility in S. miltiorrhiza, we generated proteomic profiles comparing the male sterile mutant type (MT) and wild type (WT) using iTRAQ sequencing. We found a total of 639 differential abundant proteins (DAPs) between MT and WT buds. The DAPs associated with male sterility were mainly involved in (1) carbohydrate and energy metabolism, and (2) protein synthesis and degradation. Based on a comparison between the protein expression profiles of MT and WT, we elucidated a potential protein interaction network involved in male sterility. These results provide new potential biomarkers and insights into the molecular mechanism of male sterility in S. miltiorrhiza.