Flavonoid Biosynthesis Pathway May Indirectly Affect Outcrossing Rate of Cytoplasmic Male–Sterile Lines of Soybean
Author:
Lin Chunjing12,
Duan Yuetong12,
Li Rong1,
Wang Pengnian12,
Sun Yanyan12,
Ding Xiaoyang12,
Zhang Jingyong12,
Yan Hao12,
Zhang Wei12,
Peng Bao12,
Zhao Limei12,
Zhang Chunbao12ORCID
Affiliation:
1. Soybean Research Institute, Jilin Academy of Agricultural Sciences, Changchun 130033, China
2. Key Laboratory of Hybrid Soybean Breeding of the Ministry of Agriculture and Rural Affairs, Changchun 130033, China
Abstract
(1) Background: Cytoplasmic male sterility (CMS) is important for exploiting heterosis. Soybean (Glycine max L.) has a low outcrossing rate that is detrimental for breeding sterile lines and producing hybrid seeds. Therefore, the molecular mechanism controlling the outcrossing rate should be elucidated to increase the outcrossing rate of soybean CMS lines; (2) Methods: The male–sterile soybean lines JLCMS313A (with a high outcrossing rate; HL) and JLCMS226A (with a low outcrossing rate; LL) were used for a combined analysis of the transcriptome (RNA–seq) and the targeted phenol metabolome; (3) Results: The comparison between HL and LL detected 5946 differentially expressed genes (DEGs) and 81 phenolic metabolites. The analysis of the DEGs and differentially abundant phenolic metabolites identified only one common KEGG pathway related to flavonoid biosynthesis. The qRT–PCR expression for eight DEGs was almost consistent with the transcriptome data. The comparison of the cloned coding sequence (CDS) regions of the SUS, FLS, UGT, and F3H genes between HL and LL revealed seven single nucleotide polymorphisms (SNPs) only in the F3H CDS. Moreover, five significant differentially abundant phenolic metabolites between HL and LL were associated with flavonoid metabolic pathways. Finally, on the basis of the SNPs in the F3H CDS, one derived cleaved amplified polymorphic sequence (dCAPS) marker was developed to distinguish between HL and LL soybean lines; (4) Conclusions: The flavonoid biosynthesis pathway may indirectly affect the outcrossing rate of CMS sterile lines in soybean.
Funder
National Special Funds for Guiding Local Science and Technology Development of China
Jilin Province Science and Technology Development Plan Project
the earmarked Fund for China Agriculture Research System
the Agricultural Science and Technology Innovation Project of Jilin Province
Subject
Plant Science,Ecology,Ecology, Evolution, Behavior and Systematics
Reference43 articles.
1. Field phenotyping of soybean roots for drought stress tolerance;Fenta;Agronomy,2014
2. Davis, W.H. (1985). Route to Hybrid Soybean Production. (US 4545146), U.S. Patent.
3. Studies on cytoplasmic–nuclear male sterile soybean;Sun;Chin. Sci. Bull.,1994
4. Selection of soybean male sterile line of nucleo–cytoplasmic interaction and its fertility;Zhang;Sci. Agric. Sin.,1999
5. Breeding of hybrid soybean HybSoy1;Zhao;Chin. J. Oil Crop Sci.,2004