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Downregulated expression of <i>S</i>2<i>-RNase</i> attenuates self-incompatibility in “Guiyou No. 1” pummelo

Jianbing Hu, Qiang Xu, Chenchen Liu, Binghao Liu, Chong-Ling Deng, Chuanwu Chen, Zhuangmin Wei, Muhammad Husnain Ahmad, Kang Peng, Hao Wen, Xiangling Chen, Peng Chen, Robert M. Larkin, Junli Ye, Xiuxin Deng, Lijun Chai

2021Horticulture Research27 citationsDOIOpen Access PDF

Abstract

Abstract Self-incompatibility (SI) substantially restricts the yield and quality of citrus. Therefore, breeding and analyzing self-compatible germplasm is of great theoretical and practical significance for citrus. Here, we focus on the mechanism of a self-compatibility mutation in ‘Guiyou No. 1’ pummelo (Citrus maxima), which is a spontaneous mutant of ‘Shatian’ pummelo (Citrus maxima, self-incompatibility). The rate of fruit set and the growth of pollen tubes in the pistil confirmed that a spontaneous mutation in the pistil is responsible for the self-compatibility of ‘Guiyou No. 1’. Segregation ratios of the S genotype in F1 progeny, expression analysis, and western blotting validated that the reduced levels of S2-RNase mRNA contribute to the loss of SI in ‘Guiyou No. 1’. Furthermore, we report a phased assembly of the ‘Guiyou No. 1’ pummelo genome and obtained two complete and well-annotated S haplotypes. Coupled with an analysis of SV variations, methylation levels, and gene expression, we identified a candidate gene (CgHB40), that may influence the regulation of the S2-RNase promoter. Our data provide evidence that a mutation that affects the pistil led to the loss of SI in ‘Guiyou No. 1’ by influencing a poorly understood mechanism that affects transcriptional regulation. This work significantly advances our understanding of the genetic basis of the SI system in citrus and provides information on the regulation of S-RNase genes.

Topics & Concepts

BiologyMutantGermplasmGeneGeneticsGynoeciumGene expressionRNase PPollenBotanyRNAStamenPlant Reproductive BiologyPlant Molecular Biology ResearchPlant and animal studies
Downregulated expression of <i>S</i>2<i>-RNase</i> attenuates self-incompatibility in “Guiyou No. 1” pummelo | Litcius