GWAS combined with transcriptomics revealed key regulatory genes for inflorescence traits and fruit set rate in Litchi (Litchi chinensis Sonn.)
文献类型: 外文期刊
第一作者: Shi, Fachao
作者: Shi, Fachao;Jiang, Yonghua;Liu, Hailun;Wen, Yingjie;Yan, Qian;Shi, Fachao;Jiang, Yonghua;Liu, Hailun;Wen, Yingjie;Yan, Qian;Shi, Fachao;Jiang, Yonghua;Liu, Hailun;Wen, Yingjie;Yan, Qian;Huang, Kan
作者机构:
关键词: Flowering phenotype regulation; Litchi inflorescence development; SNP associations in Litchi; Transcriptomics analysis; Candidate gene identification
期刊名称:BMC GENOMICS ( 影响因子:3.7; 五年影响因子:4.2 )
ISSN: 1471-2164
年卷期: 2025 年 26 卷 1 期
页码:
收录情况: SCI
摘要: As an important tropical and subtropical fruit, litchi's inflorescence size and the number of florets per inflorescence are crucial factors affecting fruit set rate and yield. This study extensively collected a total of 219 litchi germplasm resources, including those from China and 11 other countries worldwide, systematically evaluating eight core phenotypic traits: inflorescence length (IL), inflorescence width (IW), number of secondary lateral inflorescences (NSLI), number of inflorescence internodes (NII), base to main axis length (BMAL), inverted 5th internode length (I5IL), number of female flowers per inflorescence (NFFI), and fertilization rate (FR). The research findings indicated significant correlations between these agronomic traits and fruit set rate, particularly with high fruit set rate litchi varieties showing notably lower trait expressions in IL, NSLI, NFFI, and NII compared to low fruit set rate varieties. Furthermore, through genome-wide association studies (GWAS), significant SNP loci were successfully identified for the two key traits, NSLI and NFFI, while other traits did not show significant associations. Transcriptome results revealed that differentially expressed genes between two typical inflorescence litchi varieties were mainly enriched in molecular function categories such as catalytic activity and transferase activity, affecting metabolic pathways and secondary metabolite synthesis. Joint analysis of GWAS and transcriptomics suggested that the NSLI-associated gene LITCHI016073 (UBP1-associated proteins) might regulate inflorescence development by influencing gibberellin signaling, while NFFI -associated genes LITCHI019855 (Solute carrier family), LITCHI011125 (SEC3A), LITCHI025977 (Acid phosphatase), and LITCHI023264 (Enolase) affected the development and number of female florets. The functions of these genes were further validated by transcriptome results. qRT-PCR analysis showed that in the Houxian variety (dense inflorescence), the expression levels of LITCHI016073, LITCHI011125, LITCHI025977, and LITCHI023264 during the three critical flowering stages were significantly higher than those in the Edanli variety, while the expression level of the LITCHI019855 gene was significantly lower, strongly demonstrating the important roles of these genes in inflorescence development and fruit set rate regulation. By employing large-scale sample analysis and multi-omics technologies, this study systematically unraveled the intrinsic relationships between litchi inflorescence traits and fruit set rate, providing a solid scientific basis and novel insights for litchi breeding practices.
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