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Genetic mapping reveals a candidate gene CmoFL1 controlling fruit length in pumpkin

Fruit length (FL) is an important economical trait that affects fruit yield and appearance. Pumpkin ( Duch) contains a wealth genetic variation in fruit length. However, the natural variation underlying differences in pumpkin fruit length remains unclear. In this study, we constructed a F segregate...

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Published in:	Frontiers in plant science 2024-05, Vol.15, p.1408602
Main Authors:	Zhou, Yimei, Zhao, Meng, Shen, Qinghui, Zhang, Mengyi, Wang, Chenhao, Zhang, Yutong, Yang, Qinrong, Bo, Yongming, Hu, Zhongyuan, Yang, Jinghua, Zhang, Mingfang, Lyu, Xiaolong
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Subjects:	BSA-seq CmoFL1 E3 ubiquitin ligase fruit length Plant Science pumpkin
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creator	Zhou, Yimei Zhao, Meng Shen, Qinghui Zhang, Mengyi Wang, Chenhao Zhang, Yutong Yang, Qinrong Bo, Yongming Hu, Zhongyuan Yang, Jinghua Zhang, Mingfang Lyu, Xiaolong
description	Fruit length (FL) is an important economical trait that affects fruit yield and appearance. Pumpkin ( Duch) contains a wealth genetic variation in fruit length. However, the natural variation underlying differences in pumpkin fruit length remains unclear. In this study, we constructed a F segregate population using KG1 producing long fruit and MBF producing short fruit as parents to identify the candidate gene for fruit length. By bulked segregant analysis (BSA-seq) and Kompetitive Allele-Specific PCR (KASP) approach of fine mapping, we obtained a 50.77 kb candidate region on chromosome 14 associated with the fruit length. Then, based on sequence variation, gene expression and promoter activity analyses, we identified a candidate gene ( ) encoding E3 ubiquitin ligase in this region may account for the variation of fruit length. One SNP variation in promoter of changed the GT1CONSENSUS, and DUAL-LUC assay revealed that this variation significantly affected the promoter activity of . RNA-seq analysis indicated that might associated with the cell division process and negatively regulate fruit length. Collectively, our work identifies an important allelic affecting fruit length, and provides a target gene manipulating fruit length in future pumpkin breeding.
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Pumpkin ( Duch) contains a wealth genetic variation in fruit length. However, the natural variation underlying differences in pumpkin fruit length remains unclear. In this study, we constructed a F segregate population using KG1 producing long fruit and MBF producing short fruit as parents to identify the candidate gene for fruit length. By bulked segregant analysis (BSA-seq) and Kompetitive Allele-Specific PCR (KASP) approach of fine mapping, we obtained a 50.77 kb candidate region on chromosome 14 associated with the fruit length. Then, based on sequence variation, gene expression and promoter activity analyses, we identified a candidate gene ( ) encoding E3 ubiquitin ligase in this region may account for the variation of fruit length. One SNP variation in promoter of changed the GT1CONSENSUS, and DUAL-LUC assay revealed that this variation significantly affected the promoter activity of . RNA-seq analysis indicated that might associated with the cell division process and negatively regulate fruit length. 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RNA-seq analysis indicated that might associated with the cell division process and negatively regulate fruit length. 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subjects	BSA-seq CmoFL1 E3 ubiquitin ligase fruit length Plant Science pumpkin
title	Genetic mapping reveals a candidate gene CmoFL1 controlling fruit length in pumpkin
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