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Domestication and breeding changed tomato fruit transcriptome 被引量:1
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作者 LIU Dan YANG Liang +8 位作者 ZHANG Jin-zhe ZHU Guang-tao LÜHong-jun LÜYa-qing WANG Yan-ling CAO Xue SUN Tian-shu HUANG San-wen WU Yao-yao 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2020年第1期120-132,共13页
Tomato(Solanum lycopersicum) stress resistance and fruit total soluble solid(TSS) content have changed dramatically during selective breeding, and transcriptome variation has played a critical role in this rewiring. H... Tomato(Solanum lycopersicum) stress resistance and fruit total soluble solid(TSS) content have changed dramatically during selective breeding, and transcriptome variation has played a critical role in this rewiring. However, the single tomato reference genome impedes characterization of whole-transcriptome variation during domestication and breeding at the population level. Here, we constructed a pan-transcriptome of orange-stage tomato fruit, and investigated global expression presence/absence variation(e PAV) and differentially expressed genes(DEGs) based on RNA sequencing(RNA-seq) data from 399 tomato accessions. A total of 7 181 genes absent from the reference genome were identified, 6 122 of which were e PAV genes during tomato domestication and breeding including resistance genes such as late blight resistance gene PIM_DN29746_c0_g3_i1 and peroxidase P7-like gene PIM_DN30274_c0_g2_i1. In addition, 3 629 genes were significantly differentially expressed during tomato selection, among which 19 genes were associated with the reduced fruit TSS content of modern tomato cultivars, including LIN5, TIV1, and seven novel sugar transporter genes. Our results indicate that natural and artificial selection greatly shaped the tomato transcriptome, thereby altering the fruit TSS content and resistance to abiotic and biotic stresses. 展开更多
关键词 TOMATO pan-transcriptome ePAV DEG DOMESTICATION BREEDING
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