Yunsheng Wang1,2, Muhammad Qasim Shahid1, Shunquan Lin3, Chengjie Chen1, Chen Hu1. 1. Key Laboratory of Biology and Germplasm Creation of Horticultural Crop (Southern China), Ministry of Agriculture, South China Agriculrual University, Guangzhou, 510642, China. 2. College of Environment and Life Science, Kaili University, Guizhou, 556011, China. 3. Key Laboratory of Biology and Germplasm Creation of Horticultural Crop (Southern China), Ministry of Agriculture, South China Agriculrual University, Guangzhou, 510642, China. loquat@scau.edu.cn.
Abstract
BACKGROUND: The process of crop domestication has long been a major area of research to gain insights into the history of human civilization and to understand the process of evolution. Loquat (Eriobotrya japonica Lindl.) is one of the typical subtropical fruit trees, which was domesticated in China at least 2000 years ago. In the present study, we re-sequenced the genome of nine wild loquat accessions collected from wide geographical range and 10 representative cultivated loquat cultivars by using RAD-tag tacit to exploit the molecular footprints of domestication. RESULTS: We obtained 26.4 Gb clean sequencing data from 19 loquat accessions, with an average of 32.64 M reads per genotype. We identified more than 80,000 SNPs distributed throughout the loquat genome. The SNP density and numbers were slightly higher in the wild loquat populations than that in the cultivated populations. All cultivars were clustered together by structure, phylogenetic and PCA analyses. CONCLUSION: The modern loquat cultivars have experienced a non-significant genetic bottleneck during domestication, and originated from a single domesticated event. Moreover, our study revealed that Hubei province of China is probably the origin center of cultivated loquat.
BACKGROUND: The process of crop domestication has long been a major area of research to gain insights into the history of human civilization and to understand the process of evolution. Loquat (Eriobotrya japonica Lindl.) is one of the typical subtropical fruit trees, which was domesticated in China at least 2000 years ago. In the present study, we re-sequenced the genome of nine wild loquat accessions collected from wide geographical range and 10 representative cultivated loquat cultivars by using RAD-tag tacit to exploit the molecular footprints of domestication. RESULTS: We obtained 26.4 Gb clean sequencing data from 19 loquat accessions, with an average of 32.64 M reads per genotype. We identified more than 80,000 SNPs distributed throughout the loquat genome. The SNP density and numbers were slightly higher in the wild loquat populations than that in the cultivated populations. All cultivars were clustered together by structure, phylogenetic and PCA analyses. CONCLUSION: The modern loquat cultivars have experienced a non-significant genetic bottleneck during domestication, and originated from a single domesticated event. Moreover, our study revealed that Hubei province of China is probably the origin center of cultivated loquat.
Entities:
Keywords:
Eriobotrya japonica; Population genomics; SNP marker; Sequencing; Wild loquat
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