Combined Analyses of Chloroplast DNA Haplotypes and Microsatellite Markers Reveal New Insights Into the Origin and Dissemination Route of Cultivated Pears Native to East Asia

Xiaoyan Yue; Xiaoyan Zheng; Yu Zong; Shuang Jiang; Chunyun Hu; Peiyuan Yu; Guoqin Liu; Yufen Cao; Hongju Hu; Yuanwen Teng

doi:10.3389/fpls.2018.00591

Combined Analyses of Chloroplast DNA Haplotypes and Microsatellite Markers Reveal New Insights Into the Origin and Dissemination Route of Cultivated Pears Native to East Asia

Front Plant Sci. 2018 May 7:9:591. doi: 10.3389/fpls.2018.00591. eCollection 2018.

Authors

Xiaoyan Yue^{1

2

3}, Xiaoyan Zheng⁴, Yu Zong^{1

2

3}, Shuang Jiang^{1

2

3}, Chunyun Hu^{1

2

3}, Peiyuan Yu^{1

2

3}, Guoqin Liu⁵, Yufen Cao⁶, Hongju Hu⁷, Yuanwen Teng^{1

2

3}

Affiliations

¹ Department of Horticulture, Zhejiang University, Hangzhou, China.
² The Key Laboratory of Horticultural Plant Growth, Development and Quality Improvement, Ministry of Agriculture of China, Hangzhou, China.
³ Zhejiang Provincial Key Laboratory of Integrative Biology of Horticultural Plants, Hangzhou, China.
⁴ College of Ecology, Lishui University, Lishui, China.
⁵ College of Agriculture, Guizhou University, Guiyang, China.
⁶ Research Institute of Pomology, Chinese Academy of Agricultural Sciences, Xingcheng, China.
⁷ Institute of Fruit and Tea, Hubei Academy of Agricultural Sciences, Wuhan, China.

Abstract

Asian pear plays an important role in the world pear industry, accounting for over 70% of world total production volume. Commercial Asian pear production relies on four major pear cultivar groups, Japanese pear (JP), Chinese white pear (CWP), Chinese sand pear (CSP), and Ussurian pear (UP), but their origins remain controversial. We estimated the genetic diversity levels and structures in a large sample of existing local cultivars to investigate the origins of Asian pears using twenty-five genome-covering nuclear microsatellite (simple sequence repeats, nSSR) markers and two non-coding chloroplast DNA (cpDNA) regions (trnL-trnF and accD-psaI). High levels of genetic diversity were detected for both nSSRs (H_E = 0.744) and cpDNAs (Hd = 0.792). The major variation was found within geographic populations of cultivated pear groups, demonstrating a close relationship among cultivar groups. CSPs showed a greater genetic diversity than CWPs and JPs, and lowest levels of genetic differentiation were detected among them. Phylogeographical analyses indicated that the CSP, CWP, and JP were derived from the same progenitor of Pyrus pyrifolia in China. A dissemination route of cultivated P. pyrifolia estimated by approximate Bayesian computation suggested that cultivated P. pyrifolia from the Middle Yangtze River Valley area contributed the major genetic resources to the cultivars, excluding those of southwestern China. Three major genetic groups of cultivated Pyrus pyrifolia were revealed using nSSRs and a Bayesian statistical inference: (a) JPs; (b) cultivars from South-Central China northward to northeastern China, covering the main pear production area in China; (c) cultivars from southwestern China to southeastern China, including Yunnan, Guizhou, Guangdong, Guangxi, and Fujian Provinces. This reflected the synergistic effects of ecogeographical factors and human selection during cultivar spread and improvement. The analyses indicated that UP cultivars might be originated from the interspecific hybridization of wild Pyrus ussuriensis with cultivated Pyrus pyrifolia. The combination of uniparental DNA sequences and nuclear markers give us a better understanding of origins and genetic relationships for Asian pear groups and will be beneficial for the future improvement of Asian pear cultivars.

Keywords: Asian pear; chloroplast DNA; dissemination route; genetic variation; microsatellite; origin.