Molecular phylogenetics and biogeography reveal the origin of cherries (Prunus subg. Cerasus, Rosaceae)

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Yan-Feng Song, Cheng Zhang, Muhammad Idrees, Xian-Gui Yi, Xian-Rong Wang, Meng Li
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Abstract

Abstract Cherries (subg. Cerasus) belong to Prunus s.l. (Rosaceae) and are widely distributed in temperate and subtropical regions of the Northern Hemisphere. Given its ornamental and edible functions, it is a hugely preferred germplasm resource for human societies. However, the interspecific phylogenetic relationships, divergence times, and routes of this subgenus remain unclear. To reveal its enigmatic and intricate evolutionary history, we newly sequenced 12 subg. Cerasus species, reconstructed the plastome phylogeny with 24 previously published subg. Cerasus species. This study supports that subg. Cerasus split into five clades, among which P. mahaleb is the basal group of subg. Cerasus; P. campanulata is genetically distantly related to P. cerasoides and is not recommended for treatment as a variety of the latter; P. subhirtella is involved in the speciation of P. yedoensis. Molecular dating and ancestral area reconstructions infer that subg. Cerasus originated in the Eastern Mediterranean–Central Asia before 11.57 Mya (95% HPD = 5.34–19.1 Mya) and subsequently spread into the Qinghai-Tibetan Plateau (QTP) and adjacent regions. The first dispersal event of modern subg. Cerasus was facilitated by ‘out-of-QTP’, colonizing North America across the Bering Land Bridge and re-dispersing into Europe from the Late Miocene to Pliocene and forming the initial distribution pattern of extant subg. Cerasus in the Pliocene; The end of the Quaternary glacial period witnessed a second dispersal event, and core subg. Cerasus population diversity flourished radially in its separate refugia during the Late Pleistocene.
樱桃(Prunus subg.)的分子系统发育和生物地理学研究。子房,蔷薇科)
樱桃(subg.;樱桃属樱属(蔷薇科),广泛分布于北半球温带和亚热带地区。由于其观赏和食用功能,它是人类社会非常首选的种质资源。然而,该亚属的种间系统发育关系、分化时间和路线仍不清楚。为了揭示其神秘而复杂的进化史,我们对12个亚群进行了新的测序。用24个已发表的亚群重构了樱属植物的质体系统发育。授粉物种。这项研究支持了这一观点。樱属植物分为5个分支,其中马haleb是亚群的基群。进入子房;钟形假蝇在遗传上与cerasoides有远亲关系,不建议作为后者的变种进行治疗;叶氏伪种参与了叶氏伪种的形成。分子年代测定和祖先区域重建推测亚g。在11.57 Mya (95% HPD = 5.34-19.1 Mya)之前,樱桃起源于东地中海-中亚,随后扩散到青藏高原及其邻近地区。现代亚种的第一次扩散事件。在晚中新世至上新世期间,“out- qtp”促进了高加索的形成,跨过白令海陆桥殖民北美,并重新分散到欧洲,形成了现存亚群的初始分布格局。上新世的盆地;第四纪冰期末期,发生了第二次分散事件,岩心亚段形成。晚更新世时期,樱花种群多样性在其独立的避难所中呈放射状繁荣。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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