Nuclear and Plastid Markers Reveal the Persistence of Genetic Identity: a New Perspective on the Evolutionary History of Petunia Exserta

Overview

Journal Mol Phylogenet Evol

Specialties Biology
Molecular Biology

Date 2013 Oct 29

PMID 24161675

Citations 16

Authors

Ana Lucia Anversa Segatto

Ana Luiza Ramos Caze

Caroline Turchetto

Ulrich Klahre

Cris Kuhlemeier

Sandro Luis Bonatto

Loreta Brandao Freitas

Affiliations

Soon will be listed here.

Abstract

Recently divergent species that can hybridize are ideal models for investigating the genetic exchanges that can occur while preserving the species boundaries. Petunia exserta is an endemic species from a very limited and specific area that grows exclusively in rocky shelters. These shaded spots are an inhospitable habitat for all other Petunia species, including the closely related and widely distributed species P. axillaris. Individuals with intermediate morphologic characteristics have been found near the rocky shelters and were believed to be putative hybrids between P. exserta and P. axillaris, suggesting a situation where Petunia exserta is losing its genetic identity. In the current study, we analyzed the plastid intergenic spacers trnS/trnG and trnH/psbA and six nuclear CAPS markers in a large sampling design of both species to understand the evolutionary process occurring in this biological system. Bayesian clustering methods, cpDNA haplotype networks, genetic diversity statistics, and coalescence-based analyses support a scenario where hybridization occurs while two genetic clusters corresponding to two species are maintained. Our results reinforce the importance of coupling differentially inherited markers with an extensive geographic sample to assess the evolutionary dynamics of recently diverged species that can hybridize.

Citing Articles

Shades of white: The Petunia long corolla tube clade evolutionary history.

Backes A, Turchetto C, Mader G, Segatto A, Bonatto S, Freitas L Genet Mol Biol. 2024; 47(1):e20230279.

PMID: 38385448 PMC: 10882218. DOI: 10.1590/1415-4757-GMB-2023-0279.

Ecological Diversification in an Adaptive Radiation of Plants: The Role of De Novo Mutation and Introgression.

Stone B, Wessinger C Mol Biol Evol. 2024; 41(1).

PMID: 38232726 PMC: 10826641. DOI: 10.1093/molbev/msae007.

Genetic architecture of a pollinator shift and its fate in secondary hybrid zones of two Petunia species.

Binaghi M, Esfeld K, Mandel T, Freitas L, Roesti M, Kuhlemeier C BMC Biol. 2023; 21(1):58.

PMID: 36941631 PMC: 10029178. DOI: 10.1186/s12915-023-01561-x.

Tight genetic linkage of genes causing hybrid necrosis and pollinator isolation between young species.

Li C, Binaghi M, Pichon V, Cannarozzi G, Freitas L, Hanemian M Nat Plants. 2023; 9(3):420-432.

PMID: 36805038 PMC: 10027609. DOI: 10.1038/s41477-023-01354-8.

The complete chloroplast genome of (Solanaceae: Petunioideae), an endangered ornamental species.

Sun M, Zou P, Zhang W, Zhang L, Wang W, Liu G Mitochondrial DNA B Resour. 2021; 6(9):2619-2621.

PMID: 34409158 PMC: 8366615. DOI: 10.1080/23802359.2021.1962762.