TY - JOUR

T1 - AFLP markers as a tool to reconstruct complex relationships

T2 - A case study in Rosa (Rosaceae)

AU - Koopman, Wim J.M.

AU - Wissemann, Volker

AU - De Cock, Katrien

AU - Van Huylenbroeck, Johan

AU - De Riek, Jan

AU - Sabatino, Gerda J.H.

AU - Visser, Dirk

AU - Vosman, Ben

AU - Ritz, Christiane M.

AU - Maes, Bert

AU - Werlemark, Gun

AU - Nybom, Hilde

AU - Debener, Thomas

AU - Linde, Marcus

AU - Smulders, Marinus J.M.

PY - 2008/3

Y1 - 2008/3

N2 - The genus Rosa has a complex evolutionary history caused by several factors, often in conjunction: extensive hybridization, recent radiation, incomplete lineage sorting, and multiple events of polyploidy. We examined the applicability of AFLP markers for reconstructing (species) relationships in Rosa, using UPGMA clustering, Wagner parsimony, and Bayesian inference. All trees were well resolved, but many of the deeper branches were weakly supported. The cluster analysis showed that the rose cultivars can be separated into a European and an Oriental cluster, each being related to different wild species. The phylogenetic analyses showed that (1) two of the four subgenera (Hulthemia and Platyrhodon) do not deserve subgeneric status; (2) section Carolinae should be merged with sect. Cinnamomeae; (3) subsection Rubigineae is a monophyletic group within sect. Caninae, making sect. Caninae paraphyletic; and (4) there is little support for the distinction of the five other subsections within sect. Caninae. Comparison of the trees with morphological classifications and with previous molecular studies showed that all methods yielded reliable trees. Bayesian inference proved to be a useful alternative to parsimony analysis of AFLP data. Because of their genome-wide sampling, AFLPs are the markers of choice to reconstruct (species) relationships in evolutionary complex groups.

AB - The genus Rosa has a complex evolutionary history caused by several factors, often in conjunction: extensive hybridization, recent radiation, incomplete lineage sorting, and multiple events of polyploidy. We examined the applicability of AFLP markers for reconstructing (species) relationships in Rosa, using UPGMA clustering, Wagner parsimony, and Bayesian inference. All trees were well resolved, but many of the deeper branches were weakly supported. The cluster analysis showed that the rose cultivars can be separated into a European and an Oriental cluster, each being related to different wild species. The phylogenetic analyses showed that (1) two of the four subgenera (Hulthemia and Platyrhodon) do not deserve subgeneric status; (2) section Carolinae should be merged with sect. Cinnamomeae; (3) subsection Rubigineae is a monophyletic group within sect. Caninae, making sect. Caninae paraphyletic; and (4) there is little support for the distinction of the five other subsections within sect. Caninae. Comparison of the trees with morphological classifications and with previous molecular studies showed that all methods yielded reliable trees. Bayesian inference proved to be a useful alternative to parsimony analysis of AFLP data. Because of their genome-wide sampling, AFLPs are the markers of choice to reconstruct (species) relationships in evolutionary complex groups.

KW - Amplified fragment length polymorphism (AFLP)

KW - Bayesian inference

KW - Parsimony

KW - Phylogeny

KW - Rosa

KW - Rosaceae

KW - Roses

KW - UPGMA

UR - http://www.scopus.com/inward/record.url?scp=41149149173&partnerID=8YFLogxK

U2 - 10.3732/ajb.95.3.353

DO - 10.3732/ajb.95.3.353

M3 - Article

AN - SCOPUS:41149149173

VL - 95

SP - 353

EP - 366

JO - American journal of botany

JF - American journal of botany

SN - 0002-9122

IS - 3

ER -