BACKGROUND AND AIMS: Vasconcellea x heilbornii is believed to be of natural hybrid origin between V. cundinamarcensis and V. stipulata, and is often difficult to discriminate from V. stipulata on morphological grounds. The aim of this paper is to examine individuals of these three taxa and of individuals from the closely related species V. parviflora and V. weberbaueri, which all inhabit a hybrid zone in southern Ecuador. METHODS: Molecular data from mitochondrial, chloroplast and nuclear DNA from 61 individuals were analysed. KEY RESULTS: Molecular analysis confirmed occasional contemporary hybridization between V. stipulata, V. cundinamarcensis and V. x heilbornii and suggested the possible involvement of V. weberbaueri in the origin of V. x heilbornii. In addition, the molecular data indicated unidirectional introgression of the V. cundinamarcensis nuclear genome into that of V. stipulata. Several of the individuals examined with morphology similar to that of V. stipulata had genetic traces of hybridization with V. cundinamarcensis, which only seems to act as pollen donor in interspecific hybridization events. Molecular analyses also strongly suggested that most of the V. x heilbornii individuals are not F(1) hybrids but instead are progeny of repeated backcrosses with V. stipulata. CONCLUSIONS: The results of the present study point to the need for re-evaluation of natural populations of V. stipulata and V. x heilbornii. In general, this analysis demonstrates the complex patterns of genetic and morphological diversity found in natural plant hybrid zones.
BACKGROUND AND AIMS: Vasconcellea x heilbornii is believed to be of natural hybrid origin between V. cundinamarcensis and V. stipulata, and is often difficult to discriminate from V. stipulata on morphological grounds. The aim of this paper is to examine individuals of these three taxa and of individuals from the closely related species V. parviflora and V. weberbaueri, which all inhabit a hybrid zone in southern Ecuador. METHODS: Molecular data from mitochondrial, chloroplast and nuclear DNA from 61 individuals were analysed. KEY RESULTS: Molecular analysis confirmed occasional contemporary hybridization between V. stipulata, V. cundinamarcensis and V. x heilbornii and suggested the possible involvement of V. weberbaueri in the origin of V. x heilbornii. In addition, the molecular data indicated unidirectional introgression of the V. cundinamarcensis nuclear genome into that of V. stipulata. Several of the individuals examined with morphology similar to that of V. stipulata had genetic traces of hybridization with V. cundinamarcensis, which only seems to act as pollen donor in interspecific hybridization events. Molecular analyses also strongly suggested that most of the V. x heilbornii individuals are not F(1) hybrids but instead are progeny of repeated backcrosses with V. stipulata. CONCLUSIONS: The results of the present study point to the need for re-evaluation of natural populations of V. stipulata and V. x heilbornii. In general, this analysis demonstrates the complex patterns of genetic and morphological diversity found in natural plant hybrid zones.
Authors: Tina Kyndt; Bart Van Droogenbroeck; Eliza Romeijn-Peeters; José Parcemon Romero-Motochi; Xavier Scheldeman; Paul Goetghebeur; Patrick Van Damme; Godelieve Gheysen Journal: Mol Phylogenet Evol Date: 2005-08-10 Impact factor: 4.286
Authors: Tina Kyndt; Eliza Romeijn-Peeters; Bart Van Droogenbroeck; José P Romero-Motochi; Godelieve Gheysen; Paul Goetghebeur Journal: Am J Bot Date: 2005-06 Impact factor: 3.844
Authors: B. Van Droogenbroeck; P. Breyne; P. Goetghebeur; E. Romeijn-Peeters; T. Kyndt; G. Gheysen Journal: Theor Appl Genet Date: 2002-06-21 Impact factor: 5.699
Authors: B Van Droogenbroeck; T Kyndt; I Maertens; E Romeijn-Peeters; X Scheldeman; J P Romero-Motochi; P Van Damme; P Goetghebeur; G Gheysen Journal: Theor Appl Genet Date: 2004-01-30 Impact factor: 5.699
Authors: Daniel Tineo; Danilo E Bustamante; Martha S Calderon; Jani E Mendoza; Eyner Huaman; Manuel Oliva Journal: PLoS One Date: 2020-12-10 Impact factor: 3.240