Literature DB >> 11259655

Speciation through homoploid hybridization between allotetraploids in peonies (Paeonia).

D Ferguson1, T Sang.   

Abstract

Phylogenies of Adh1 and Adh2 genes suggest that a widespread Mediterranean peony, Paeonia officinalis, is a homoploid hybrid species between two allotetraploid species, Paeonia peregrina and a member of the Paeonia arietina species group. Three phylogenetically distinct types of Adh sequences have been identified from both accessions of P. officinalis, of which two types are most closely related to the two homoeologous Adh loci of the P. arietina group and the remaining type came from one of the two Adh homoeologs of P. peregrina. The other Adh homoeolog of P. peregrina was apparently lost from the hybrid genome, possibly through backcrossing with the P. arietina group. This is a documentation of homoploid hybrid speciation between allotetraploid species in nature. This study suggests that hybrid speciation between allotetraploids can occur without an intermediate stage of genome diploidization or a further doubling of genome size.

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Year:  2001        PMID: 11259655      PMCID: PMC31153          DOI: 10.1073/pnas.061288698

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  22 in total

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  18 in total

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Review 2.  The ecological genetics of homoploid hybrid speciation.

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5.  Allopolyploid speciation in Persicaria (Polygonaceae): insights from a low-copy nuclear region.

Authors:  Sang-Tae Kim; Sonia E Sultan; Michael J Donoghue
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7.  Molecular evidence for natural intergeneric hybridization between Liquidambar and Altingia.

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8.  Molecular phylogenetic analyses of nuclear and plastid DNA sequences support dysploid and polyploid chromosome number changes and reticulate evolution in the diversification of Melampodium (Millerieae, Asteraceae).

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9.  Changes to gene expression associated with hybrid speciation in plants: further insights from transcriptomic studies in Senecio.

Authors:  Matthew J Hegarty; Gary L Barker; Adrian C Brennan; Keith J Edwards; Richard J Abbott; Simon J Hiscock
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10.  Natural hybridization origin of Rhododendron agastum (Ericaceae) in Yunnan, China: inferred from morphological and molecular evidence.

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Journal:  J Plant Res       Date:  2007-03-29       Impact factor: 2.629
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