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Origine ibridogena di Dactylorhiza majalis e D.traunsteineri
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Autore:  Luca Oddone [ 19 novembre 2012, 11:19 ]
Oggetto del messaggio:  Origine ibridogena di Dactylorhiza majalis e D.traunsteineri
Tratto da: Botany 2012 - Columbus, Ohio, U.S.A. - 7 -11 luglio 2012


Abstract Detail

Epigenetics and allotetraploids in Dactylorhiza (Orchidaceae).

Hybridization and polyploidy are potent forces that have regularly stimulated plant evolution and adaptation. Dactylorhiza majalis s.s., D. traunsteineri s.l. and D. ebudensis are three allopolyploid species of a polyploid complex formed through unidirectional hybridization between the widespread diploids D.fuchsii and D. incarnata. Differing considerably in geographical extent and ecological tolerance, the three allopolyploids together provide a useful system to explore genomic responses to allopolyploidization and reveal their role in adaptation to contrasting environments. Analyses of gene expression show a significant increase in number of gene variants expressed in the allopolyploid lineages (including novel alleles), providing clear evidence of increased biological complexity following allopolyploidization. The epigenetic variation released by genome doubling has been restructured in species-specific patterns that reflect their recent evolutionary history and have an impact on their ecology and evolution, hundreds of generations after their formation. The stable epigenetic divergence between the allopolyploids is largely responsible for persistent ecological differences, which then set the stage for species-specific genetic patterns to accumulate in response to further selection and/or drift. Using NGS technologies, we are currently comparing mRNA expression levels between the allopolyploids and their parents. During this investigation we have been constructing reference transcriptomes for the two diploid parents, which contribute important genomic resources for Orchidaceae in general. In addition to stabilizing the allopolyploid genome, genetic and epigenetic alterations are key determinants of adaptive success of the new polyploid species after recurrent allopolyploidization events, potentially triggering reproductive isolation between the resulting lineages.

Allegato:
Hybrid origin of Dactylohirza majalis s.s., D. traunsteineri e D. ebudensis.PNG
Hybrid origin of Dactylohirza majalis s.s., D. traunsteineri e D. ebudensis.PNG [ 37.33 KiB | Osservato 6674 volte ]


1 - Royal Botanic Gardens - Kew, Jodrell Laboratory, Kew Road, Richmond, N/A, TW9 3DS, United Kingdom
2 - University Of Vienna, Department For Systematic And Evolutionary Botany, Rennweg 14, Vienna, Austria, A-1030, United Kingdom

Keywords: epigenetics, Polyploidy, hybridization, local adaptation, Orchidaceae.

Presentation Type: Symposium or Colloquium Presentation
Session: C6
Location: Franklin B/Hyatt
Date: Wednesday, July 11th, 2012
Time: 4:15 PM
Number: C6011
Abstract ID:432
Autore:  Luca Oddone [ 19 novembre 2012, 11:20 ]
Oggetto del messaggio:  Re: Origine ibridogena di Dactylorhiza majalis e D.traunsteineri
Articolo disponibile in PDF:

Ovidiu Paun, Richard M Bateman, Michael F Fay, Javier A Luna, Justin Moat, Mikael Hedrén and Mark W Chase, 2011 - Altered gene expression and ecological divergence in sibling allopolyploids of Dactylorhiza (Orchidaceae). BMC Evolutionary Biology, 11:113



Abstract

Background: Hybridization and polyploidy are potent forces that have regularly stimulated plant evolution and adaptation. Dactylorhiza majalis s.s., D. traunsteineri s.l. and D. ebudensis are three allopolyploid species of a polyploid complex formed through unidirectional (and, in the first two cases, recurrent) hybridization between the widespread diploids D. fuchsii and D. incarnata. Differing considerably in geographical extent and ecological tolerance, the three allopolyploids together provide a useful system to explore genomic responses to allopolyploidization and reveal their role in adaptation to contrasting environments.

Results: Analyses of cDNA-AFLPs show a significant increase in the range of gene expression of these allopolyploid lineages, demonstrating higher potential for phenotypic plasticity than is shown by either parent. Moreover, allopolyploid individuals express significantly more gene variants (including novel alleles) than their parents, providing clear evidence of increased biological complexity following allopolyploidization. More genetic mutations seem to have accumulated in the older D. majalis compared with the younger D. traunsteineri since their respective formation.

Conclusions: Multiple origins of the polyploids contribute to differential patterns of gene expression with a distinct geographic structure. However, several transcripts conserved within each allopolyploid taxon differ between taxa, indicating that habitat preferences shape similar expression patterns in these independently formed tetraploids. Statistical signals separate several transcripts - some of them novel in allopolyploids - that appear correlated with adaptive traits and seem to play a role favouring the persistence of individuals in their native environments. In addition to stabilizing the allopolyploid genome, genetic and epigenetic alterations are key determinants of adaptive success of the new polyploid species after recurrent allopolyploidization events, potentially triggering reproductive isolation between the resulting lineages.



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MARK CHASE. Chromosome number and polyploidy in angiosperms
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