Projektbeschreibung
Entschlüsselung der Rolle von Stress bei der Entwicklung der Polyploidie
Trotz der Existenz vieler polyploider Arten sind Duplikationen des gesamten Genoms in ihrem Genom nicht erkennbar. Der Konsens ist, dass Duplikationen des gesamten Genoms zu polyploiden Arten beigetragen haben, aber zu bestimmten Zeiten während der Evolution unter stressigen Bedingungen oder Umweltveränderungen stattfanden. Das EU-finanzierte Projekt DOUBLE-TROUBLE möchte untersuchen, warum Veränderungen der Umwelt die Polyploidie beeinflussen, und geht von der Hypothese aus, dass polyploide Arten im Vergleich zu Nicht-Polyploiden einen Überlebens- oder Anpassungsvorteil haben. Forschende werden evolutionäre Experimente durchführen und in Kombination mit der Modellierung das Anpassungspotential von Polyploiden unter stressigen Bedingungen oder in Zeiten des Klimawandels entschlüsseln.
Ziel
Thousands of species are polyploid. However, the long-term establishment of organisms that have undergone ancient whole genome duplications (WGDs) has been exceedingly rare and when we analyse the genomes of plants and animals, we can, at most, find evidence for a very limited number of WGDs that survived on the longer term. The paucity of (established) ancient genome duplications and the existence of so many species that are currently polyploid provides a fascinating paradox. There is growing evidence that the majority of ancient WGDs were established at specific times in evolution, for instance during periods of environmental change and periods of mass-extinction. The reason for this ‘stress’-polyploidy relationship has been the subject of considerable speculation and several hypotheses have been put forward to explain this observation: (a) stressful conditions promote polyploid formation; (b) polyploidisation causes a niche shift allowing polyploids to grow in conditions that are unsuitable for their non-polyploid ancestors; and (c) polyploids have an increased evolvability and consequently adapt faster to a changing environment. Here, we want to unravel the mechanistic underpinnings of why and how polyploids can outcompete non-polyploids. We will address these questions by replaying the ‘genome duplication tape of life’ in two different model systems, namely Chlamydomonas and Spirodela. We will run long-term evolutionary (and resequencing) experiments. We will complement these experiments with in-silico experiments based on so-called digital organisms running on artificial genomes. Complementary modelling approaches will also be employed to study the effects of polyploidy from an eco-evolutionary dynamics perspective. By integrating the results obtained from these in vivo and in silico experiments, we will obtain important novel insights in the adaptive potential of polyploids under stressful conditions or during times of environmental and/or climate change.
Wissenschaftliches Gebiet
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Finanzierungsplan
ERC-ADG - Advanced GrantGastgebende Einrichtung
9052 ZWIJNAARDE - GENT
Belgien