SubsidieMeestersUsing Kleptoplasty to illuminate the Evolution of Plastids and the Order of Steps during endosymbiosis
This project aims to investigate the process of plastid endosymbiosis in kleptoplastidic species using imaging, transcriptomics, and phylogenetics to enhance understanding of eukaryotic evolution.
Projectdetails
Introduction
Plastids, the photosynthetic organelles of eukaryotes, arose via endosymbiosis of cyanobacteria by a eukaryotic host and were subsequently spread across eukaryotic diversity by additional endosymbioses. These events greatly impacted the evolution of eukaryotes, introducing a novel lifestyle and shaping their diversity. Yet, we still know very little about the steps taking place during plastid endosymbiosis.
Traditional View
The traditional view considers this a straightforward uptake and retention of the symbiont that later becomes the plastid, followed by genetic integration.
New Perspectives
Recently, profoundly different models proposing several transient interactions with a variety of endosymbionts that transfer genes to the host before fixation of the final endosymbiont have gained traction.
Kleptoplastidic Species
Kleptoplastidic species, lineages that transiently retain and use plastids from their prey, are at the center of this paradigm shift, providing the first insights into the order of steps during plastid endosymbiosis. Kleptoplasty is rare, primarily found in a group of microbial eukaryotes, and the few kleptoplastidic taxa known have not been studied in the context of endosymbiosis.
Research Proposal
I propose here to resolve the process of plastid endosymbiosis using kleptoplasty as a unique model by addressing these questions:
- What is the hidden diversity of kleptoplastidic taxa?
- What is the level of genetic integration in these taxa?
- What is the composition of the plastid proteome in a kleptoplastidic lineage?
- How does the kleptoplast and control of the kleptoplast change during integration?
Methodology
To answer these questions, I will combine a novel imaging-based screen for kleptoplastidic lineages with high-throughput transcriptomics and phylogenetics and provide the first plastid proteome of a kleptoplastidic lineage.
Impact
This project will not only advance our shifting understanding of endosymbiosis, but the methods developed will provide a foundation for future studies on the evolution of microbial eukaryotes.
Financiële details & Tijdlijn
Financiële details
| Subsidiebedrag | € 1.998.698 |
| Totale projectbegroting | € 1.998.698 |
Tijdlijn
| Startdatum | 1-7-2025 |
| Einddatum | 30-6-2030 |
| Subsidiejaar | 2025 |
Partners & Locaties
Projectpartners
- BIOLOGICKE CENTRUM AKADEMIE VID CESKE REPUBLIKY VEREJNA VYZKUMNA INSTITUCEpenvoerder
Land(en)
Vergelijkbare projecten binnen European Research Council
| Project | Regeling | Bedrag | Jaar | Actie |
|---|---|---|---|---|
Testing the paradigm of a single plastid origin in eukaryotesThis project aims to uncover the origin of plastids through environmental sequencing and proteomic analysis of key algal lineages, enhancing our understanding of endosymbiosis and microbial evolution. | ERC Consolid... | € 1.997.978 | 2023 | Details |
Structural and Metabolic connection in oceanic plastid symbiosesSymbiOcean aims to dissect the metabolic interactions in plastid symbiosis of marine plankton using novel imaging and genetic tools to enhance understanding of carbon flux in ocean ecosystems. | ERC Consolid... | € 2.203.975 | 2023 | Details |
The interplay of symbiont nutrient release and host phagosome maturation in photosymbiosis regulationPhagoPhoRe aims to explore the mechanisms of cnidarian-algal symbiosis, focusing on nutrient exchange and immune responses, to understand the stability and collapse of photosymbioses under global warming. | ERC Starting... | € 1.489.028 | 2025 | Details |
Molecular and Genome Evolution of Prokaryotic PlasmidsThe pMolEvol project aims to develop a unified framework for understanding plasmid evolution by quantifying genetic diversity, fitness, and evolutionary patterns using empirical data and genomic reconstruction. | ERC Consolid... | € 2.112.500 | 2023 | Details |
Systematic mapping of the chloroplast protein import systemChloro-Import aims to map chloroplast protein import pathways in Chlamydomonas using advanced genome-wide approaches, enhancing understanding and potentially improving crop resilience to climate change. | ERC Starting... | € 1.700.000 | 2023 | Details |
Testing the paradigm of a single plastid origin in eukaryotes
This project aims to uncover the origin of plastids through environmental sequencing and proteomic analysis of key algal lineages, enhancing our understanding of endosymbiosis and microbial evolution.
Structural and Metabolic connection in oceanic plastid symbioses
SymbiOcean aims to dissect the metabolic interactions in plastid symbiosis of marine plankton using novel imaging and genetic tools to enhance understanding of carbon flux in ocean ecosystems.
The interplay of symbiont nutrient release and host phagosome maturation in photosymbiosis regulation
PhagoPhoRe aims to explore the mechanisms of cnidarian-algal symbiosis, focusing on nutrient exchange and immune responses, to understand the stability and collapse of photosymbioses under global warming.
Molecular and Genome Evolution of Prokaryotic Plasmids
The pMolEvol project aims to develop a unified framework for understanding plasmid evolution by quantifying genetic diversity, fitness, and evolutionary patterns using empirical data and genomic reconstruction.
Systematic mapping of the chloroplast protein import system
Chloro-Import aims to map chloroplast protein import pathways in Chlamydomonas using advanced genome-wide approaches, enhancing understanding and potentially improving crop resilience to climate change.