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Research interests

I am a molecular cell biologist with extensive training in evolutionary bioinformatics and a keen interest in multi-disciplinary team-driven science. My main research interests are the mechanisms and evolutionary origins of chromosome recombination and segregation during mitosis and meiosis in (microbial) eukaryotes. 

My research is particularly focused on two rapidly evolving structures: kinetochores and synaptonemal complexes. Kinetochores are small cellular structures that connect the chromosomal DNA to thread-like microtubules emanating from the spindle apparatus during cell division. Synaptonemal complexes resemble a large zipper-like structure that forms between homologous chromosomes during meiosis to mediate synapsis, recombination, crossover and finally promotes accurate segregation.
Using a combination of comparative genomics, high-resolution imaging and proteomics, I aim to elucidate the inner workings and evolutionary history of these crucial parts of the (a)sexual cell division machinery in a wide variety of eukaryotic creatures. With the tools and models that I will develop I hope to contribute towards the establishment of cell biology as a comparative and evolutionary discipline, driving not only the functional understanding of eukaryotes in a broader phylogenetic context, but also to uncover the principles of cellular evolution itself.

Publications

A farnesyl-dependent structural role for CENP-E in expansion of the fibrous corona

Author Correction: Life-cycle-coupled evolution of mitosis in close relatives of animals

Chromatin binding by HORMAD proteins regulates meiotic recombination initiation

Kinetoplastid kinetochore proteins KKT14-KKT15 are divergent Bub1/BubR1-Bub3 proteins

Life-cycle-coupled evolution of mitosis in close relatives of animals

On the possibility of yet a third kinetochore system in the protist phylum Euglenozoa

Plasmodium NEK1 coordinates MTOC organisation and kinetochore attachment during rapid mitosis in male gamete formation

Reconstructing the last common ancestor of all eukaryotes

A molecular cell biology toolkit for the study of meiosis in the silkworm Bombyx mori

FIRRM/C1orf112 is synthetic lethal with PICH and mediates RAD51 dynamics

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Press/media

A Billion-Year Evolutionary Tale – Biologists Trace Cell Division Back to Its Roots

Exploring diversity in cell division: Study investigates the process of evolution that supports diverse life cycles

Study investigates the process of evolution that supports diverse life cycles

Explorando la diversidad en la división celular

Exploring Diversity In Cell Division

How Cell Division Modes Reflect Life Cycle Diversity

Mysterieuze eencellige mist belangrijke genen om DNA te kopiëren, te verdelen

Mysterious organism lacks genes that are vital to copying and distributing its DNA

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