Modifying meiotic recombination by targeting chromatin regulators to crossover hotspots in Arabidopsis Targeting chromatin modifiers to DNA hotspots reveals causal link between histone marks, transcription, and meiotic recombination.

📣Our paper is out! 🤩 We found that local modification of H3K9me3 using CRISPR/dCas9 at hotspots changes crossover activity, bringing us closer to targeted recombination in plants.🌱

Huge thanks to @szymanskalejman.bsky.social, Wojtek, Ania, and Karolina!

www.science.org/doi/10.1126/...

An early Christmas present from our team for all of the tomato 🍅 & recombination fans:

Chromosome-scale Solanum pennellii and Solanum cheesmaniae genome assemblies reveal structural variants, repeat content and recombination barriers of the tomato clade

biorxiv.org/content/10.648…

📣Plant Meiosis Meeting is back for its second edition‼️
Save the date: 9–11 September 2026, Poznań, Poland🌱

More details coming soon🤩

CRISPR-Cas–mediated heritable chromosome fusions in Arabidopsis The genome of Arabidopsis thaliana consists of 10 chromosomes. By inducing CRISPR-Cas–mediated breaks at subcentromeric and subtelomeric sequences, we fused entire chromosome arms, obtaining two eight...

CRISPR-Cas–mediated heritable chromosome fusions in Arabidopsis | Science www.science.org/doi/10.1126/... So cool!!!🤩

How do plants control the genes needed for successful sexual reproduction? Our new work uncovers the DREAM complex as a crucial regulator of meiotic recombination in Arabidopsis. Without DREAM, plants are sterile—key recombination genes like MER3 are switched off...

🌿🔍Paper alert‼️
A fantastic study from James Higgins’ group on SCEP3 – a newly identified component of the synaptonemal complex in plants!
Happy that our team could be part of this! 😄🧬

⏰ Last week to apply!
Don’t miss the chance to join our lab and explore the fascinating world of meiotic recombination 🌿
👉 Deadline: Nov 1, 2025

Meiotic cohesin RAD21L shapes 3D genome structure and transcription in the male germline Deletion of the meiotic subunit RAD21L alters 3D chromatin structure and transcription in the mammalian male germ line.

🚨 New from our lab in #ScienceAdvances!

RAD21L cohesin acts as both a 3D genome architect and a transcriptional gatekeeper in the male germline. Its loss disrupts both structure and function—highlighting the tight link between genome folding and gene regulation

www.science.org/doi/10.1126/...

Sure!!! Meiosis rules!
Fingers crossed for your paper 🤞

A great story from @chloegirard.bsky.social, confirming and extending our findings on how interhomolog polymorphism shapes crossover distribution in plants 🌱

List otwarty do Prezydenta RP, Marszałka Sejmu RP, Marszałka Senatu RP,  Prezesa Rady Ministrów oraz Wiceprezesów Rady Ministrów w sprawie finansowania nauki, w tym zwłaszcza Narodowego Centrum Nauki Szanowni Państwo, W niniejszej petycji prezentujemy List otwarty, który będzie wysłany do Kancelarii Prezydenta, Marszałków Sejmu i Senatu, Prezesa Rady Ministr&oacut...

Please consider signing a petition to increase the spending on science in Poland / List otwarty w sprawie finansowania nauki, w tym @ncn.gov.pl www.petycjeonline.com/list_otwarty...

🚀 We’re hiring a Postdoc!

Join our group in Poznan, Poland to study meiotic crossover recombination in plants 🌱 Highly motivated & enthusiastic candidates are welcome!
📅 Deadline: Nov 1, 2025

🔗 ibmib.web.amu.edu.pl/wp-content/uploads/2025/09/Postdoc_position-2025-Ziolkowskis-Lab.pdf

Holliday junction–ZMM protein feedback enables meiotic crossover assurance - Nature Holliday junctions maintain chromosome synapsis to enable crossover assurance in budding yeast.

Holliday junction–ZMM feedback ensures meiotic crossover assurance in yeast! Great work from the Joao Matos lab!
👉 www.nature.com/articles/s41...

Protecting double Holliday junctions ensures crossing over during meiosis - Nature Conditional ablation experiments show that key components of the synaptonemal complex protect double Holliday junction recombination intermediates to ensure their resolution into crossover products, which are required for accurate chromosome segregation during meiosis.

Fantastic work coming out of Neil Hunter’s lab! www.nature.com/articles/s41...

Thrilled to see our paper featured on the cover!!! 🎉🌽

Thank you so much, Ian! 🙏 I’m really happy I had the chance to work with you to discover this phenomenon ✨, and now to confirm it in a crop as well! 🌽🎉

Thank you so much!

Hybridization and introgression are major evolutionary processes. Since the 1940s, the prevailing view has been that they shape plants far more than animals. In our new study (www.science.org/doi/10.1126/...
), we find the opposite: animals exchange genes more, and for longer, than plants

Long-read detection of transposable element mobilization in the soma of hypomethylated Arabidopsis thaliana individuals - Genome Biology Background Because transposable elements (TEs) can cause heritable genetic changes, past work on TE mobility in Arabidopsis thaliana has mostly focused on new TE insertions in the germline of hypometh...

Paper led by @movillome.bsky.social on unbiased detection of (somatic) #TE insertions in #Arabidopsis with @pacbio.bsky.social long reads out after peer review. Thanks to academic editor Leandro Quadrana for shepherding it through the review process.
#plantscience
link.springer.com/article/10.1...?

A three year postdoctoral position is available in my group, investigating plant centromere structure, function and evolution @camplantsci.bsky.social
www.jobs.cam.ac.uk/job/51488/

Sexual selection drives the speciation of lineages with contrasting mating systems Repeated shifts in ecological strategies often lead to consistent speciation patterns across phylogenies. One example is the transition from outcrossi…

Very happy to have contributed to this collaborative work, with main drivers Marion Orsucci and Adrien Sicard:
Sexual selection drives the speciation of lineages with contrasting mating systems: www.sciencedirect.com/science/arti...

Plants repress ROS1 expression to attenuate heat-induced transposon burst - Nature Plants Plants suppress the DNA demethylase ROS1 under heat stress to limit transposon activation, preventing genome instability. This conserved mechanism balances stress adaptation with genome protection.

Here’s an interesting new paper on ROS1, an enzyme that removes DNA methylation and that is POSITIVELY controlled by DNA methylation.
It’s repression during heat stress 🥵🌱 is crucial to suppress transposon mobility! 🧬
www.nature.com/articles/s41...

Aneuploidy is the leading cause of pregnancy loss. In work led by @saracarioscia.bsky.social and @aabiddanda.bsky.social, we reanalyzed genetic testing data from 139,416 IVF embryos to discover variants associated with recombination phenotypes and aneuploidy risk. www.medrxiv.org/content/10.1...

Cryogenic electron microscopy has been used to determine the detailed structure of an intermediate state called a “D-loop” that forms when strands of DNA are exchanged during homologous recombination.
buff.ly/pZZfIso

Constraints on chromosome evolution revealed by the 229 chromosome pairs of the Atlas blue butterfly The genome of the Atlas blue butterfly contains ten times more chromosomes than most butterflies, and more than any other known diploid animal. Wright et al. show that this extraordinary karyotype is ...

How many chromosomes can an animal have?

In our paper out now in @currentbiology.bsky.social we show that the Atlas blue butterfly has 229 chromosome pairs- the highest in diploid Metazoa! These arose by rapid autosome fragmentation while sex chromosomes stayed intact.
www.cell.com/current-biol...

Do you want to know how to live-image internal floral organs with confocal microscope for up to 2 weeks?
Check out our protocol:
bio-protocol.org/en/bpdetail?...
#Arabidopsis #Flower

Interesting approach!

Thrilled to share our latest work on meiotic recombination, where we mapped rates and distributions by sequencing thousands of individual sperm. This study was led by Stevan Novakovic and @caitlinharris.bsky.social , in collaboration with @davisjmcc.bsky.social and Cynthia Liu.

Thanks Wayne!🙏

Thrilled to see such a thoughtful commentary on our paper by Maria Cuacos & Stefan Heckmann 🙌 Many thanks! 🔬🙏