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Syoju Endo

@syojuendo

PhD student in @bunsyo.bsky.social Lab, Dept. of Genome Stress Signaling at Tokyo, Japan I'm interested in DNA replication stress and replication fork maintenance mechanism.

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Posts 22.11.2024
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Latest posts by Syoju Endo @syojuendo

Replication fork stalling at DNA lesions is driven by competition between damage bypass pathways Replication fork stalling or slowdown is a hallmark of replication stress and can lead to DNA damage-induced fork collapse and genetic instability. Stalled replication forks must be stabilized to enab...

Very interesting result classifying replication stress tolerance mechanism.

Replication fork stalling at DNA lesions is driven by competition between damage bypass pathways
www.researchsquare.com/article/rs-8...

21.01.2026 14:23 πŸ‘ 0 πŸ” 0 πŸ’¬ 0 πŸ“Œ 0
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πŸ“’ For all DNA fiber enthusiasts! πŸŸ₯🟩 We are thrilled to announce the release of our long-awaited AI-based workflow for the automated and quantitative analysis of DNA fibers. It's an exciting step forwardβ€”check it out on bioRxiv! lnkd.in/dQWUPtsP

30.03.2025 09:54 πŸ‘ 29 πŸ” 21 πŸ’¬ 6 πŸ“Œ 0
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The homologous recombination factors BRCA2 and PALB2 interplay with mismatch repair pathways to maintain centromere stability and cell viability Graham etΒ al. demonstrate that BRCA2 and PALB2 protect centromere integrity in non-cancerous cells through distinct mechanisms, partly counteracting the mismatch repair factor MLH1. In cancer cells, B...

We are delighted to share our latest work, characterising the role of BRCA2 and its binding partner PALB2 at centromeres, just out in the latest issue of Cell Reports. ⬇️

www.cell.com/cell-reports...

25.02.2025 17:56 πŸ‘ 39 πŸ” 16 πŸ’¬ 3 πŸ“Œ 0
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Disabling leading and lagging strand histone transmission results in parental histones loss and reduced cell plasticity and viability Losing parental histones during DNA replication fork passage challenges differentiation competence and cell viability.

𝐇𝐨𝐰 𝐝𝐨 𝐜𝐞π₯π₯𝐬 π«πžπ¦πžπ¦π›πžπ« 𝐰𝐑𝐨 𝐭𝐑𝐞𝐲 𝐚𝐫𝐞 𝐚𝐟𝐭𝐞𝐫 𝐃𝐍𝐀 𝐫𝐞𝐩π₯𝐒𝐜𝐚𝐭𝐒𝐨𝐧? Our new study β€œDisabling leading and lagging strand histone transmission results in parental histones loss and reduced cell plasticity and viability” is out in 𝘚𝘀π˜ͺ𝘦𝘯𝘀𝘦 𝘈π˜₯𝘷𝘒𝘯𝘀𝘦𝘴. Led by @lleonie.bsky.social @biranalva.bsky.social 🧡 More belowπŸ‘‡

19.02.2025 19:35 πŸ‘ 111 πŸ” 53 πŸ’¬ 5 πŸ“Œ 5

My co-author paper was published! I'm honored to contribute to Dr. Yano's persistent work!

29.01.2025 12:56 πŸ‘ 0 πŸ” 0 πŸ’¬ 0 πŸ“Œ 0
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Satellite DNA shapes dictate pericentromere packaging in female meiosis - Nature Divergent satellite DNA shapes influence architectural protein binding and chromatin organization in two mouse species so that the satellites can be packaged and centromere function maintained, mitiga...

HMGA1 is in the spotlight!
www.nature.com/articles/s41...

12.01.2025 06:06 πŸ‘ 1 πŸ” 0 πŸ’¬ 0 πŸ“Œ 0