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Manil Kanade

@manilk.bsky.social

Postdoc at @UCPH in the Thomas Miller group | DNA Repair & Replication | PhD with Silvia Onesti| X-ray Crystallography & Cryo-EM | MSCA Alumni|IISERPUNE

167 Followers  |  312 Following  |  2 Posts  |  Joined: 17.11.2024  |  1.4215

Latest posts by manilk.bsky.social on Bluesky

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Off to Nord Sjælland with the Miller lab @tcr-miller.bsky.social for our joint retreat! Exciting brainstorming, bonding, and a little hygge ahead.

First challenge: design your next @natureportfolio.nature.com article πŸš€

17.09.2025 17:52 β€” πŸ‘ 5    πŸ” 2    πŸ’¬ 0    πŸ“Œ 0

This one is a bit of a departure from the usual and definitely a work in progress!

We found that by using ab initio reconstruction at very high res, in very small steps, we could crack some small structures that had eluded us - e.g. 39kDa iPKAc (EMPIAR-10252), below.

Read on for details... 1/x

13.09.2025 00:04 β€” πŸ‘ 265    πŸ” 82    πŸ’¬ 20    πŸ“Œ 14
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DDIAS is a single-stranded DNA-binding effector of the TOPBP1-CIP2A complex in mitosis DNA double-strand breaks and unresolved DNA replication intermediates are particularly dangerous during mitosis. Paradoxically, cells inactivate canonical DNA repair mechanisms during chromosome segre...

Delighted to share our lab's first preprint identifying DDIAS as a mitotic DNA repair protein. Great collaboration with the @andrewblackford.bsky.social, @tcr-miller.bsky.social and @profstewartlab.bsky.social labs, and many more. Read the paper here: www.biorxiv.org/content/10.1...

10.09.2025 19:01 β€” πŸ‘ 27    πŸ” 6    πŸ’¬ 0    πŸ“Œ 0
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Mitotic single-stranded DNA suppression by DDIAS Incomplete DNA replication and chromosome breakage during mitosis pose major threats to chromosome segregation. The CIP2A-TOPBP1 complex acts to mitigate this peril, but its exact role is not yet unde...

New work from the lab! πŸ”¬

We report that DDIAS is a new component of the mitotic CIP2A-TOPBP1 pathway of genome maintenance. 1/n

www.biorxiv.org/content/10.1...

10.09.2025 16:50 β€” πŸ‘ 47    πŸ” 17    πŸ’¬ 2    πŸ“Œ 0
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DDIAS is a single-stranded DNA-binding effector of the TOPBP1-CIP2A complex in mitosis DNA double-strand breaks and unresolved DNA replication intermediates are particularly dangerous during mitosis. Paradoxically, cells inactivate canonical DNA repair mechanisms during chromosome segre...

Excited to share our lab’s latest preprint! We identify DDIAS as a novel single-stranded DNA-binding component of the TOPBP1–CIP2A complex, which acts in a mitotic DNA damage response pathway to protect chromosome integrity. Short summary below, and read it here: www.biorxiv.org/content/10.1...

10.09.2025 15:18 β€” πŸ‘ 37    πŸ” 11    πŸ’¬ 2    πŸ“Œ 1
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Check out this new review (with animations, natch) of mechanisms of licensing origins of DNA replication - a wonderful (and continuing!) collaboration with Bruce Stillman @cshlnews.bsky.social and John Diffley @crick.ac.uk! www.nature.com/articles/s41...

02.07.2025 17:01 β€” πŸ‘ 81    πŸ” 44    πŸ’¬ 6    πŸ“Œ 2
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Postdoctoral Research Associate in the Blackford Group A position as Postdoctoral Research Associate is available at the Department of Cellular and Molecular Medicine, in the group headed by Dr. Andrew Blackford. Th

We’re #hiring, please share! A fully funded #postdoc position is available in my lab to work on DNA damage response mechanisms.

Please get in touch with your CV if you are interested; closing date: 27th June 2025.

More details here: candidate.hr-manager.net/ApplicationI...

29.05.2025 11:26 β€” πŸ‘ 23    πŸ” 35    πŸ’¬ 0    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 β€” πŸ‘ 112    πŸ” 53    πŸ’¬ 5    πŸ“Œ 5
DNA replication in primary hepatocytes without the six-subunit ORC

Happy to close 2024 with my last first-author publication from PhD thesis: "DNA replication in primary hepatocytes without the six-subunit #ORC" in @elife.bsky.social. This study challenges existing paradigms in #DNAreplication. 🧡(1/4)
elifesciences.org/reviewed-pre...

01.01.2025 20:57 β€” πŸ‘ 17    πŸ” 7    πŸ’¬ 3    πŸ“Œ 0

Congrats Chiara πŸ˜ƒ

04.12.2024 20:42 β€” πŸ‘ 1    πŸ” 0    πŸ’¬ 1    πŸ“Œ 0
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Our article "MCM double hexamer loading visualized with human proteins" published in Nature today! β„οΈπŸ”¬πŸ§¬πŸŽ‰πŸ₯³

Great collaboration with John Diffley's lab. Congratulations to Florian Weissmann, Julia Greiwe and all other authors!

rdcu.be/d1F7m

27.11.2024 17:24 β€” πŸ‘ 169    πŸ” 44    πŸ’¬ 10    πŸ“Œ 5
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DNA REPAIR/GENOME STABILITY CONFERENCES

New updates to the upcoming DNA repair/Genome Stability conferences over 2024/2025. Please let me know if you have meetings to add:
docs.google.com/spreadsheets...

12.11.2024 04:57 β€” πŸ‘ 38    πŸ” 15    πŸ’¬ 2    πŸ“Œ 0
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Faster and more accurate protein modeling with CryFold. By focusing on nearby points (Local Attention) and employing map masking, CryFold excels in generating models from challenging maps regions. It enables a more cost-efficient model building. 🧡
πŸ’Ύ github.com/SBQ-1999/Cry...

25.11.2024 17:24 β€” πŸ‘ 111    πŸ” 38    πŸ’¬ 1    πŸ“Œ 3

Glad to be part of this amazing team! Looking forward to the next science adventure. πŸš€πŸ”¬ #Teamwork #Science

25.11.2024 11:18 β€” πŸ‘ 3    πŸ” 0    πŸ’¬ 0    πŸ“Œ 0

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