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Yevgeniy Serebrenik

@ysereb.bsky.social

150 followers 160 following 4 posts

Assistant professor @rwjms.bsky.social in Biochemistry and Molecular Biology. We study proteostasis using cutting-edge genomics. serebreniklab.org

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Yevgeniy Serebrenik @ysereb.bsky.social · Jun 24

Excited to share our lab’s first publication! A review on how pooled protein tagging with ligandable domains is unlocking proteome-scale biology. Spearheaded by the talented @kelarrimore.bsky.social.
www.frontiersin.org/articles/10....

Frontiers | Utilizing small molecules to probe and harness the proteome by pooled protein tagging with ligandable domains

Multifunctional ligand-binding domains have revolutionized cell biology by enabling the precise visualization and manipulation of fused proteins of interest ...

www.frontiersin.org

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Reposted by Yevgeniy Serebrenik

Dan Grabarczyk @dangrabarczyk.bsky.social · Aug 28

Glad to share the final version of our story about the UBR4 complex, an E4 ligase protein quality control hub @science.org. Now with more cryo-EM structures and a deeper dive into substrate recognition, especially escaped mitochondrial proteins @clausenlab.bsky.social www.science.org/doi/10.1126/...

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Reposted by Yevgeniy Serebrenik

Wallace Marshall @wallaceucsf.bsky.social · Aug 19

Cells can form patterns within themselves just like embryos do. How? Connie Yan's new preprint shows how the anterior-posterior cytoskeleton pattern in Stentor is dictated by regionalized scaffolding proteins

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

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Reposted by Yevgeniy Serebrenik

Aaron Milstein @neurosutras.bsky.social · Aug 20

Be my neighbor! @rwjms.bsky.social Neuroscience is hiring!
jobs.rutgers.edu/postings/258...

Assistant or Associate Professor (Tenured or Tenure-Track)

The Department of Neuroscience and Cell Biology at Rutgers Robert Wood Johnson Medical School (RWJMS), the Rutgers Child Health Institute (CHI), and the Rutgers Brain Health Institute (BHI) seek appli...

jobs.rutgers.edu

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Reposted by Yevgeniy Serebrenik

Fran Bottanelli @franbottanelli.bsky.social · Aug 13

Our protocol for gene editing is online and all plasmids are on @addgene.bsky.social! CRISPR away everybody and get in touch if you need anything 🤩

STAR Protocols @cp-starprotocols.bsky.social · Aug 7

Protocol for fast antibiotic resistance-based gene editing of mammalian cells with CRISPR-Cas9 #protocol #starprotocols #cellpress

Protocol for fast antibiotic resistance-based gene editing of mammalian cells with CRISPR-Cas9

Protein tagging with CRISPR-Cas9 enables the investigation of protein function in its native environment but is limited by low homology-directed repair (HDR) efficiency. Here, we present a protocol for fast antibiotic resistance-based gene editing with CRISPR-Cas9 (FAB-CRISPR), which streamlines N/C-terminal tagging using an antibiotic resistance cassette for rapid selection and enrichment of gene-edited cells. We describe in detail guide RNA and HDR donor plasmid cloning, transfection of editin...

dlvr.it

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Reposted by Yevgeniy Serebrenik

Hellerschmied Lab @hellerschmiedlab.bsky.social · Jul 15

Very happy to see our contribution to a better understanding of Hsp70/90 #chaperones online! Congrats and a big thank you to all co-authors, collaborators and reviewers! #proteostasis @poepsel-lab.bsky.social @crc1430.bsky.social @unidue-zmb.bsky.social

Nature Structural & Molecular Biology @natsmb.nature.com · Jul 14

New online: Conformational plasticity of a BiP–GRP94 chaperone complex

Conformational plasticity of a BiP–GRP94 chaperone complex

Nature Structural & Molecular Biology, Published online: 14 July 2025; doi:10.1038/s41594-025-01619-0BiP–glucose-regulated protein 94 chaperones are critical to the proper folding of secretory and transmembrane proteins. Brenner et al. provide biochemical and structural insight into a conserved mechanism of chaperone cooperation underlying this quality control process.

go.nature.com

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Yevgeniy Serebrenik @ysereb.bsky.social · Jun 24

Frontiers | Utilizing small molecules to probe and harness the proteome by pooled protein tagging with ligandable domains

Multifunctional ligand-binding domains have revolutionized cell biology by enabling the precise visualization and manipulation of fused proteins of interest ...

www.frontiersin.org

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Reposted by Yevgeniy Serebrenik

Natasha O'Brown @natashaobrown.bsky.social · Jun 18

So excited to share that I am one of the new @hhmi.org freeman hrabowsi scholars with so many other amazing new PIs. Check out the full list here www.hhmi.org/programs/fre...

The 2025 Freeman Hrabowski Scholars | HHMI

Freeman Hrabowski Scholars are outstanding early career faculty who have the potential to become leaders in their research fields.

www.hhmi.org

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Reposted by Yevgeniy Serebrenik

Journal of Cell Science @jcellsci.bsky.social · Jun 4

Our ‘Cell Scientist to Watch’ is Francesca Bottanelli @franbottanelli.bsky.social‬. We discover more about Fran’s career path, her approach to scientific mentorship and her dream to start a band!
journals.biologists.com/jcs/article/...

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Reposted by Yevgeniy Serebrenik

George Burslem @gburslem.bsky.social · May 1

Excited to see this out in @science.org today!! www.science.org/doi/10.1126/...

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Reposted by Yevgeniy Serebrenik

Ophir Shalem @ophirshalem.bsky.social · May 1

Excited to to see our collaboration with @gburslem.bsky.social published today! This is part of our ongoing long term goal of achieving scalable non-disruptive and direct imaging and perturbation of the endogenous proteome

George Burslem @gburslem.bsky.social · May 1

Excited to see this out in @science.org today!! www.science.org/doi/10.1126/...

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Yevgeniy Serebrenik @ysereb.bsky.social · Apr 23

Thrilled to see our work now in @cp-molcell.bsky.social! It was an incredible privilege to do my postdoc with @ophirshalem.bsky.social and work alongside the super talented Steph Sansbury and our amazing co-authors. Excited to keep building on this research in our new lab at @rwjms.bsky.social!

Ophir Shalem @ophirshalem.bsky.social · Apr 23

Check out our paper, now extensively revised and published in @cp-molcell.bsky.social! This has been a real tour de force led by Stephanie Sansbury and @ysereb.bsky.social and we are very excited about the findings and future potential of this approach
www.cell.com/molecular-ce...

Pooled tagging and hydrophobic targeting of endogenous proteins for unbiased mapping of unfolded protein responses

Sansbury and Serebrenik et al. use pooled gene tagging with in situ sequencing and high-throughput image analysis to generate a cell pool with endogenous HaloTag fusions. Hydrophobic targeting is then...

www.cell.com

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Reposted by Yevgeniy Serebrenik

Richard Sever @richardsever.bsky.social · Mar 11

Bsky vs Twitter engagement difference now 50-fold...

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Yevgeniy Serebrenik @ysereb.bsky.social · Mar 7

#StandUpForScience2025

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Reposted by Yevgeniy Serebrenik

George Burslem @gburslem.bsky.social · Mar 6

New paper online today! Check out @cewc9.bsky.socials review on how acetylation mediated protein degradation impacts cancer! Thanks for the invite to contribute to the 10th anniversary special issue of Trends in Cancer! www.sciencedirect.com/science/arti...

Acetylation: a new target for protein degradation in cancer

Acetylation is an increasing area of focus for cancer research as it is closely related to a variety of cellular processes through modulation of histo…

www.sciencedirect.com

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Reposted by Yevgeniy Serebrenik

George Burslem @gburslem.bsky.social · Feb 25

We have a postdoc position available for a very cool collaborative project! Synthetic chemistry expertise is a must!
Unfortunately due to the funding source, this position is only available to US citizens or permanent residents.

chemistryjobs.acs.org/job/postdoct...

chemistryjobs.acs.org

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Reposted by Yevgeniy Serebrenik

Yael David @davidlabmsk.bsky.social · Feb 21

I am extremely proud to see our work about Hepatitis B now published in @cellpress.bsky.social

From basic research to identifying the key step of infection & a potential first drug for curing this devastating disease. This has been an incredible journey.🧵

www.cell.com/cell/fulltex...

A nucleosome switch primes hepatitis B virus infection

A reconstituted cccDNA platform facilitated the discovery of an early chromatinization event that promotes transcription of the hepatitis B virus (HBV) regulatory X gene. The use of a small-molecule c...

www.cell.com

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Reposted by Yevgeniy Serebrenik

Fran Bottanelli @franbottanelli.bsky.social · Feb 19

Long in the making but our protocol for gene editing is online! FAB CRISPR is super easy and allows the generation of N and C terminal fusions with TurboID, SNAP, Halo and mStayGold. A single cloninf step to generate HDR templates! arxiv.org/abs/2502.12675 1/n

Fast Antibiotic resistance-Based gene editing of mammalian cells with CRISPR-Cas9 (FAB-CRISPR)

Protein tagging with CRISPR-Cas9 enables the investigation of protein function in its native environment but is limited by low homology-directed repair (HDR) efficiency causing low knock-in rates. We ...

arxiv.org

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Reposted by Yevgeniy Serebrenik

Mir Lab @mirlab.bsky.social · Feb 12

1/n Excited to share our new preprint! Using live imaging in Drosophila embryos, we show that RNA Pol II clusters switch from sites of initiation to elongation during zygotic genome activation and that they are stably associated with an active gene: www.biorxiv.org/content/10.1...

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Alt NIH Bluesky 🧪 @altnih4science.bsky.social · Feb 10

The Trump NIH is banning hires of new students and postdocs. This is devastating for NIH research and will result in a lost generation of researchers at the institution.

Heard from a applicant today: "A lot of people are banking their entire careers on the [NIH student programs]..."
#NIH 🧪
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Yevgeniy Serebrenik @ysereb.bsky.social · Dec 23

The Serebrenik Lab is hiring! Join us in unraveling proteostasis with pooled protein tagging and manipulation! Interested postdocs can learn more & meet other excellent labs at the Rutgers Postdoc Peek (Apr 3-4, 2025). Apply by 1/8/25: rutgers.ca1.qualtrics.com/jfe/form/SV_...

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Wallace Marshall @wallaceucsf.bsky.social · Nov 21

Single cells can learn without a brain, but how? Our new preprint from @deeparajan.bsky.social describes a model for habituation in Stentor coeruleus, based on receptor internalization and recycling, along with new experiments inspired by the model. 1/n
www.biorxiv.org/content/10.1...

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Reposted by Yevgeniy Serebrenik

Ophir Shalem @ophirshalem.bsky.social · Nov 10

Happy to share our new paper where we explore why dCas9-KRAB protein levels drop so drastically after neuronal differentiation in WTC11 and KOL2.1J iPSC lines.

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

CRISPR associated enzymes are mislocalized to the cytoplasm in iPSC-derived neurons resulting in KRAB-specific degradation

The use of CRISPR-associated enzymes in iPSC-derived neurons for precise gene targeting and high-throughput gene perturbation screens offers great potential but presents unique challenges compared to ...

www.biorxiv.org

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