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wyppeter.bsky.social
Peter Wang
@wyppeter.bsky.social
200 followers 180 following 9 posts
PhD candidate, Bartel Lab @bartellab.bsky.social, MIT/Whitehead Institute. Biochemical + biophysical principles of protein/RNA mechanisms. MicroRNA/siRNAs & AGO proteins.
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Reposted by Peter Wang
julsportell.bsky.social
Júlia Portell Montserrat @julsportell.bsky.social · Sep 17
My first first-author paper is out!🎉
Here we propose a model where a silencing complex, PIWI*, assembles on target RNAs to recruit effectors and shut down transposon activity.
Huge thanks to the Brennecke and Plaschka labs, especially Julius and Clemens, and all co-authors!
juliusbrennecke.bsky.social Julius Brennecke @juliusbrennecke.bsky.social · Sep 17
PIWI clade Argonautes are essential for transposon silencing. Without them, animals are sterile due to massive transposon activity.

But how does piRNA-guided target interaction translate into silencing?

PhD student Júlia Portell Montserrat has an intriguing answer

www.cell.com/molecular-ce...
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wyppeter.bsky.social
Peter Wang @wyppeter.bsky.social · Sep 17
Congrats!!
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Reposted by Peter Wang
bartellab.bsky.social
David Bartel's Lab @bartellab.bsky.social · Sep 11
Check out the latest work from Jordan Ray (@jordanray.bsky.social), a collaboration between our lab and David Sabatini’s lab. www.biorxiv.org/content/10.1... (1/2)
Lysosomal RNA profiling reveals targeting of specific types of RNAs for degradation
Autophagy targets a wide variety of substrates for degradation within lysosomes. While lysosomes are known to possess RNase activity, the role of lysosomal RNA degradation in post-transcriptional gene...
www.biorxiv.org
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wyppeter.bsky.social
Peter Wang @wyppeter.bsky.social · Sep 11
Congrats Jimmy!
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Reposted by Peter Wang
lcochella.bsky.social
Luisa Cochella @lcochella.bsky.social · Sep 3
Our work on the function of miR-51/miR-100 is out! miR-100 is widely conserved across eumetazoans but its function has been mysterious. Emilio Santillán found in worms it regulates signaling and extracellular matrix genes, some of which seem to be conserved targets! www.science.org/doi/10.1126/...
An ancient and essential miRNA family controls cellular interaction pathways in C. elegans
A microRNA that arose at the origin of eumetazoans regulates cell adhesion and signaling in C. elegans through conserved targets.
www.science.org
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Reposted by Peter Wang
svobodalab.bsky.social
Petr Svoboda @svobodalab.bsky.social · Aug 21
Argonautes are coming :-) ... soon at @imgprague.bsky.social ... finishing preparations. Still missing a few things like drums, guitar, badges, beer ... but it's under control. I think. I hope. :-))
#argonautes2025
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Reposted by Peter Wang
richardsever.bsky.social
Richard Sever @richardsever.bsky.social · Aug 15
"why [would] anyone intelligent enough to be a scientist choose to be one [given] the unfavorable risk-to-reward ratio "?

One of the most intelligent people you could meet offers some answers: having ideas, watching them develop, and sharing them journals.biologists.com/jcs/article/...
Why would anyone want to be a scientist?
It is difficult to fathom why anyone intelligent enough to be a scientist would actually choose to be one. Doing good science requires the utmost exertion of body, mind and spirit, yet is consistently...
journals.biologists.com
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Reposted by Peter Wang
bartellab.bsky.social
David Bartel's Lab @bartellab.bsky.social · Aug 2
Check out the latest study from our lab, led by Coffee Xiang (@coffeebond007.bsky.social) www.nature.com/articles/s41... (1/2)
PAL-AI reveals genetic determinants that control poly(A)-tail length during oocyte maturation, with relevance to human fertility - Nature Communications
Gene regulation in oocytes relies heavily on poly(A) tail-length changes. Here, the authors develop PAL-AI, a neural network model that predicts tail-length changes, identifies regulatory motifs, and ...
www.nature.com
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Reposted by Peter Wang
jimmy-ly.bsky.social
jimmy-ly.bsky.social @jimmy-ly.bsky.social · Jul 23
Beautiful work by Katya Khalizeva from @iaincheeseman.bsky.social lab, uncovering a surprising feedback loop to globally suppress mRNA decay during mitosis! This helps explain how cells maintain their transcriptome during a mitotic arrest without new transcription!
www.biorxiv.org/content/10.1...
Global inhibition of deadenylation stabilizes the transcriptome in mitotic cells
In the presence of cell division errors, mammalian cells can pause in mitosis for tens of hours with little to no transcription, while still requiring continued translation for viability. These unique...
www.biorxiv.org
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Reposted by Peter Wang
iaincheeseman.bsky.social
Iain Cheeseman @iaincheeseman.bsky.social · Jul 23
New preprint! We solve a mystery you didn't know existed. Mitotic cells lack new transcription but require ongoing translation. Interphase mRNA half life is only 2-4 hrs. So how do cells arrest in mitosis for hours without depleting their transcriptomes?

www.biorxiv.org/content/10.1...
Global inhibition of deadenylation stabilizes the transcriptome in mitotic cells
In the presence of cell division errors, mammalian cells can pause in mitosis for tens of hours with little to no transcription, while still requiring continued translation for viability. These unique...
www.biorxiv.org
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Reposted by Peter Wang
rachael-kretsch.bsky.social
Rachael Kretsch @rachael-kretsch.bsky.social · May 20
Nucleic acid structural biologists expose that many CASP16 predictions, even ones obtaining high scores by CASP metrics, are inaccurate in the most functionally relevant regions! Read more insights on functionally relevant features by the expert structure determiners (doi.org/10.1101/2025...).
Functional relevance of CASP16 nucleic acid predictions as evaluated by structure providers
Accurate biomolecular structure prediction enables the prediction of mutational effects, the speculation of function based on predicted structural homology, the analysis of ligand binding modes, exper...
doi.org
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Reposted by Peter Wang
lindorfflarsen.bsky.social
Kresten Lindorff-Larsen @lindorfflarsen.bsky.social · Apr 17
AlphaFold is amazing but gives you static structures 🧊

In a fantastic teamwork, @mcagiada.bsky.social and @emilthomasen.bsky.social developed AF2χ to generate conformational ensembles representing side-chain dynamics using AF2 💃

Code: github.com/KULL-Centre/...
Colab: github.com/matteo-cagia...
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Reposted by Peter Wang
bartellab.bsky.social
David Bartel's Lab @bartellab.bsky.social · Apr 5
Don’t miss this Q&A with Dr. Michelle Frank (@michelle-frank.bsky.social), an awesome postdoc in our lab!
whiteheadinstitute.bsky.social Whitehead Institute @whiteheadinstitute.bsky.social · Apr 3
Our latest Postdoc Q&A features Michelle Frank from the Bartel lab. Michelle is interested in how the brain balances the ability to learn new things with the need for maintaining stable connections. wi.mit.edu/news/meet-wh... #WhiteheadPostdocProfiles @bartellab.bsky.social
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Reposted by Peter Wang
vidigaljoana.bsky.social
Joana Vidigal @vidigaljoana.bsky.social · Apr 4
What was that you said? You are looking for new #RNA research to read in the weekend?

You are in luck!

📣 📣 Check out the new preprint from our lab!!!! 📣 📣

www.biorxiv.org/content/10.1...
AGO2 slicing of a domesticated retrotransposon is necessary for normal vasculature development
Argonaute (AGO) mediated slicing of RNA, also known as RNAi, is a highly conserved phenomenon that is evolutionarily linked to the repression of transposons and other repeats. Although RNAi is no long...
www.biorxiv.org
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Reposted by Peter Wang
erinedoherty.bsky.social
Erin Doherty @erinedoherty.bsky.social · Mar 31
Preprint alert! ✨ In this project that I co-led with @benadler.bsky.social, we show that a miniature CRISPR-Cas10-like enzyme, mCpol, uses a novel inverse signaling mechanism to prevent the spread of viruses that attempt immune evasion by depleting host cyclic nucleotides.

Check it out:
A miniature CRISPR-Cas10 enzyme confers immunity by an inverse signaling pathway
Microbial and viral co-evolution has created immunity mechanisms involving oligonucleotide signaling that share mechanistic features with human anti-viral systems. In these pathways, including CBASS a...
www.biorxiv.org
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wyppeter.bsky.social
Peter Wang @wyppeter.bsky.social · Mar 28
Congrats Jimmy and team! Excited to see this work out
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wyppeter.bsky.social
Peter Wang @wyppeter.bsky.social · Mar 26
Congrats Leo and all!
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Reposted by Peter Wang
bartellab.bsky.social
David Bartel's Lab @bartellab.bsky.social · Mar 15
Check out the latest study from our lab, led by @mhall98.bsky.social :
www.biorxiv.org/content/10.1... (1/2)
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wyppeter.bsky.social
Peter Wang @wyppeter.bsky.social · Mar 13
Check out the latest work led by @mhall98.bsky.social in the Bartel lab! Matt solved a long-standing mystery about miRNA targeting, and drove the story to impressive mechanistic detail. More information below:
Graphical abstract
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Reposted by Peter Wang
svobodalab.bsky.social
Petr Svoboda @svobodalab.bsky.social · Mar 12
ARGONAUTES 2025
The grassroot meeting of Argonaute afficionados is looking for afficionados! Full coverage of Argonautes from prokaryotes to #RNAi, #piRNA and #microRNA Join us in Prague at @imgprague.bsky.social during 27-30/8, 2025. Registration, program and more info here:
argonautes.img.cas.cz
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Reposted by Peter Wang
hhmi.org
HHMI @hhmi.org · Jan 8
Today we're thrilled to announce our 2024 #HannaGrayFellows! Please join us in welcoming and celebrating these outstanding early career scientists!
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Reposted by Peter Wang
rcsbpdb.bsky.social
RCSB Protein Data Bank @rcsbpdb.bsky.social · Jan 6
After a remarkable 300 columns, David Goodsell has retired from the Molecule of the Month. We are very grateful for his service.
@jiwasa.bsky.social will continue the series, beginning with January's article on Assembly Line Polyketide Synthases
Details: cdn.rcsb.org/rcsb-pd...
EDUCATION CORNER: Molecule of the Month: Celebrating  25 Years of Storytelling and Announcing New Beginnings
After a remarkable 300 columns, David Goodsell has retired from the Molecule of the Month series.  Janet Iwasa will be continuing the series for PDB-101.
cdn.rcsb.org
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wyppeter.bsky.social
Peter Wang @wyppeter.bsky.social · Jan 1
In this updated paper, we further described conformational changes required for catalysis, and a network of interactions near the active site that support slicing. Read more here: tinyurl.com/AGO2-slicing
The structural basis for RNA slicing by human Argonaute2
Mohamed et al. report the cryoelectron microscopy structure of human AGO2 with fully paired guide RNA. Their analysis reveals the structural basis for the slicing activity that drives RNAi, showing that the slicing-competent conformation is achieved by domain movements and RNA-protein contacts distinct from those of conformational intermediates and prokaryotic homologs.
tinyurl.com
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wyppeter.bsky.social
Peter Wang @wyppeter.bsky.social · Jan 1
More than five years ago, we charted our plans to unravel the biochemistry and biophysics of the AGO2 enzyme, and the eventual goal of solving its catalytic structure. It has been a great journey ever since, and we are excited to finally share these results.
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wyppeter.bsky.social
Peter Wang @wyppeter.bsky.social · Jan 1
Happy 2025! Excited to finally share our published slicing structure of human AGO2, the catalytic structure for RNAi by siRNAs and miRNAs. This was an amazing collab effort between @voslab.org and @bartellab.bsky.social with @amohamed98.bsky.social
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