Jonathan Pruneda
@jnpruneda.bsky.social
Associate Professor at Oregon Health & Science University studying microbial interference in host ubiquitin signaling. Current ASM Northwest Branch President. Formerly @UWBiochemistry and @MRC_LMB.
Reposted by Jonathan Pruneda
Our latest preprint is out!
We developed an inducible “RapTag” system that uses ENTAC to chemically recruit USP15 to the unstable protein CTLA4. This induced proximity stabilises and slows down the rapid lysosomal turnover of CTLA4.
@livuni-ismib.bsky.social
www.biorxiv.org/content/10.1...
We developed an inducible “RapTag” system that uses ENTAC to chemically recruit USP15 to the unstable protein CTLA4. This induced proximity stabilises and slows down the rapid lysosomal turnover of CTLA4.
@livuni-ismib.bsky.social
www.biorxiv.org/content/10.1...
Targeted recruitment of USP15 enhances CTLA4 surface levels and restricts its degradation.
Induced protein proximity offers powerful new routes to modulate protein fate. While proteolysis-targeting chimeras (PROTACs) promote degradation through E3 ligase recruitment, the converse principle-...
www.biorxiv.org
November 10, 2025 at 4:34 PM
Our latest preprint is out!
We developed an inducible “RapTag” system that uses ENTAC to chemically recruit USP15 to the unstable protein CTLA4. This induced proximity stabilises and slows down the rapid lysosomal turnover of CTLA4.
@livuni-ismib.bsky.social
www.biorxiv.org/content/10.1...
We developed an inducible “RapTag” system that uses ENTAC to chemically recruit USP15 to the unstable protein CTLA4. This induced proximity stabilises and slows down the rapid lysosomal turnover of CTLA4.
@livuni-ismib.bsky.social
www.biorxiv.org/content/10.1...
Reposted by Jonathan Pruneda
Excited to share our latest work, where we create Salmonella mutants deficient for cohorts of SPI-2 T3SS effectors. These strains can be used to efficiently identify particular effectors that contribute to SPI-2 phenotypes doi.org/10.1038/s414...
Salmonella multimutants enable efficient identification of SPI-2 effector protein function in gut inflammation and systemic colonization - Nature Communications
Intracellular Salmonella enterica uses a type III secretion system to secrete more than 30 effector proteins into host cells. Here, Newson et al. generate six mutant strains deficient in different set...
doi.org
November 10, 2025 at 8:02 AM
Excited to share our latest work, where we create Salmonella mutants deficient for cohorts of SPI-2 T3SS effectors. These strains can be used to efficiently identify particular effectors that contribute to SPI-2 phenotypes doi.org/10.1038/s414...
Reposted by Jonathan Pruneda
Can we improve peer review? We think we can! Check out an experiment I helped with as part of @solvingforsci.bsky.social 's mission to make science better.
And if you don't want to read the whole bioRxiv manuscript, here's an overview of the main findings:
solvingfor.org/news-posts-d...
And if you don't want to read the whole bioRxiv manuscript, here's an overview of the main findings:
solvingfor.org/news-posts-d...
November 5, 2025 at 11:25 PM
Can we improve peer review? We think we can! Check out an experiment I helped with as part of @solvingforsci.bsky.social 's mission to make science better.
And if you don't want to read the whole bioRxiv manuscript, here's an overview of the main findings:
solvingfor.org/news-posts-d...
And if you don't want to read the whole bioRxiv manuscript, here's an overview of the main findings:
solvingfor.org/news-posts-d...
Reposted by Jonathan Pruneda
SUMO interactions: the 1st of two reviews which Aanchal (@origichals.bsky.social), El Hadji, and I have recently written on non-covalent interactions of SUMO is now out. The 1st covers interactions with E1, E2, and deSUMOylating enzymes; the 2nd - on interactions with SIMs etc. - will appear soon.
Non-covalent SUMO interactions with (de)conjugation enzymes
SUMOylation – a protein post-translational modification (PTM) related to ubiquitylation – involves the reversible covalent attachment of the small ubiquitin-like modifier (SUMO) to proteins. During th...
portlandpress.com
November 5, 2025 at 1:44 PM
SUMO interactions: the 1st of two reviews which Aanchal (@origichals.bsky.social), El Hadji, and I have recently written on non-covalent interactions of SUMO is now out. The 1st covers interactions with E1, E2, and deSUMOylating enzymes; the 2nd - on interactions with SIMs etc. - will appear soon.
Reposted by Jonathan Pruneda
Have a look at this Tools of the Trade Article I wrote for @natrevmcb.nature.com on decoding #ubiquitin signals inside cells using UbiREAD!
Many thanks to @lisaheinke.bsky.social for the opportunity to write this TotT!
Many thanks to @lisaheinke.bsky.social for the opportunity to write this TotT!
ICYMI: New Online! Decoding ubiquitin signals inside cells
Decoding ubiquitin signals inside cells
Nature Reviews Molecular Cell Biology, Published online: 31 October 2025; doi:10.1038/s41580-025-00919-zIn this Tools of the Trade article, Kiss (Schulman lab) discusses the development of UbiREAD, a method that delivers in vitro-ubiquitinated protein reporters into cells to systematically assess how different ubiquitin chain configurations affect protein stability and degradation.
bit.ly
November 4, 2025 at 10:04 AM
Have a look at this Tools of the Trade Article I wrote for @natrevmcb.nature.com on decoding #ubiquitin signals inside cells using UbiREAD!
Many thanks to @lisaheinke.bsky.social for the opportunity to write this TotT!
Many thanks to @lisaheinke.bsky.social for the opportunity to write this TotT!
Reposted by Jonathan Pruneda
🚨Thrilled to share our latest work, published online today
@nature.com in which we decipher mechanisms underlying the enigmatic VEXAS syndrome - a huge team effort
@mskcancercenter.bsky.social led by superstars Varun Narendra + @tandriladas.bsky.social 1/
www.nature.com/articles/s41...
@nature.com in which we decipher mechanisms underlying the enigmatic VEXAS syndrome - a huge team effort
@mskcancercenter.bsky.social led by superstars Varun Narendra + @tandriladas.bsky.social 1/
www.nature.com/articles/s41...
Independent mechanisms of inflammation and myeloid bias in VEXAS syndrome - Nature
Nature - Independent mechanisms of inflammation and myeloid bias in VEXAS syndrome
www.nature.com
November 4, 2025 at 12:52 AM
🚨Thrilled to share our latest work, published online today
@nature.com in which we decipher mechanisms underlying the enigmatic VEXAS syndrome - a huge team effort
@mskcancercenter.bsky.social led by superstars Varun Narendra + @tandriladas.bsky.social 1/
www.nature.com/articles/s41...
@nature.com in which we decipher mechanisms underlying the enigmatic VEXAS syndrome - a huge team effort
@mskcancercenter.bsky.social led by superstars Varun Narendra + @tandriladas.bsky.social 1/
www.nature.com/articles/s41...
Reposted by Jonathan Pruneda
It's been an amazing year for the new PTM field of #MARUbylation - happy that I could get involved first-hand!
Excited to share the peer-reviewed version of our work, now online in @embojournal.org! Big thanks to our reviewers and @hvodermaier.bsky.social for facilitating this process. Looking forward to continuing this fun collaboration with @michaelnadbio.bsky.social!
www.embopress.org/doi/full/10....
www.embopress.org/doi/full/10....
November 3, 2025 at 1:42 PM
It's been an amazing year for the new PTM field of #MARUbylation - happy that I could get involved first-hand!
Reposted by Jonathan Pruneda
This October I’m drawing 1 molecule a day inspired by proteins in pdb @rcsbpdb.bsky.social
Day 20/31
Prompt RIVALS
Pdb: 8V27 & 8G6S
Two rival histone modifications on a nucleosome. Ubiquitination of H2BK120 activates genes while H2AK119 represses them.
Next: BLAST
Suggestions?
Day 20/31
Prompt RIVALS
Pdb: 8V27 & 8G6S
Two rival histone modifications on a nucleosome. Ubiquitination of H2BK120 activates genes while H2AK119 represses them.
Next: BLAST
Suggestions?
November 2, 2025 at 3:11 AM
This October I’m drawing 1 molecule a day inspired by proteins in pdb @rcsbpdb.bsky.social
Day 20/31
Prompt RIVALS
Pdb: 8V27 & 8G6S
Two rival histone modifications on a nucleosome. Ubiquitination of H2BK120 activates genes while H2AK119 represses them.
Next: BLAST
Suggestions?
Day 20/31
Prompt RIVALS
Pdb: 8V27 & 8G6S
Two rival histone modifications on a nucleosome. Ubiquitination of H2BK120 activates genes while H2AK119 represses them.
Next: BLAST
Suggestions?
Reposted by Jonathan Pruneda
The Wilkinson Lab is open for science! @mskcancercenter.bsky.social
🧬We'll be finding funky new RNA biology, mainly by looking at reverse transcriptases (i.e. the Best Enzymes In The World)🧬
annnd: I'm hiring - come join! Especially postdocs and PhD students - please get in touch (NYC is great)
🧬We'll be finding funky new RNA biology, mainly by looking at reverse transcriptases (i.e. the Best Enzymes In The World)🧬
annnd: I'm hiring - come join! Especially postdocs and PhD students - please get in touch (NYC is great)
Wilkinson Lab
We discover and study reverse transcriptases
wilkinsonlab.bio
October 31, 2025 at 7:00 PM
The Wilkinson Lab is open for science! @mskcancercenter.bsky.social
🧬We'll be finding funky new RNA biology, mainly by looking at reverse transcriptases (i.e. the Best Enzymes In The World)🧬
annnd: I'm hiring - come join! Especially postdocs and PhD students - please get in touch (NYC is great)
🧬We'll be finding funky new RNA biology, mainly by looking at reverse transcriptases (i.e. the Best Enzymes In The World)🧬
annnd: I'm hiring - come join! Especially postdocs and PhD students - please get in touch (NYC is great)
Reposted by Jonathan Pruneda
Our latest review is now online! 👇
@martenslab.bsky.social
Mechanism of autophagy initiation by transmembrane selective autophagy receptors | The EMBO Journal www.embopress.org/doi/full/10....
@martenslab.bsky.social
Mechanism of autophagy initiation by transmembrane selective autophagy receptors | The EMBO Journal www.embopress.org/doi/full/10....
Mechanism of autophagy initiation by transmembrane selective autophagy receptors | The EMBO Journal
EMBO Press is an editorially independent publishing platform for the development of EMBO scientific publications.
www.embopress.org
October 31, 2025 at 6:24 AM
Our latest review is now online! 👇
@martenslab.bsky.social
Mechanism of autophagy initiation by transmembrane selective autophagy receptors | The EMBO Journal www.embopress.org/doi/full/10....
@martenslab.bsky.social
Mechanism of autophagy initiation by transmembrane selective autophagy receptors | The EMBO Journal www.embopress.org/doi/full/10....
Excited to share the peer-reviewed version of our work, now online in @embojournal.org! Big thanks to our reviewers and @hvodermaier.bsky.social for facilitating this process. Looking forward to continuing this fun collaboration with @michaelnadbio.bsky.social!
www.embopress.org/doi/full/10....
www.embopress.org/doi/full/10....
October 30, 2025 at 3:33 PM
Excited to share the peer-reviewed version of our work, now online in @embojournal.org! Big thanks to our reviewers and @hvodermaier.bsky.social for facilitating this process. Looking forward to continuing this fun collaboration with @michaelnadbio.bsky.social!
www.embopress.org/doi/full/10....
www.embopress.org/doi/full/10....
Reposted by Jonathan Pruneda
Exciting! Yet another Spotlight article has come out today in @cp-trendsparasitol.bsky.social, featuring our work on kinase-ligase crosstalk in a Leishmania virulence factor. Thanks so much, @jnpruneda.bsky.social and Shun-Je Bhark! www.sciencedirect.com/science/arti...
Practicing self-control: Leishmania TKUL exhibits intramolecular kinase-ubiquitin ligase crosstalk
Leishmaniasis, a neglected tropical disease caused by Leishmania parasites, poses an immense global health burden in desperate need of additional foun…
www.sciencedirect.com
October 29, 2025 at 1:44 PM
Exciting! Yet another Spotlight article has come out today in @cp-trendsparasitol.bsky.social, featuring our work on kinase-ligase crosstalk in a Leishmania virulence factor. Thanks so much, @jnpruneda.bsky.social and Shun-Je Bhark! www.sciencedirect.com/science/arti...
Reposted by Jonathan Pruneda
Job alert! We are recruiting a postdoc to study a novel RNA modification: ADP-ribose.
🔬Do you have experience working with RNA? Are you eager to explore new frontiers in RNA biology? Join our team and help uncover the secrets of RNA ADP-ribosylation: adpribosylationlab.wordpress.com/2025/10/28/p...
🔬Do you have experience working with RNA? Are you eager to explore new frontiers in RNA biology? Join our team and help uncover the secrets of RNA ADP-ribosylation: adpribosylationlab.wordpress.com/2025/10/28/p...
October 28, 2025 at 8:14 PM
Job alert! We are recruiting a postdoc to study a novel RNA modification: ADP-ribose.
🔬Do you have experience working with RNA? Are you eager to explore new frontiers in RNA biology? Join our team and help uncover the secrets of RNA ADP-ribosylation: adpribosylationlab.wordpress.com/2025/10/28/p...
🔬Do you have experience working with RNA? Are you eager to explore new frontiers in RNA biology? Join our team and help uncover the secrets of RNA ADP-ribosylation: adpribosylationlab.wordpress.com/2025/10/28/p...
Reposted by Jonathan Pruneda
The unique lipopolysaccharide composition of Salmonella Typhimurium ST313 dampens pyroptosis and inflammasome activation and suppresses host cell death https://www.biorxiv.org/content/10.1101/2025.09.29.679141v1
September 30, 2025 at 3:18 AM
The unique lipopolysaccharide composition of Salmonella Typhimurium ST313 dampens pyroptosis and inflammasome activation and suppresses host cell death https://www.biorxiv.org/content/10.1101/2025.09.29.679141v1
Reposted by Jonathan Pruneda
Come join us in Knoxville!
The Dept. of Microbiology 🧫🦠 at the University of Tennessee is hiring 2 Assistant Professors (tenure track, 9-month appt.).
Microbial Drivers of Chronic Disease: apply.interfolio.com/173153Quantitative Microbe-Plant-Environment Interactions: apply.interfolio.com/173345
The Dept. of Microbiology 🧫🦠 at the University of Tennessee is hiring 2 Assistant Professors (tenure track, 9-month appt.).
Microbial Drivers of Chronic Disease: apply.interfolio.com/173153Quantitative Microbe-Plant-Environment Interactions: apply.interfolio.com/173345
October 24, 2025 at 12:18 PM
Come join us in Knoxville!
The Dept. of Microbiology 🧫🦠 at the University of Tennessee is hiring 2 Assistant Professors (tenure track, 9-month appt.).
Microbial Drivers of Chronic Disease: apply.interfolio.com/173153Quantitative Microbe-Plant-Environment Interactions: apply.interfolio.com/173345
The Dept. of Microbiology 🧫🦠 at the University of Tennessee is hiring 2 Assistant Professors (tenure track, 9-month appt.).
Microbial Drivers of Chronic Disease: apply.interfolio.com/173153Quantitative Microbe-Plant-Environment Interactions: apply.interfolio.com/173345
Reposted by Jonathan Pruneda
UMN's Department of Microbiology and Immunology is hiring! Come be our colleague in the Twin Cities! Searches are open for Virology and Fungal Biology (links below).
Virology: hr.myu.umn.edu/jobs/ext/365...
Fungal Biology/Medical Mycology: hr.myu.umn.edu/jobs/ext/365...
Virology: hr.myu.umn.edu/jobs/ext/365...
Fungal Biology/Medical Mycology: hr.myu.umn.edu/jobs/ext/365...
October 26, 2025 at 7:40 PM
UMN's Department of Microbiology and Immunology is hiring! Come be our colleague in the Twin Cities! Searches are open for Virology and Fungal Biology (links below).
Virology: hr.myu.umn.edu/jobs/ext/365...
Fungal Biology/Medical Mycology: hr.myu.umn.edu/jobs/ext/365...
Virology: hr.myu.umn.edu/jobs/ext/365...
Fungal Biology/Medical Mycology: hr.myu.umn.edu/jobs/ext/365...
Reposted by Jonathan Pruneda
New article alert: Bacterial TIR-based immune systems sense phage capsids to initiate defense
Out now in Nature Microbiology by Cameron G. Roberts, Chloe B. Fishman, Zhiying Zhang, Dalton V. Banh, Dinshaw J. Patel & Luciano A. Marraffini
#microsky
www.nature.com/articles/s41...
Out now in Nature Microbiology by Cameron G. Roberts, Chloe B. Fishman, Zhiying Zhang, Dalton V. Banh, Dinshaw J. Patel & Luciano A. Marraffini
#microsky
www.nature.com/articles/s41...
Bacterial TIR-based immune systems sense phage capsids to initiate defense - Nature Microbiology
After sensing capsids, the Thoeris antiphage defense system triggers a cascade that leads to NAD+ cleavage and cell arrest, which are dynamics that are mirrored in some mammalian immune pathways.
www.nature.com
October 24, 2025 at 5:23 PM
New article alert: Bacterial TIR-based immune systems sense phage capsids to initiate defense
Out now in Nature Microbiology by Cameron G. Roberts, Chloe B. Fishman, Zhiying Zhang, Dalton V. Banh, Dinshaw J. Patel & Luciano A. Marraffini
#microsky
www.nature.com/articles/s41...
Out now in Nature Microbiology by Cameron G. Roberts, Chloe B. Fishman, Zhiying Zhang, Dalton V. Banh, Dinshaw J. Patel & Luciano A. Marraffini
#microsky
www.nature.com/articles/s41...
Reposted by Jonathan Pruneda
Ever noticed that #CRISPR editing results differ between cells? Awesome PhD student Moritz Schlapansky developed "scOUT-seq" to measure single cell transcriptomes + editing. 1.2 million cells, 74 cell types, living 🐭. Cell subtypes differ wildly from bulk average! www.biorxiv.org/content/10.1...
Cell-stereotyped DNA repair outcomes are widespread during genome editing
Genome editing outcomes are governed by DNA repair pathways that vary with cell type and state. We developed scOUT-seq (single-cell Outcomes Using Transcript sequencing), a scalable approach that join...
www.biorxiv.org
October 24, 2025 at 8:44 AM
Ever noticed that #CRISPR editing results differ between cells? Awesome PhD student Moritz Schlapansky developed "scOUT-seq" to measure single cell transcriptomes + editing. 1.2 million cells, 74 cell types, living 🐭. Cell subtypes differ wildly from bulk average! www.biorxiv.org/content/10.1...
Reposted by Jonathan Pruneda
Check out our new publication, a collaboration with Giovanni Luchetti and Vishva Dixit @ Genentech.
We show that the E.coli effector NleL inhibits intestinal epithelial cell extrusion after #inflammasome activation via degrading the kinases ROCK1 and 2!!
www.nature.com/articles/s41...
Explainer 1/8
We show that the E.coli effector NleL inhibits intestinal epithelial cell extrusion after #inflammasome activation via degrading the kinases ROCK1 and 2!!
www.nature.com/articles/s41...
Explainer 1/8
Enteropathogenic bacteria evade ROCK-driven epithelial cell extrusion - Nature
The bacterial ubiquitin ligase NleL evades host defence mechanisms both by inhibiting pyroptosis and by preventing infected intestinal epithelial cells from being extruded into the lumen and expelled ...
www.nature.com
October 22, 2025 at 3:47 PM
Check out our new publication, a collaboration with Giovanni Luchetti and Vishva Dixit @ Genentech.
We show that the E.coli effector NleL inhibits intestinal epithelial cell extrusion after #inflammasome activation via degrading the kinases ROCK1 and 2!!
www.nature.com/articles/s41...
Explainer 1/8
We show that the E.coli effector NleL inhibits intestinal epithelial cell extrusion after #inflammasome activation via degrading the kinases ROCK1 and 2!!
www.nature.com/articles/s41...
Explainer 1/8
Reposted by Jonathan Pruneda
Happy #PortfolioDay! I'm a bloke who traded investigating nematodes & RNAs for making Art all day every day #NoMoreLabCoatsJustPaintCoats
October 16, 2025 at 10:47 PM
Happy #PortfolioDay! I'm a bloke who traded investigating nematodes & RNAs for making Art all day every day #NoMoreLabCoatsJustPaintCoats
Reposted by Jonathan Pruneda
🚨Our paper is out! 🥳
Hijacking a bacterial ABC transporter for efficient genetic code expansion.
Many congrats to everyone involved - a multi-year effort led by @taruniype.bsky.social @maxfottner.bsky.social
www.nature.com/articles/s41...
it all started years ago with a failed experiment
🧵👇 1/9
Hijacking a bacterial ABC transporter for efficient genetic code expansion.
Many congrats to everyone involved - a multi-year effort led by @taruniype.bsky.social @maxfottner.bsky.social
www.nature.com/articles/s41...
it all started years ago with a failed experiment
🧵👇 1/9
Hijacking a bacterial ABC transporter for genetic code expansion - Nature
Bacterial ATP-binding cassette (ABC) transporters can be utilized and engineered to transport non-canonical amino acids into Escherichia coli for highly efficient synthesis of proteins with novel func...
www.nature.com
October 16, 2025 at 2:06 PM
🚨Our paper is out! 🥳
Hijacking a bacterial ABC transporter for efficient genetic code expansion.
Many congrats to everyone involved - a multi-year effort led by @taruniype.bsky.social @maxfottner.bsky.social
www.nature.com/articles/s41...
it all started years ago with a failed experiment
🧵👇 1/9
Hijacking a bacterial ABC transporter for efficient genetic code expansion.
Many congrats to everyone involved - a multi-year effort led by @taruniype.bsky.social @maxfottner.bsky.social
www.nature.com/articles/s41...
it all started years ago with a failed experiment
🧵👇 1/9
Reposted by Jonathan Pruneda
If you're curious about how cells quickly eliminate misfolded proteins produced under proteotoxic stress or mitotic substrate during cell cycle progression, check out our latest article in Nature Communications:
doi.org/10.1038/s414...
doi.org/10.1038/s414...
Structural basis of K11/K48-branched ubiquitin chain recognition by the human 26S proteasome - Nature Communications
K11/K48 branched ubiquitin chains regulate protein degradation and cell cycle progression. Here, the authors report the structural basis of how such a branched ubiquitin chain is recognized by the hum...
doi.org
October 15, 2025 at 6:53 PM
If you're curious about how cells quickly eliminate misfolded proteins produced under proteotoxic stress or mitotic substrate during cell cycle progression, check out our latest article in Nature Communications:
doi.org/10.1038/s414...
doi.org/10.1038/s414...
Reposted by Jonathan Pruneda
Our new paper is finally out today. An exciting collaboration with the Buhrlage lab. We report an allosteric activator of USP7.
www.pnas.org/doi/10.1073/...
www.pnas.org/doi/10.1073/...
PNAS
Proceedings of the National Academy of Sciences (PNAS), a peer reviewed journal of the National Academy of Sciences (NAS) - an authoritative source of high-impact, original research that broadly spans...
www.pnas.org
October 14, 2025 at 6:20 PM
Our new paper is finally out today. An exciting collaboration with the Buhrlage lab. We report an allosteric activator of USP7.
www.pnas.org/doi/10.1073/...
www.pnas.org/doi/10.1073/...
Reposted by Jonathan Pruneda
Enhanced virulence and stress tolerance are signatures of epidemiologically successful Shigella sonnei
@sydneylmiles.bsky.social @katholt.bsky.social
🙏to transformative collaborative effort
www.nature.com/articles/s41...
@sydneylmiles.bsky.social @katholt.bsky.social
🙏to transformative collaborative effort
www.nature.com/articles/s41...
October 13, 2025 at 9:48 PM
Enhanced virulence and stress tolerance are signatures of epidemiologically successful Shigella sonnei
@sydneylmiles.bsky.social @katholt.bsky.social
🙏to transformative collaborative effort
www.nature.com/articles/s41...
@sydneylmiles.bsky.social @katholt.bsky.social
🙏to transformative collaborative effort
www.nature.com/articles/s41...
Reposted by Jonathan Pruneda
This October I’m drawing 1 molecule a day inspired by proteins in pdb @rcsbpdb.bsky.social
Day 10
Prompt SWEEP
Pdb: 7NAP
Proteasome: the cleanup machine. It breaks down damaged or unneeded proteins, keeping the cell neat and efficient.
Next: STiNG
Suggestions?
Day 10
Prompt SWEEP
Pdb: 7NAP
Proteasome: the cleanup machine. It breaks down damaged or unneeded proteins, keeping the cell neat and efficient.
Next: STiNG
Suggestions?
October 12, 2025 at 3:14 AM
This October I’m drawing 1 molecule a day inspired by proteins in pdb @rcsbpdb.bsky.social
Day 10
Prompt SWEEP
Pdb: 7NAP
Proteasome: the cleanup machine. It breaks down damaged or unneeded proteins, keeping the cell neat and efficient.
Next: STiNG
Suggestions?
Day 10
Prompt SWEEP
Pdb: 7NAP
Proteasome: the cleanup machine. It breaks down damaged or unneeded proteins, keeping the cell neat and efficient.
Next: STiNG
Suggestions?