Xiaojing Gao
Assistant Professor @ Stanford ChemE
synthetic biology, biomolecular engineering
gaolab.blog
- Reposted by Xiaojing GaoExcited to share our latest preprint on work led by postdoc Robert Lusi (@rflusi.bsky.social)! Introducing ALTER (AGO-Led Targeted Editing of RNA) for non-downregulatory RNA manipulation by repurposing hAGO2, non-immunogenic and capitalizing on evolution. www.biorxiv.org/content/10.6...
- Reposted by Xiaojing GaoSo you think your mammalian plasmids have nothing to fear from cloning and propagation in E.coli? Quantitative profiling of millions of nucleotides by Tom Copeman will prove you wrong! Supervised with the amazing @proftomellis.bsky.social and AZ, now on BioRxiv: doi.org/10.64898/202...
- Reposted by Xiaojing GaoNew in ACS SynBio: led by Dennis Bolshakov, we used the awesome power of yeast to define how expression levels, noise, and sequence program the dynamics of synthetic protein waves, allowing us to genetically encode new cellular timescales stable over generations! pubs.acs.org/doi/full/10....
- Have you ever wondered what it would've been like to live in a different kind of society? After a record number of rejections, I'm self-archiving my first attempt at... flash fiction, featuring "Hemingway-esque economy" and "Ishiguro's measured revelation" (if you ask Claude).
- Reposted by Xiaojing GaoWhether you think limiting student visas to 4 years is a good or bad thing, please comment. Be heard.
- Comment period ends on Monday for a proposed rule change that would terminate student visas after 4 years. It also puts limits on exchange visitors and reps of foreign media, and shortens the length of time at the end of the visa from 60 days to 30 days. www.federalregister.gov/documents/20...
- Reposted by Xiaojing GaoWith 2 postdocs moving on to faculty positions🥳, we're looking to hire someone new. If you're interested in norepinephrine and neural circuits, please apply! tinyurl.com/42bfe24k
- Having often dealt with the frustration of binder-limited projects, we sought a more accessible source for nanobodies than yeast display or llama. Here we introduce Germinal, computationally designing antibody-like binders with such a hit rate that only tens need to be screened for each target.
- We previously built programmable RNA sensors based on editing by housekeeping ADAR enzymes. But they can't sense arbitrary sequences due to design constraints (analogous to PAM for CRISPR). With our new "modulADAR", we overcome that constraint by leveraging ADAR's modularity.
- Reposted by Xiaojing GaoExcited to share our latest: we engineered the reactivity of a bacterial E1-like enzyme for ATP-driven modification of C termini. Our tool mimics the logic of peptide bond formation in biology for precision modification of proteins in vitro. 🧪https://rdcu.be/ewN7C
- Have you always wanted to take a protein from its native context and make it work elsewhere? Our novel sampler computationally “cytosolize” a secreted enzyme while maintaining its structure, generalizable to other multi-objective guided generation tasks www.biorxiv.org/content/10.1...
- The machine-guided humanization paper is out after peer review! doi.org/10.1016/j.ce... Key contributions from current and previous international students on visas, representing 5+ countries.
- So we beat on. Gene/cell therapies would benefit many patients, but often use proteins that could be recognized as non-self by our immune system and cause problems. We combine algorithms to build proteins that are therapeutically relevant and can masquerade as our own parts doi.org/10.1101/2025...
- Reposted by Xiaojing GaoOur latest work developing AND-gate probes for imaging caspase-1 mediated inflammation is out. Very productive collaboration with Merck & Co. in South San Francisco. #chembio. www.biorxiv.org/content/10.1...
- Reposted by Xiaojing GaoHello Community! Are you a postdoc/grad student preparing to launch a faculty search? Do you have a track record of excellence in research, leadership, mentorship & community engagement? Apply to the 2025 Next Generation Faculty Symposium: www.berkeleystanfordnextgensymposium.com! Pls repost! (1/3)
- Grateful for the recognition and for my team's dedication. When I wrote it in Oct, I didn't anticipate that the title would feel defiant. The original draft even had a now quaint reference to "the comparative comfort of the ivory tower", which was wisely removed.
- LIDAR is out! rdcu.be/efugD We are one baby step closer to making it useful for therapeutics. NIH high-risk high-reward program provides key support.
- Reposted by Xiaojing GaoIf you have time in your life to read only one of @jeremymberg.bsky.social’s bluetorials, please read this one
- So we beat on. Gene/cell therapies would benefit many patients, but often use proteins that could be recognized as non-self by our immune system and cause problems. We combine algorithms to build proteins that are therapeutically relevant and can masquerade as our own parts doi.org/10.1101/2025...
- Reposted by Xiaojing GaoJoin us! Science Homecoming helps scientists reconnect with communities by writing about the importance of science funding in their hometown newspapers. We’ve mapped every small newspaper in the U.S. and provide resources to get you started. Help science get back home 🧪🔬🧬 🏠 sciencehomecoming.com
- Reposted by Xiaojing GaoIt’s been a tough few weeks. My 10yo daughter was diagnosed with a very rare, aggressive cancer called interdigitating dendritic cell sarcoma (IDCS). I’m reaching out to identify clinicians/patients who have encountered pediatric IDCS or other (non-LCH) dendritic or histiocytic sarcomas cases.
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- Proteases might serve as versatile control knobs for gene and cell therapies, but there looms the risk of immunogenicity as we and others have been using viral proteases. We now report a control system based on a an engineered human protease and its clinically approved inhibitor. rdcu.be/d6kVt
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- Reposted by Xiaojing GaoSuper excited to finally share PANCS-Binders: our group's decade-long quest to accelerate protein binder discovery. TLDR: PANCS-binders is fast (2 days), cheap (pennies), has extremely high fidelity (low false positive and negatives), and high-throughput. 1/n
- While everyone esle has been concentrating on generative binder design, this group has demonstrated screening libraries in vivo! www.biorxiv.org/content/10.1... #biosky
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- Reposted by Xiaojing GaoThank you to @urochester.bsky.social for writing this nice piece about our new PNAS article, which explains how we engineered bacteria to encapsulate themselves in glass, allowing them to focus light like microlenses! @pnas.org www.rochester.edu/newscenter/w...
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- Reposted by Xiaojing Gao1/ In two back-to-back papers, we present our de novo TRACeR platform for targeting MHC-I and MHC-II antigens TRACeR for MHC-I: go.nature.com/4gcLzn5 TRACeR for MHC-II: go.nature.com/4gj5OQk
- Kudos to the attendee who called out "cultural generalization". I admire her courage and composure. x.com/xwang_lk/sta...
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- Reposted by Xiaojing GaoToday we report that an engineered skin bacterium, swabbed gently on the head of a mouse, can unleash a potent antibody response against a pathogen. Could lead to topical vaccines that are applied in a cream. @djenetbousbaine.bsky.social led the charge... @natureportfolio.bsky.social 1/55
- Reposted by Xiaojing GaoCould one envision a synthetic receptor technology that is fully programmable, able to detect diverse extracellular antigens – both soluble and cell-attached – and convert that recognition into a wide range of intracellular responses, from gene expression and real-time fluorescence to modulation..
- Reposted by Xiaojing GaoWe designed MS2 and PP7 binding coat proteins that are degraded in cells except when bound by their hairpin RNAs. You can check out our pre-print here: tinyurl.com/27p7hyt9, and listen to a Google AI-generated podcast on it here: notebooklm.google.com/notebook/d71...
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