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Reposted by Ed Twomey

Ben Engel @cellarchlab.com · 3d

#TeamTomo ❄️🔬 meets #MassSpec Imaging 🧬🔬. Super cool, and great potential for EM grids with mixes of different cell types. For example -- environmental samples! @embltrec.bsky.social 🌍 🧪

Jakob Meier-Credo @meiercredo.bsky.social · 19d

Check out our new preprint on an integrated pipeline combining in situ #cryo-ET with MALDI #MSImaging for single-cell identification and classification from previously analysed EM-grids.
Link: www.biorxiv.org/content/10.1...

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Reposted by Ed Twomey

Cordero-Vásquez Lab @cvlab.bsky.social · 5d

Our new PNAS paper "Enhanced PIEZO1 function contributes to the pathogenesis of sickle cell disease" is out: www.pnas.org/doi/10.1073/... 1/3

Enhanced PIEZO1 function contributes to the pathogenesis of sickle cell disease | PNAS

Sickle cell disease (SCD), an inherited blood disorder caused by a mutation in the β-globin gene, is characterized by sickle erythrocytes that are ...

www.pnas.org

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Ed Twomey @cryoet.bsky.social · 13d

Congrats!!!

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Reposted by Ed Twomey

Gabriela K Popescu @popstarlab.bsky.social · 14d

Cryo-EM snapshots of NMDA receptor activation illuminate sequential rearrangements | Science Advances www.science.org/doi/10.1126/...

Cryo-EM snapshots of NMDA receptor activation illuminate sequential rearrangements

Opening of the NMDA receptor involves bending of the helices lining the ion channel gate.

www.science.org

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Reposted by Ed Twomey

Ardem Patapoutian @ardemp.bskyverified.social · 20d

New preprint alert! The uterus expands ~500-fold in pregnancy, yet we know little about how pressures are sensed. Led by @yunxiao-dr.bsky.social, we show PIEZOs are required for contractions and birth in mice, with dual roles of PIEZO1 in muscle and PIEZO2 in neurons
www.biorxiv.org/content/10.1...

PIEZO channels link mechanical forces to uterine contractions in parturition

Mechanical forces are extensively involved in pregnancy and parturition, but their precise roles and mechanisms remain poorly understood. Here, we identify mechanically activated ion channels PIEZO1 a...

www.biorxiv.org

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Ed Twomey @cryoet.bsky.social · 22d

Thank you! Much appreciated. Hope you are doing well!

Ed Twomey @cryoet.bsky.social · 22d

Thank you, John!

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Ed Twomey @cryoet.bsky.social · 22d

Thank you, Sasha!

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Ed Twomey @cryoet.bsky.social · 22d

Thank you!

Reposted by Ed Twomey

Nature @nature.com.web.brid.gy · 22d

Delta-type glutamate receptors are ligand-gated ion channels

Nature, Published online: 16 September 2025; doi:10.1038/s41586-025-09610-x Delta-type glutamate receptors are ligand-gated ion channels

www.nature.com

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Ed Twomey @cryoet.bsky.social · 22d

#Neuroscience #BrainDiscovery #NewTherapies #DeltaReceptor #Glutamate #ScienceBreakthrough #SynapticTransmission #CryoEM #iGluR

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Ed Twomey @cryoet.bsky.social · 22d

This completely rewrites the textbooks on how brains process information, and completes the iGluR family. An additional fun fact is that despite being glutamate receptors, these are not activated by glutamate, but rather the neurotransmitters GABA and D-serine.

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Ed Twomey @cryoet.bsky.social · 22d

Why is this important? Despite their role in brain health, neurological disease, and psychiatric disorders, no treatments have been developed to target GluDs because their intrinsic mechanisms have been unknown. This work lifts that veil to open new doors for therapeutic development.

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Ed Twomey @cryoet.bsky.social · 22d

Today, we report the solving of this mystery: delta receptors are actually ligand-gated ion channels - tiny biological switches that power brain activity and learning by turning neurotransmitters into electrical signal.

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Ed Twomey @cryoet.bsky.social · 22d

For decades, scientists have puzzled over the delta glutamate receptors (GluDs), mysterious proteins in the brain that are vital for synapse formation and maintenance, and are directly implicated in psychiatric and neurological disorders, but whose true function was unknown.

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Ed Twomey @cryoet.bsky.social · 22d

🚨🧠🔬 A major breakthrough in molecular neuroscience:

I am excited to share a new story from our lab, published in accelerated format today by @nature.com:

"Delta-type glutamate receptors are ligand-gated ion channels"

Read more here (free article link): rdcu.be/eGIKz

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Ed Twomey @cryoet.bsky.social · Aug 30

This is fantastic - glad to see it out!

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Ed Twomey @cryoet.bsky.social · Aug 30

Post an image from your summer that confers peace.

(from the Telluride ion channels workshop)

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Reposted by Ed Twomey

Oli Clarke @olibclarke.bsky.social · Aug 30

Happy to share a new preprint from the Clarke & Vallese (@fravallese.bsky.social) labs reporting #cryoem structures of two RBC stomatin complexes – with AQP1 & UT-B - continuing the SPFH theme from our recent vault preprint! This was a fun one and has been cooking for a while - read on for more! ⬇️

Upper - cryo-EM reconstruction of stomatin AQP1 complex. Lower - reconstruction of stomatin-UT-B complex.

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Reposted by Ed Twomey

Bronwyn Lucas @bronwynalucas.bsky.social · Aug 30

First pre-print from the Lucas Lab led by Matthew Giammar and @joshdcryoem.bsky.social online today! We develop a new, extensible Python implementation of 2DTM and apply it to build pixel size optimization, constrained search and characterize molecular motions in situ www.biorxiv.org/content/10.1...

Leopard-EM: An extensible 2DTM package to accelerate in situ structural biology

The ability to generate high-resolution views of cells with cryogenic electron microscopy (cryo-EM) can reveal the molecular mechanisms of biological processes in their native cellular context. The re...

www.biorxiv.org

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Reposted by Ed Twomey

Cory Booker @corybooker.com · Aug 26

This is not who we are. We must join together to call this out, to make more people understand what is happening and work to stop it.

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Reposted by Ed Twomey

Theanne Griffith, PhD 🇧🇧👩🏽‍🔬🇭🇷 @doctheagrif.bsky.social · Aug 25

Happy to share the my lab's latest preprint, where we investigated sensorimotor circuit formation in the developing spinal cord. We show that proprioceptive axons target motor neurons in neighboring spinal segments to give rise to intersegmental reflex responses.
www.biorxiv.org/content/10.1...

Activity-driven proprioceptive synaptic refinement in the developing spinal cord by complement signaling mechanisms

Proprioceptive group Ia afferents detect muscle stretch to guide effortless and purposeful movement and make monosynaptic connections with spinal α–motor neurons to mediate reflexes, such as the stret...

www.biorxiv.org

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Reposted by Ed Twomey

Andrew Plested @andrewplested.bsky.social · Aug 26

Kainate receptor modulation by Neto including an open state. Surprising, to me: I would never have imagined that Neto works like a membrane-tethered lectin (ConA). Auxiliary proteins influence dimer-dimer interactions, as we and others also showed in AMPARs.

#iGluRs

www.nature.com/articles/s41...

Activation of kainate receptor GluK2–Neto2 complex - Nature Structural & Molecular Biology

Gangwar et al. present cryo-electron microscopy structures of GluK2 kainate receptors with auxiliary subunit Neto2 and reveal the basis of receptor activation.

www.nature.com

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Reposted by Ed Twomey

Jeremy Berg @jeremymberg.bsky.social · Aug 6

New Story in The Atlantic about NIH

www.theatlantic.com/health/archi...

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How Many Times Can Science Funding Be Canceled?

Whether or not Congress cuts NIH’s budget, the Trump administration has devastated its ability to operate.

www.theatlantic.com

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Reposted by Ed Twomey

HHMI @hhmi.org · Aug 7

Congratulations 2025 Gilliam Fellows and Advisors! 🎉

The Gilliam Fellows Program launches promising PhD students into impactful scientific research careers while fostering inclusive training environments.
Through this program, HHMI supports both graduate students and their faculty thesis advisors.

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