Daniel Kerschensteiner @KLabVision - Twitter Profile

Pinned Tweet

about 2 months ago

New study led by @NingShenStella w/ @phruzycki: a genome-wide in vivo CRISPR screen in a retinitis pigmentosa mouse model identifies genes whose loss accelerates photoreceptor death. Overexpressing two, UFD1 and UXT, preserves photoreceptors, retinal function, and vision. 🧵

KLabVision's tweet photo. New study led by @NingShenStella w/ @phruzycki: a genome-wide in vivo CRISPR screen in a retinitis pigmentosa mouse model identifies genes whose loss accelerates photoreceptor death. Overexpressing two, UFD1 and UXT, preserves photoreceptors, retinal function, and vision. 🧵 https://t.co/JYnDGpy8aS

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WashU Medicine Ophthalmology @WashUMedDOVS

22 days ago

Congratulations to Aaron Y. Lee, MD, MSCI, Arthur W. Stickle Distinguished Professor and Chairman of Ophthalmology and Visual Sciences, and Cecilia Lee, MD, MS, Jane Hardesty Poole Distinguished Professor of Ophthalmology and Visual Science, on the #ARVO2026 Cogan Award! 👏

WashUMedDOVS's tweet photo. Congratulations to Aaron Y. Lee, MD, MSCI, Arthur W. Stickle Distinguished Professor and Chairman of Ophthalmology and Visual Sciences, and Cecilia Lee, MD, MS, Jane Hardesty Poole Distinguished Professor of Ophthalmology and Visual Science, on the #ARVO2026 Cogan Award! 👏 https://t.co/ZyozgziLCV

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Katrin Franke

@kfrankelab

about 1 month ago

Every experimental neuroscientist knows the feeling: you have a hypothesis, but running the experiment takes months👩‍🔬 In our new preprint @biorxiv_neursci , we present an openly available functional ''digital twin'' of the retinal input to the mouse superior colliculus that lets you test hypotheses in the model first — try it out yourself using the link below 🧠 We combined chronic two-photon imaging of >200k retinal ganglion cell axonal boutons in the mouse superior colliculus (SC) with deep dynamic models that predict neural responses to parametric light stimuli and natural movies. Key findings⚡️ ▸ Retinal inputs to the SC form functionally distinct, laminar-organized response types, identified via Gaussian mixture model clustering ▸ The functional diversity of retinal output matches that of retinal input to the SC. We show this by aligning our dataset with a retinal reference dataset using a variational autoencoder with adversarial training ▸ Our deep dynamic digital twin learns stimulus–response transformations and generalizes to stimuli it was never trained on, including parametric stimuli used for cell type identification The model functions as a virtual lab bench: feed in any stimulus you're curious about and generate predicted neural responses. As a proof of concept, we fed in a looming stimulus — known to trigger defensive behavior in mice — and identified putative response types selective for this stimulus Try it in our Colab notebook with your own stimulus and see what the model predicts 📄 Preprint: https://t.co/5CpYx9lc4j💻 Colab: https://t.co/pfbl24MiGA📂 Code: https://t.co/tNI86Nt5i3 Huge thanks to an incredible cross-institutional team spanning @StanfordMed , @uktuebingen , @uniGoettingen , @bcm_neurosci & many more @YongrongQ, @lisa_schmors, Na Zhou, Mels Akhmetali, Dominic Gonschorek, Cameron Smith, Anton Sumser, Marie Vallens, @crcadwell, Fabrizio Gabbiani, Maximilian Joesch, @AToliasLab, Philipp Berens, Thomas Euler, @sinzlab, @viajake 🙌

kfrankelab's tweet photo. Every experimental neuroscientist knows the feeling: you have a hypothesis, but running the experiment takes months👩‍🔬

In our new preprint @biorxiv_neursci , we present an openly available functional ''digital twin'' of the retinal input to the mouse superior colliculus that lets you test hypotheses in the model first — try it out yourself using the link below 🧠

We combined chronic two-photon imaging of >200k retinal ganglion cell axonal boutons in the mouse superior colliculus (SC) with deep dynamic models that predict neural responses to parametric light stimuli and natural movies.

Key findings⚡️

▸ Retinal inputs to the SC form functionally distinct, laminar-organized response types, identified via Gaussian mixture model clustering

▸ The functional diversity of retinal output matches that of retinal input to the SC. We show this by aligning our dataset with a retinal reference dataset using a variational autoencoder with adversarial training

▸ Our deep dynamic digital twin learns stimulus–response transformations and generalizes to stimuli it was never trained on, including parametric stimuli used for cell type identification

The model functions as a virtual lab bench: feed in any stimulus you're curious about and generate predicted neural responses. As a proof of concept, we fed in a looming stimulus — known to trigger defensive behavior in mice — and identified putative response types selective for this stimulus

Try it in our Colab notebook with your own stimulus and see what the model predicts

📄 Preprint: https://t.co/5CpYx9lc4j💻

Colab: https://t.co/pfbl24MiGA📂

Code: https://t.co/tNI86Nt5i3

Huge thanks to an incredible cross-institutional team spanning @StanfordMed , @uktuebingen , @uniGoettingen , @bcm_neurosci & many more

@YongrongQ, @lisa_schmors, Na Zhou, Mels Akhmetali, Dominic Gonschorek, Cameron Smith, Anton Sumser, Marie Vallens, @crcadwell, Fabrizio Gabbiani, Maximilian Joesch, @AToliasLab, Philipp Berens, Thomas Euler, @sinzlab, @viajake 🙌

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Bob Johnston @BobbyJEyeGuy

about 2 months ago

Check out this "epic" summary of our recent paper from Michael Housset and @MichelCayouette ! https://t.co/Cg0KS56D9T

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Who to follow

A.P. Sampath

@APSampath3

Vision Scientist and lover of all sensory receptor cells. Grace & Walter Lantz Prof of Ophthalmology & Neurobio, Associate Director, @UCLASteinEye, @UCLA.

Senior Scientist Neuroscience & AI • @StanfordMed • https://t.co/4GWyR7iUEO • https://t.co/oHbDmfP0li

KLabVision retweeted

Ivo Spiegel @Spiegel_Lab

about 2 months ago

🚨Paper Alert🚨 After 4(!!!) years of revisions, the amazing @KetiCohen & team pushed out this beauty💪 Unlike what the textbooks say, V1 binocularity is not fixed: at high arousal, binocularity decreases while the strength of peripheral vision increases. https://t.co/mK3KEw7jbs

Spiegel_Lab's tweet photo. 🚨Paper Alert🚨 After 4(!!!) years of revisions, the amazing @KetiCohen & team pushed out this beauty💪 Unlike what the textbooks say, V1 binocularity is not fixed: at high arousal, binocularity decreases while the strength of peripheral vision increases. https://t.co/mK3KEw7jbs https://t.co/GN8lTUXDuG

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Baier Lab MPI for Biological Intelligence @BaierLab

about 2 months ago

Paper alert! Cognitive ethology of nest building in a shell-dwelling cichlid Swantje Grätsch et al. found that L. ocellatus builds nests through an innate behavioral sequence, which is orchestrated by a series of stimulus-response loops. https://t.co/rdFqZYpgJ2

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Jenna Krizan, PhD @jmkrizan

about 2 months ago

The Bright Center for Human Vision is now hiring! We seek a skilled researcher to support translational vision research @WashUMedDOVS! More info below🧵

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Daniel Kerschensteiner @KLabVision

about 2 months ago

To bridge the gap to translation, we developed an RP model in adult human retinal explants and show that both gene therapies protect photoreceptors, highlighting their therapeutic promise as mutation-agnostic strategies against proteotoxicity. https://t.co/2rLQ7H3IuD

KLabVision's tweet photo. To bridge the gap to translation, we developed an RP model in adult human retinal explants and show that both gene therapies protect photoreceptors, highlighting their therapeutic promise as mutation-agnostic strategies against proteotoxicity. https://t.co/2rLQ7H3IuD https://t.co/zst2Ig34RM

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Daniel Kerschensteiner @KLabVision

about 2 months ago

New study led by @NingShenStella w/ @phruzycki: a genome-wide in vivo CRISPR screen in a retinitis pigmentosa mouse model identifies genes whose loss accelerates photoreceptor death. Overexpressing two, UFD1 and UXT, preserves photoreceptors, retinal function, and vision. 🧵

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Katrin Franke

@kfrankelab

2 months ago

New paper out in @NeuroCellPress 🎉 What determines contextual modulation in primary visual cortex (V1)? The key result ⚡ V1 neurons are facilitated by surrounds that complete their optimal center feature according to natural scene statistics, and suppressed by surrounds that disrupt it — a principle explained by hierarchical Bayesian inference and conserved across mouse and macaque. These results converge with Deveau et al. in @NeuroCellPress (https://t.co/THpNjjVuvT) from the lab of @HistedLab, who show that recurrent circuits in V1 filter temporal input sequences to selectively boost natural dynamics, and Lange et al. in @ScienceMagazine (https://t.co/j8EW7SnGUO) from the lab of @haefnerlab, who show that perceptual learning increases population redundancy as predicted by generative inference. A consistent picture is emerging: (early) visual cortex actively infers the statistical structure of the natural world. Amazing collaboration with @AToliasLab @haefnerlab @sinzlab Antolik Lab & many more — led by @jiakunfu, with co-authors @suhas_shrinivas & @LuchinoBaroni & many more The paper is open-access and available here: https://t.co/d1tg4MPFlm More detailed approach: We trained CNN digital twins on large-scale two-photon recordings from mouse V1 and used them to synthesize, for each neuron individually, the surrounds that most strongly facilitate or suppress its response to its optimal center stimulus. Closed-loop in vivo inception loop experiments confirmed the predictions. Key qualitative finding: Surrounds that complete the optimal center feature under natural scene statistics → facilitation Surrounds that disrupt it → suppression We verified this with an independent generative diffusion model (blind to our CNN): statistically likely continuations of the optimal center feature were significantly more similar to facilitatory surrounds in V1 representational space. The same principle holds in macaque V1 despite major differences in receptive field organization. We formalize these results in a hierarchical Bayesian inference model — V1 neurons represent posterior beliefs about local features, with feedback from higher areas encoding global scene structure — and find like-to-like excitatory connectivity in the MICrONS dataset as a candidate circuit mechanism.

kfrankelab's tweet photo. New paper out in @NeuroCellPress 🎉

What determines contextual modulation in primary visual cortex (V1)?

The key result ⚡ V1 neurons are facilitated by surrounds that complete their optimal center feature according to natural scene statistics, and suppressed by surrounds that disrupt it — a principle explained by hierarchical Bayesian inference and conserved across mouse and macaque.

These results converge with Deveau et al. in @NeuroCellPress (https://t.co/THpNjjVuvT) from the lab of @HistedLab, who show that recurrent circuits in V1 filter temporal input sequences to selectively boost natural dynamics, and Lange et al. in @ScienceMagazine (https://t.co/j8EW7SnGUO) from the lab of @haefnerlab, who show that perceptual learning increases population redundancy as predicted by generative inference. A consistent picture is emerging: (early) visual cortex actively infers the statistical structure of the natural world.

Amazing collaboration with @AToliasLab @haefnerlab @sinzlab Antolik Lab & many more — led by @jiakunfu, with co-authors @suhas_shrinivas & @LuchinoBaroni & many more

The paper is open-access and available here: https://t.co/d1tg4MPFlm

More detailed approach:

We trained CNN digital twins on large-scale two-photon recordings from mouse V1 and used them to synthesize, for each neuron individually, the surrounds that most strongly facilitate or suppress its response to its optimal center stimulus. Closed-loop in vivo inception loop experiments confirmed the predictions.

Key qualitative finding:
Surrounds that complete the optimal center feature under natural scene statistics → facilitation
Surrounds that disrupt it → suppression

We verified this with an independent generative diffusion model (blind to our CNN): statistically likely continuations of the optimal center feature were significantly more similar to facilitatory surrounds in V1 representational space. The same principle holds in macaque V1 despite major differences in receptive field organization.

We formalize these results in a hierarchical Bayesian inference model — V1 neurons represent posterior beliefs about local features, with feedback from higher areas encoding global scene structure — and find like-to-like excitatory connectivity in the MICrONS dataset as a candidate circuit mechanism.

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Xin Duan @xinduan

10 months ago

A @NeuroCellPress paper led by Kushal @UCBerkeley, Nicole&Victoria @UCSF in full collaboration with @shekharlab, Molecular and spatial analysis of ganglion cells on retinal flatmounts identifies perivascular neurons resilient to glaucoma https://t.co/QjeNMbQwWZ #retina #MERFISH

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Katja Reinhard @KatjaReinhard

11 months ago

Finally it's out! https://t.co/ZfPTLWFRDO Thanks to Felix Baier, Karl Farrow and Hopi Hoekstra! And a big thank you to all the co-authors, reviewers, host institutes and funding sources! @BramNuttin, Arnau Sans Dublanc, Chen Liu, Victoria Tong, Julie Murmann and Keimpe Wierda

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Kirill Martemyanov Lab @KLabGPCR

11 months ago

We found that endogenous ligand for GPR139 is opioid peptide dynorphin. With this, GPR139 may not be an orphan any more but the 5th opioid receptor. Heavy lift by talented Xiaona Li with great thanks to all who contributed! https://t.co/OabhjeWV1q

KLabGPCR's tweet photo. We found that endogenous ligand for GPR139 is opioid peptide dynorphin. With this, GPR139 may not be an orphan any more but the 5th opioid receptor. Heavy lift by talented Xiaona Li with great thanks to all who contributed!
https://t.co/OabhjeWV1q https://t.co/DsuVbL8q2a

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WashU Medicine

@washumedicine

about 1 year ago

Join us in congratulating professor Susan K. Dutcher, PhD, on her election to the National Academy of Sciences. Her groundbreaking research on cilia is unlocking insights into chronic disease and continues to elevate WashU Medicine’s legacy of scientific excellence and impact.

washumedicine's tweet photo. Join us in congratulating professor Susan K. Dutcher, PhD, on her election to the National Academy of Sciences. Her groundbreaking research on cilia is unlocking insights into chronic disease and continues to elevate WashU Medicine’s legacy of scientific excellence and impact.

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Katrin Franke

@kfrankelab

about 1 year ago

65 years after Lettvin’s bug detector neurons in the frog retina, we revisit how the retina drives behavior—from reflexes to prey capture to brain-state modulation New review with @AnnaIntegrated & Serena Riccitelli in Annual Review of Vision Science 👇 https://t.co/xfwUGtpXkF

kfrankelab's tweet photo. 65 years after Lettvin’s bug detector neurons in the frog retina, we revisit how the retina drives behavior—from reflexes to prey capture to brain-state modulation

New review with @AnnaIntegrated & Serena Riccitelli in Annual Review of Vision Science 👇

https://t.co/xfwUGtpXkF https://t.co/FeKiafuFcR

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Don B. Arnold @Don_B_Arnold

about 1 year ago

ATLAS, a rationally designed transsynaptic tracer is out today! Plasmids will soon be available on @Addgene addgene https://t.co/HjAKxof6eo Many thanks to first authors Jackie Rivera and Haoyang Huang, and to collaborators, @blsabatini @Kanoski_Lab @vincentw_weng @beherring

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A.P. Sampath @APSampath3

about 1 year ago

Happy to share our recent work on a conductance that shapes substantially the output of rod photoreceptors. The role of the Ca2+-activated Cl- conductance in the membrane potential and light response of mouse rods https://t.co/bsdkOXoDY9

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Kirill Martemyanov Lab @KLabGPCR

about 1 year ago

We have innovated design of templates for CRISPR/Cas9 editing which allows efficient introduction of epitope tags in vivo. It is a simple hack which we hope to be broadly useful. Work by talented graduate student Chuanping Zhao. https://t.co/vtULnZpYKA

KLabGPCR's tweet photo. We have innovated design of templates for CRISPR/Cas9 editing which allows efficient introduction of epitope tags in vivo. It is a simple hack which we hope to be broadly useful. Work by talented graduate student Chuanping Zhao.
https://t.co/vtULnZpYKA https://t.co/c3FFJSNt0J

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Daniel Kerschensteiner @KLabVision

about 1 year ago

The ON/OFF dichotomy is fundamental to visual processing. In a new study led by Flori Soto, we identify a conserved molecular mechanism establishing the OFF pathway. https://t.co/is4NEvc0ME

KLabVision's tweet photo. The ON/OFF dichotomy is fundamental to visual processing. In a new study led by Flori Soto, we identify a conserved molecular mechanism establishing the OFF pathway. https://t.co/is4NEvc0ME https://t.co/jzWlxHRUBP

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Kepecs Lab @KepecsLab

about 1 year ago

1/ Why do late-stage cancer patients lose motivation & sink into apathy? 🔥Our new Science paper shows cancer activates a cytokine-sensing brain circuit to lower motivation.Great work by Aelita Zhu @sarahstarosta @Pignatelli_Lab @JanowitzTobias &team!🧵 🔗 https://t.co/j5yD6riRGE

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Erquan Zhang @Eric_E_Zhang

about 1 year ago

Our RUVBL2 paper is online published by Nature: https://t.co/cTrlK52krd

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Daniel Kerschensteiner

@KLabVision

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