Karthik Shekhar (@shekharlab) 's Twitter Profile
Karthik Shekhar

@shekharlab

Assistant Professor, UC Berkeley (CBE and Helen Wills Neuroscience Institute)

ID: 1132258827569684480

linkhttp://www.shekharlab.net calendar_today25-05-2019 12:15:15

348 Tweet

838 Followers

454 Following

Vaikuntanathan Lab (@suri_lab) 's Twitter Profile Photo

Check out new work arxiv.org/abs/2411.07233 by Alexandra, Agnish, Aditya and Cal on generative diffusion but with correlated or ``active" noise.

Alex Pollen (@brainevodevo) 's Twitter Profile Photo

Jenelle Wallace led a preview of two outstanding papers from Cécile Charrier , Baptiste Libé-Philippot , @VanderhaeghenP2 , @fpolleux et al that connect regulation of the tempo of synaptogenesis by the human-specific gene SRGAP2C to ASD-linked genes: authors.elsevier.com/a/1k3583BtfH9B…

<a href="/JenelleLWallace/">Jenelle Wallace</a> led a preview of two outstanding papers from <a href="/CcileCharrier/">Cécile Charrier</a> , <a href="/blibep/">Baptiste Libé-Philippot</a> , @VanderhaeghenP2 , @fpolleux et al that connect regulation of the tempo of synaptogenesis by the human-specific gene SRGAP2C to ASD-linked genes: 
 authors.elsevier.com/a/1k3583BtfH9B…
Rachana Deven Somaiya (@rachanadsomaiya) 's Twitter Profile Photo

New preprint! 🔥A wonderful collaboration of our Dr. Marla Feller lab with Matthew Po, and Karthik Shekhar. Here, we dive into the impact of activity on the transcriptome of retinal ganglion cells (RGCs), the sole output neurons of the retina. 1/12 biorxiv.org/content/10.110…

Physical Review Research (@physrevresearch) 's Twitter Profile Photo

Spatiotemporal dynamics of ionic reorganization near biological membrane interfaces, Hyeongjoo Row, Joshua B. Fernandes, Kranthi K. Mandadapu, and Karthik Shekhar #Biophysics go.aps.org/4idQ8hO

Spatiotemporal dynamics of ionic reorganization near biological membrane interfaces, Hyeongjoo Row, Joshua B. Fernandes, Kranthi K. Mandadapu, and Karthik Shekhar #Biophysics go.aps.org/4idQ8hO
Daniel Kerschensteiner (@klabvision) 's Twitter Profile 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. rdcu.be/eikoa

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. rdcu.be/eikoa