Jude Mitchell

Our very own Lisa Kroell just won the Dissertationspreis #Adlershof 2023! If you know her work and have ever seen one of her impeccable presentations, you know why. Way to go, Lisa! adlershof.de/news/dissertat… @IGAFAeV @HumboldtUni @WISTA_update @MindaBrain @dfg_public #activevision

OUT NOW in J. Neuroscience from @judefmitchell @jcbyts jneurosci.org/content/early/… #URochesterResearch @UoR_BrainCogSci

@jcbyts @SfNtweets @NeuralCodeUMD @judefmitchell @nienborglab @BevilConway Our poster on modeling the effects of eye movements in the visual cortex is available here. dekelgalor.com/fixational-tra…

Recordings in visual cortex (V1) of mice and marmosets revealed neurons respond to gaze shifts in a sequence, such that new visual input is processed in a “coarse” to “fine” manner @cosmousevision @dmmartins @emmalynleonard @cris_niell @judefmitchell nature.com/articles/s4159…

Head-gaze theta phase resetting, a mechanism for memory encoding. ⁦@DiegoB_Piza⁩ presenting at the marmoset meeting pre ⁦@SfNtweets⁩. Great work!

@NauMatt @jcbyts @NatureComms Thanks! Excited to have this work out.

Cool paper using gaze-contingent neurophysiology to map visual receptive fields during natural viewing in marmosets! By @jcbyts & @judefmitchell et al out in @NatureComms nature.com/articles/s4146…

BCS faculty member Jude Mitchell @judefmitchell published an article in Nature Communications @NatureComms nature.com/articles/s4146… @CvsUor #URochesterResearch

1/ 🧠🔍 New research alert! We've trained a neural network to predict brain responses to images, and then “dissected” the network to examine the selectivity of spatial properties across high-level visual areas. Discover more about our work: brain-dissection.github.io

The hippocampus of the common marmoset is a GPS, but G is for gaze biorxiv.org/cgi/content/sh… #biorxiv_neursci

It’s a wrap! Thank you to everyone who attended the Primate Neurobiology Conference at the @DPZ_eu . Special thanks goes to our keynote speakers @judefmitchell , @PrutYifat and @AldoGenovesio . It was a great experience with fruitful & fun exchanges. Until next year in Tübingen!

Thrilled to see this published. Humans possess very fine motor knowledge of how their eyes move during fixation and use it to infer spatial relations. Vision and motor behavior are inextricably coupled. nature.com/articles/s4146…

Are you interested in discovering how the brain controls movements? Do you want to do rigorous behavioral experiments combined with neurophysiology? Would you like to work with these beautiful, gentle animals? Do you have excellent computational skills? Please email me your CV.

Excited to present our new preprint! We sequenced 2.4 million marmoset brain cell nuclei across major neocortical and subcortical structures. Here’s what we learned. biorxiv.org/content/10.110…

This paper by Luke Shaw with Drs. K.H. Wang and @judefmitchell is very cool. @DeepLabCut tracking of marmosets capturing crickets, showing they predictively adapt to cricket velocity and update reaches online with a visuomotor delay of only ~80 ms! biorxiv.org/content/10.110…

Another part of my graduate work done! This one was a lot of work, but a lot of fun too!

A dynamic sequence of visual processing initiated by gaze shifts. So proud of this incredible group for everything that we have achieved together over the last few years biorxiv.org/content/10.110…

Happy to share a preprint on our latest work - measuring visual coding in freely moving mice! @elliott_abe and @CosmouseVision mapped receptive fields and demonstrated the impact of eye/head position. 1/n biorxiv.org/content/10.110…

Excited to share our connectomic search for direction selective retinal circuits in primate. We found a candidate ON dsRGC homolog that links starburst amacrine cells to the accessory optic system to complete an evolutionarily ancient circuit for gaze stabilization @jay_neitz

We sought to test whether running modulates primate V1 like it does in mouse, but ended up fascinated by shared gain modulations and their relation to behavior. We think this lays groundwork for extracting general cross-species principles biorxiv.org/content/10.110…