Cracking the Neurexin Code of Neural Circuits

preview_player
Показать описание
Dr. Thomas Südhof, Professor in the School of Medicine at Stanford University, discusses function of neurexins and their ligands, which are essential for synapse function and determine the properties and nature of synapses. Mutations in these molecules have been associated with autism, schizophrenia and intellectual disability, suggesting that the functions of these molecules are relevant for insight into these devastating disorders.
Part of the Inaugural Symposium of Stanford Neurosciences Institute recorded on October 9 & 10, 2014.
  1. Stanford
  2. Neurology
  3. Neurobiology
  4. Neurosurgery
  5. Interdisciplinary
  6. Molecular & Cellular Neurosciences
Рекомендации по теме
Cracking the Neurexin 0:42:58

Cracking the Neurexin Code of Neural Circuits

CRACKING THE NEURAL 0:04:09

CRACKING THE NEURAL CODE

The Stanford Challenge: 0:04:18

The Stanford Challenge: Cracking the Neural Code

The Synaptic Molecule 0:05:34

The Synaptic Molecule Neurexin and its Ties to Neurodevelopmental Disorders

A Synapse Refresher 0:00:43

A Synapse Refresher

Molecular Mechanisms of 1:15:57

Molecular Mechanisms of synapse specificity

Neurexin and Neuroligin-based 0:01:23

Neurexin and Neuroligin-based adhesion complexes drive axonal arborisation growth independent

Molecular Cracking & 0:00:56

Molecular Cracking & Bounding

How to Pronounce 0:00:17

How to Pronounce Neurexin

Neural Circuits Learning 0:03:26

Neural Circuits Learning Synaptic Tagging PART 2 UNEDITED

MDT - Utilizing 0:53:36

MDT - Utilizing iPSC to verify the function of neurexin-1 (NRXN1)

How to Pronounce 0:00:18

How to Pronounce Neuroligins

Dr. Peter Whybrow 0:01:20

Dr. Peter Whybrow -- On the Market and the Human Brain

Mapping the dynamics 0:01:57

Mapping the dynamics and nanoscale organization of synaptic adhesion proteins using monomeric

Studying the Neural 0:50:55

Studying the Neural Circuit Mechanisms of Cognition Using Rodents

Thomas Südhof - 0:04:55

Thomas Südhof - Nobelpreisträger der keiner Mode folgt | BIRKENSTORY | BIRKENSTOCK

Inaugural Munck-Pfefferkorn Prize 1:17:22

Inaugural Munck-Pfefferkorn Prize Lecture at Dartmouth's Geisel School of Medicine

Thomas Südhof at 0:56:28

Thomas Südhof at GYSS 2021 - Synapse Formation in Neuropsychiatric and Neurodegenerative Diseases

Neural circuitry of 0:03:22

Neural circuitry of cognitive disorders

Regulating Gene Expression 0:59:02

Regulating Gene Expression During Long-Lasting Synaptic Plasticity and Memory

The Legal Brainscape 0:34:29

The Legal Brainscape

From Neurons to 0:31:49

From Neurons to Neighborhoods: charting a new science of mental health

PANEL: Dissecting the 0:40:13

PANEL: Dissecting the circuit logics in the amygdala underlying emotional learning

NEUROSCI 423S Development 0:01:29

NEUROSCI 423S Development of Neural Circuits.

Комментарии
Автор

This is the best explanation of Neuronal Electro physiology I have ever heard. He is truly gifted.

j.erickson
Автор

So basically, what are the implications of this research findings? Can someone summarize?
Also, any implications for connoisseurs of marijuana? :)

genarotelestaii