#ExpertAnswers: Agenor Limon on the Electrophysiology of Human Native Receptors
Dr. Agenor Limon from the University of Texas Medical Branch answers questions from a recent webinar to present research using pioneering methods developed in his lab including reactivation and microtransplantation of synaptic receptors from frozen human brain samples into xenopus oocytes to evaluate the relationship between synaptic activity and behavioral abnormalities.
For more information or to watch the webinar, click here.
Associated Webinar: Electrophysiology of Human Native Receptors in Neurological and Mental Disorders
Industry Insights with Trent Lund on the ANY-maze Operant Interface
Trent Lund shares the latest and greatest developments in the ANY-maze Operant Interface, and gives us insight on how Stoelting has created the most inclusive line of neuroscience equipment in the industry.
#ExpertAnswers: Michael Long and Kari Hoffman on Electrophysiology
Michael Long and Kari Hoffman investigate the neural mechanisms of learning, memory, and behavior using high-density silicon probes from Diagnostic Biochips in small and large animals.
#ExpertAnswers: Jason Rogers and De Wet Wolmarans on Rodent Behavior Models
Jason Rogers and De Wet Wolmarans discuss two research protocols for tracking, quantifying, and analyzing behaviors in rodent models.
Towards Automated Spikesorting using Artificial Intelligence on a Cloud-Based Platform
In this webinar, Dr. Fan Wu and Lidor Spivak discuss the use of artificial intelligence to automate electrophysiological data analysis, including a new cloud-based software platform.
The ANY-maze Operant Interface: Running Operant Experiments Using ANY-maze
Trent Lund, PhD, and Flavia Teixeira Silva, PhD, provide an introduction to the ANY-maze Operant Interface as well as a demonstration of the capabilities of the system to perform behavioral experiments.
Using High-Density Electrophysiological Recordings to Investigate Neural Mechanisms in Small and Large Animals
Join Drs. Michael Long and Kari Hoffman as they present their work investigating the neural mechanisms of learning, memory, and behavior using high-density silicon probes in small and large animals.