2023 article
A Student Perspective on the 18th Monitoring Molecules in Neuroscience Meeting in Lyon
Forderhase, A. G., Kimble, L. C., & Sombers, L. A. (2023, June 5). ACS CHEMICAL NEUROSCIENCE.
author keywords: Biosensors; multiplexing; genetically encodedsensors; in vivo; neurochemistry; analyticalmethods
MeSH headings : Humans; Pandemics; COVID-19; Neurosciences
TL;DR:
Some of the noteworthy techniques expediting the understanding of circuit-level neurochemical function include multiplexed detection of numerous neurochemicals, well-established sensors leveraging enzymes and other biologic components, and the development of diverse, customizable genetically encoded sensors.
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UN Sustainable Development Goal Categories
3. Good Health and Well-being
(OpenAlex)
Source: Web Of Science
Added: July 24, 2023
After being postponed twice due to the global COVID-19 pandemic, approximately 200 scientists gathered in Lyon, France, in late June 2022 for the 18th Biennial Monitoring Molecules in Neuroscience (MMiN) Research Conference. Although there were unprecedented challenges involved with coordinating the 18th MMiN conference, the meeting was a huge success. The meeting provided a wonderful opportunity for young neuroscientists to network and learn about the current state of molecular monitoring in neuroscience research. The topics spanned advancements in well-established analytical techniques to novel method development. Some of the noteworthy techniques expediting our understanding of circuit-level neurochemical function include multiplexed detection of numerous neurochemicals, well-established sensors leveraging enzymes and other biologic components, and the development of diverse, customizable genetically encoded sensors.