25 April 2024, 11:00
The Wonders of Small Molecule Transport
AbstractTransporting small molecules across cell membranes is an essential process in cell physiology The uptake of glucose and the maintenance of intracellular pH are two fundamental processes carried out by most cells Here I will present our multidisciplinary approach that has revealed important insights into the mechanism of glucose GLUT uptake and Na H exchange which are important... AbstractTransporting small molecules across cell membranes is an essential process in cell physiology. The uptake of glucose and the maintenance of intracellular pH are two fundamental processes carried out by most cells. Here, I will present our multidisciplinary approach that has revealed important insights into the mechanism of glucose (GLUT) uptake and Na+/H+ exchange, which are important transport systems for our cells to utilize glucose as an energy source and for the regulation cytoplasmic and organellar pH. I will also present our recent structural insights into a sperm-specific Na+/H+ exchanger regulated by voltage – transforming the transporter into a signaling cascade that is essential in animals (metazoa) for sperm motility and fertilization. Nature (2023). 623:193–201; Nature. (2020) 578 (7794):321-325; Nature (2015) 526(7573):397-401; Nature (2013) 501(7468):573-7.About the...
Speaker(s): David Drew, Stockholm University, Sweden
Host: Andrew McCarthy
Place: IBS Seminar Room
PSB Seminar
EMBL Grenoble
Additional information
Abstract
Transporting small molecules across cell membranes is an essential process in cell physiology. The uptake of glucose and the maintenance of intracellular pH are two fundamental processes carried out by most cells. Here, I will present our multidisciplinary approach that has revealed important insights into the mechanism of glucose (GLUT) uptake and Na+/H+ exchange, which are important transport systems for our cells to utilize glucose as an energy source and for the regulation cytoplasmic and organellar pH. I will also present our recent structural insights into a sperm-specific Na+/H+ exchanger regulated by voltage – transforming the transporter into a signaling cascade that is essential in animals (metazoa) for sperm motility and fertilization. Nature (2023). 623:193–201; Nature. (2020) 578 (7794):321-325; Nature (2015) 526(7573):397-401; Nature (2013) 501(7468):573-7.
About the speaker
Prof. David Drew hails from New Zealand where he obtained a MSc in Chemistry from Auckland University. He joined the lab of Prof. de Gier at Stockholm University for his PhD thesis research where he developed a technique of using GFP to monitor membrane protein topology and over expression in E. coli. After a EMBO post-doc fellowship at Imperial College London, he started his own research group as a University Royal Society (URF) Fellow at Imperial, focusing on structural studies of glucose (GLUT) transporters. In 2013, Drew returned to Stockholm University where he currently resides as a Wallenberg Scholar. Drew is internationally recognized by his pioneering structural studies of glucose transporters and Na+/H+ exchangers, membrane protein GFP-based methods, and influential reviews on small molecule transport. Drew has been acknowledged with several prizes, including the Göran Gustafsson Prize in Chemistry from the Swedish Royal Academy of Science, the Arrhenius medal from the Swedish Chemistry Society and EMBO membership.
Connection details
Zoom*: https://embl-org.zoom.us/j/96262723506?pwd=L1BNci9CcFNkREU5ZEpqUXZ1YTR1dz09
(Meeting ID: [962 6272 3506], Password: [753770])
Please note that the talk will not be recorded.
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