The role of Nox-derived Reactive Oxygen Species in Axonal Growth and Guidance скачать в хорошем качестве

The role of Nox-derived Reactive Oxygen Species in Axonal Growth and Guidance

Presented By: Daniel M. Suter, PhD Speaker Biography: Dr. Daniel Suter studied Biology at the ETH Zurich in Switzerland, receiving a BS degree in Biological Sciences in 1988. He conducted graduate research on neuronal cell adhesion molecules with Prof. Peter Sonderegger in the Department of Biochemistry at the University of Zurich. After receiving a PhD in Biochemistry in 1995, he joined the laboratory of Prof. Paul Forscher at Yale University as a Postdoctoral fellow with support from the Swiss National Science Foundation and the Roche Research Foundation. Webinar: The role of Nox-derived Reactive Oxygen Species in Axonal Growth and Guidance Webinar Abstract: Reactive oxygen species (ROS) are well-known for their detrimental effects leading to oxidative stress, cell death, aging, and degenerative disorders. However, there is increasing evidence that ROS are also specifically produced to regulate cellular processes including cell proliferation, differentiation, and migration. Our group has recently demonstrated that ROS are also critical for neurite outgrowth and actin-dependent growth cone motility in cultured Aplysia neurons. In order to investigate the role of ROS derived from NADPH oxidase (Nox), a major ROS source, we moved our research into a new model system, developing zebrafish embryos. Earn PACE Credits: 1. Make sure you're a registered member of LabRoots www.labroots.com 2. Watch the webinar on YouTube or on Labroot's Website https://www.labroots.com/virtual-even... 3. Click here to get your PACE credits (Expiration Date - 09-23-2022): https://www.labroots.com/credit/pace-... This link will be located in the CMS in the webinar to CE tab - Please enable third party PACE link Labroots on Social: Facebook:   / labrootsinc   Twitter:   / labroots   LinkedIn:   / labroots   Instagram:   / labrootsinc   Pinterest:   / labroots   SnapChat: labroots_inc