Search Results for "" Meet the PI | Brown Lab | UT Southwestern, Dallas, Texas https://labs.utsouthwestern.edu/brown-lab/meet-pi Meet our Principal Investigator, E. Sherwood Brown, MD, PhD, MBA Publications | Brown Lab | UT Southwestern, Dallas, Texas https://labs.utsouthwestern.edu/brown-lab/publications Publications of Psychoneuroendocrine Research Lab Research | Huber Lab | UT Southwestern, Dallas, Texas https://labs.utsouthwestern.edu/huber-lab/research The Huber lab is focused on understanding how activity-regulated transcription and translation in neurons controls synapse and circuit plasticity and development. Mechanisms of circuit dysfunction in mouse autism models and the role of synaptic scaffolding proteins | Huber Lab | UT Southwestern, Dallas, Texas https://labs.utsouthwestern.edu/huber-lab/research/mechanisms-circuit-dysfunction-mouse-autism-models-and-role-synaptic-scaffolding In addition to our work on mechanisms of FMRP function at synapses, we have also contributed to the understanding of circuit dysfunction in Fragile X Syndrome, with a goal to reveal mechanisms of FMRP function in the brain, but also to identify therapeutic targets to correct and restore circuit function in diseases such as FXS and related autistic disorders. Regulation of Anchorage Signals Through Shc | Terada Lab | UT Southwestern, Dallas, Texas https://labs.utsouthwestern.edu/terada-lab/research/regulation-anchorage-signals-through-shc Specialized metazoan cells have diverse functions which require them to interact differently with the body’s matrix scaffolds. News | Huber Lab | UT Southwestern, Dallas, Texas https://labs.utsouthwestern.edu/huber-lab/news Huber Lab News Mechanisms of experience and activity-dependent development of synapses and circuits by genes linked to neurodevelopmental disorders | Huber Lab | UT Southwestern, Dallas, Texas https://labs.utsouthwestern.edu/huber-lab/research/mechanisms-experience-and-activity-dependent-development-synapses-and-circuits We study the cellular, synaptic and molecular mechanisms of synapse and circuit development and how this is regulated by genes implicated in autism and schizophrenia. Reactive Oxidants and Signaling | Terada Lab | UT Southwestern, Dallas, Texas https://labs.utsouthwestern.edu/terada-lab/research/reactive-oxidants-and-signaling The study of reactive oxidant species (ROS) has long been dominated by the concept that ROS are primarily of biomedical importance because of their capacity to initiate damaging reactions that cause oxidative stress and cellular injury. Research | Wu (Jun) Lab | UT Southwestern, Dallas, Texas https://labs.utsouthwestern.edu/wu-jun-lab/research Interested in our research? Learn more about the work we’re doing at Jun Wu Lab Localized, dendritic protein synthesis and its role in synaptic plasticity and neurodevelopmental disorders | Huber Lab | UT Southwestern, Dallas, Texas https://labs.utsouthwestern.edu/huber-lab/research/localized-dendritic-protein-synthesis-and-its-role-synaptic-plasticity-and To mediate long-term changes in function and structure of such numerous contacts, somewhat independently, neurons utilize “localized” protein synthesis within dendrites and near synapses. Results 2,411-2,420 of 10,000 First Previous 238 239 240 241 242 243 244 245 246 Next Last