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People | Madabhushi Lab | UT Southwestern, Dallas, Texas
https://labs.utsouthwestern.edu/madabhushi-lab/people
Get to know our Principal Investigator and team of researchers at Madabhushi Lab.
Contact | Huber Lab | UT Southwestern, Dallas, Texas
https://labs.utsouthwestern.edu/huber-lab/contact
Contact us to get involved at Huber Lab.
News | Huber Lab | UT Southwestern, Dallas, Texas
https://labs.utsouthwestern.edu/huber-lab/news
Huber Lab News
Join Us | Madabhushi Lab | UT Southwestern, Dallas, Texas
https://labs.utsouthwestern.edu/madabhushi-lab/join-us
If you're interested in joining our team, please reach out to learn more about open positions at Madabhushi Lab
Contact | Syeda Lab | UT Southwestern, Dallas, Texas
https://labs.utsouthwestern.edu/syeda-lab/contact
Contact us to get involved at Syeda Lab.
Join Our Lab | Syeda Lab | UT Southwestern, Dallas, Texas
https://labs.utsouthwestern.edu/syeda-lab/join-our-lab
If you're interested in joining our team, please reach out to learn more about open positions.
Research | Syeda Lab | UT Southwestern, Dallas, Texas
https://labs.utsouthwestern.edu/syeda-lab/research
Our lab's focus is to develop novel tools aimed at understanding ion channel physiology and molecular mechanism in an isolated membrane environment.
People | Syeda Lab | UT Southwestern, Dallas, Texas
https://labs.utsouthwestern.edu/syeda-lab/people
Get to know our Principal Investigator and team of researchers at Syeda Lab
Publications | Syeda Lab | UT Southwestern, Dallas, Texas
https://labs.utsouthwestern.edu/syeda-lab/publications
Publications for Dr. Ruhma Syeda
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.