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Joseph A. Mindell, M.D., Ph.D., Senior Investigator

Dr. Mindell received his B.S. degree in Molecular Biophysics and Biochemistry from Yale University in 1986. In 1994 he received his M.D. and Ph.D. degrees from the Albert Einstein College of Medicine, where he worked with Alan Finkelstein studying the structure and function of ion channels formed by diphtheria toxin. After a residency in internal medicine at Brigham and Women's Hospital, Dr. Mindell did post-doctoral work with Chris Miller at Brandeis University; there he focused on structural and functional characterization of ClC-type chloride channels using cryoelectron microscopy and other approaches. Dr. Mindell joined NINDS as an investigator in 2002. His laboratory is using a combination of structural and functional approaches to answer mechanistic questions regarding ClC channels and other anion transport proteins.
Photo of Joseph A. Mindell, M.D., Ph.D., Senior Investigator

Staff:
Staff Photo for Membrane Transport Biophysics Section


Research Interests:
The Membrane Transport Biophysics Unit focuses on understanding the physical principles governing membrane-protein function. Our major model proteins are members of the ClC family of anion-transport proteins. Use a combination of biochemical and physiological approaches, we seek to understand the protein elements mediating chloride selectivity as well as those involved in regulating the passage of ions across the membrane. Recent developments, including the determination of a high-resolution structure of a bacterial ClC, have allowed us to focus our attention on particular regions of these proteins, which we explore with combinations of biochemistry, genetic mutation, and electrical recordings.

Currently, we are using fluorescence-based methods to determine the nature and magnitude of conformational changes involved in the transport mechanism of ClC-ec1. We also measure the chloride and proton fluxes through these transporters using electrical recordings in lipid bilayer membranes as a means to probe the functional behavior of these proteins.

We are also interested in other transport proteins. Bacterial genome projects continue to reveal that these so-called ‘lower’ organisms express membrane proteins which are remarkably similar to their physiologically important mammalian cousins. Furthermore, compared to their ‘higher’ counterparts, these bacterial proteins are often more chemically stable and are easier to purify in large quantities, rendering them amenable to structural analysis. We have expressed several such proteins, and are pursuing more detailed analysis of their function and architecture.


Selected Recent Publications:
  • Compton ELR, Taylor EM, Mindell JA (2010) The 3-4 loop of an archael glutamate transporter homolog experiences ligand-induced structural changes and is essential for transport, PNAS doi/10.1073/pnas.1003046107.

  • Ryan RM, Compton, ELR, Mindell JA (2009) Functional characterization of a Na+-dependent aspartate transporter from Pyrococcus horikoshii., Journal of Biological Chemistry 284, 17540-8.

  • Osteen J and Mindell JA (2008) Insights into the ClC-4 transport mechanism from studies of Zn2+ inhibition., Biophysical Journal 95, 4668-75.

  • Graves AR. Curran PK, Smith CL, Mindell JA (2008) The Cl-/H+ antiporter ClC-7 is the primary chloride permeation pathway in lysosomes, Nature doi:10.1038/nature06907. Full Text/Abstract

  • Ryan RM and Mindell JA (2007) The uncoupled chloride conductance of a bacterial glutamate, Nature Structural and Molecular Biology 14, 365-71. Full Text/Abstract

  • Bell SP, Curran PK, Choi S, and JA Mindell (2006) Site-directed fluorescence studies of a prokaryotic ClC transporter, Biochemistry 45, 6773.

All Selected Publications


Contact Information:

Dr. Joseph A. Mindell
Membrane Transport Biophysics Section, NINDS
Porter Neuroscience Research Center
Building 35, Room 3B-1014
35 Convent Drive, MSC 3701
Bethesda, MD 20892-3701

Telephone: (301) 402-3473 (office), (301) 435-5666 (fax)
Email: mindellj@ninds.nih.gov

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