Josef Lazar, Ph.D.
Degree
Position
Chair, Dept. of Biological Dynamics (UFB)
Zámek 136, CZ-37333 Nové Hrady
lazar@usbe.cas.cz
www.usbe.cas.cz/people/lazar
Current projects
Development of a voltage sensitive fluorescent protein / Organization of the mammalian odorant and pheromone detection systems
The brain is an electric organ. Therefore, being able to monitor membrane voltage of neurons is crucial for understanding of how the brain works. While it is possible to monitor electrical activity of neurons both directly (using electrodes) and indirectly (using voltage sensitive dyes), both of these approaches have severe limitations. Electrophysiological methods allow monitoring of only a few cells at a time. Voltage sensitive dyes have seen only limited applications due to their toxicity and low staining selectivity. Having a genetically encoded optical sensor of membrane voltage, a voltage sensitive fluorescent protein, would avoid the drawbacks of the current methods and allow detailed monitoring of complete neural circuits and neuronal assemblies. This in turn would allow us to decipher the organizing principles of the brain, as well as the particulars of individual neural systems. Our goal is to understand how the brain works. That is why we are working on developing a voltage sensitive fluorescent protein.
Developing a usable voltage sensitive fluorescent protein is a hard, multidisciplinary problem. While several attempts to solve it have been published by laboratories at top universities, no one has so far succeeded. Using innovative approaches spanning methods of non-linear optics, mathematical modeling, biophysics and molecular biology, we have made significant progress, and we are expecting several major papers to come out of our lab in near future.
Along the way towards developing a voltage sensitive fluorescent protein we have gained insights that should allow rapid development of genetically encoded sensors of many cell processes, with numerous scientific and commercial applications. Thus, while maintaining focus on development of a voltage sensitive fluorescent protein, we are now developing other genetically encoded sensors as well.
Of particular interest to us are sensors of various aspects of neural activity (activation/inactivation of receptor proteins, opening/closing of ion channels), especially if applicable to studies of mammalian olfactory/pheromone detection systems. While our past work focused on biochemistry of soluble proteins involved in odorant/pheromone transport and recognition, our current interest lies in the development and organization of the neural systems responsible for detection and recognition of odorants and pheromones in mammals.
Past Projects
1993 | B.Sc., Chemistry, Charles University, Prague, Czech Republic |
1996 | M.Sc., Organic Chemistry, Charles University / Institute of Organic Chemistry & Biochemistry AS CR, Prague, Czech Republic (laboratory of Miroslav Koutek) |
2001 | Ph.D., Medicinal Chemistry, University of Utah, Salt Lake City, USA (laboratory of Glenn D. Prestwich) |
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2002 - 2005 | Postdoctoral research fellow, Dept. of Biological Sciences, Columbia University, USA (laboratory of Stuart Firestein) |
2006 - 2007 | Columbia Science Fellow, Dept. of Biological Sciences, Columbia University, USA (laboratory of Stuart Firestein) |
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2007 - | Head, Laboratory of Cell Biology, Institute of Systems Biology & Ecology, Academy of Sciences of the Czech Republic, Nove Hrady, Czech Republic |
2007 - | Chair, Dept. of Biological Dynamics, Institute of Physical Biology, University of South Bohemia, Nove Hrady, Czech Republic |
2007 - | Head, Laboratory of Molecular Neurobiology, Faculty of Natural Sciences, University of South Bohemia, Ceske Budejovice, Czech Republic |
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Awards and Fellowships:
1991, 1995 | Academic Scholarship Award, Charles University |
2000 | University of Utah Graduate Research Fellowship |
2001 | Don Tucker Memorial Award by the Association for Chemoreception Sciences |
2002 | R.L. Kirschstein NRSA Fellowship (NIH) |
2003 | McKnight Technological Innovations in Neuroscience Award, with S. Firestein |
2003 | Invited lecture, IUPAC meeting, Ottawa, ON, Canada |
2006 | Columbia Science Fellowship |
2007 | Special grant in the Chemical Sciences, The Camille & Henry Dreyfus Foundation |
2007 | Marie Curie Reintegration Grant |
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Hoskovec M., Koutek B., Lazar J., Streinz L., Brozova E., Kalinova B., Vrkoc J.; a,a-Disubstituted Allyl Sulfones: An Approach to the Synthesis of Vinyl-Branched Pheromone Analogues; Helvetica Chimica Acta 77, 1281-1287, 1994
Koutek B., Hoskovec M., Lazar J.; Estimation of Critical Properties from the Number of Carbon Atoms in Homologous Series; Coll. of Czechoslovak Chem. Commun. 59, 1483-1493, 1994
Plettner E., Lazar J., Prestwich E., Prestwich G.D.; Discrimination of Pheromone Enantiomers by Two Pheromone Binding Proteins from the Gypsy Moth, Lymantria dispar; Biochemistry 39, 8953-62, 2000
Lazar J., Greenwood D.R., Rasmussen L.E.L., Prestwich G.D.; Molecular and Functional Characterization of An Odorant Binding Protein of the Asian Elephant, Elephas maximus: Implications for the role of lipocalins in mammalian olfaction; Biochemistry 41, 11786-94, 2002
Rasmussen L.E.L., Lazar J., Greenwood D.R.; Olfactory Adventures of Elephantine Pheromones.
Biochem. Soc. Trans. 31, 137-41, 2003
Lazar J., Rasmussen L.E.L., Greenwood D.R., Bang I.S., Prestwich G.D.; Elephant albumin: a multipurpose pheromone shuttle; Chemistry & Biology, 11(8), 1093-100, 2004
Several major publications in preparation.