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Biochemistry Experts

Richard brown

Professor
Department of Physiology and Biophysics
Dalhousie University
Canada

Biography

Dr. RICHARD BROWN is affiliated to Department of Physiology and Biophysics, Dalhousie University. Dr. RICHARD BROWN is currently providing services as Professor, . Dr. RICHARD BROWN has authored I145and co-authored multiple peer-reviewed scientific papers and presented works at many national and International conferences. Dr. RICHARD BROWN contributions have acclaimed recognition from honourable subject experts around the world. Dr. RICHARD BROWN is actively associated with different societies and academies. Dr. RICHARD BROWN academic career is decorated with several reputed awards and funding. Dr. RICHARD BROWN research interests include specialized in the bidirectional neural signaling between photoreceptors and horizontal cells, showing that many critical features of these synaptic interactions, which underlie the formation of center-surround antagonistic receptive fields, involve ion channel modulation by neural messengers. Dr. RICHARD BROWN is affiliated to Department of Physiology and Biophysics, Dalhousie University. Dr. RICHARD BROWN is currently providing services as Professor, . Dr. RICHARD BROWN has authored I145and co-authored multiple peer-reviewed scientific papers and presented works at many national and International conferences. Dr. RICHARD BROWN contributions have acclaimed recognition from honourable subject experts around the world. Dr. RICHARD BROWN is actively associated with different societies and academies. Dr. RICHARD BROWN academic career is decorated with several reputed awards and funding. Dr. RICHARD BROWN research interests include specialized in the bidirectional neural signaling between photoreceptors and horizontal cells, showing that many critical features of these synaptic interactions, which underlie the formation of center-surround antagonistic receptive fields, involve ion channel modulation by neural messengers.

Research Interest

specialized in the bidirectional neural signaling between photoreceptors and horizontal cells, showing that many critical features of these synaptic interactions, which underlie the formation of center-surround antagonistic receptive fields, involve ion channel modulation by neural messengers

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