Biophysical modelling of a drosophila photoreceptor
Song, Z., Coca, D., Billings, S. et al. (3 more authors)
(2009)
Biophysical modelling of a drosophila photoreceptor.
Research Report.
ACSE Research Report no. 996
.
Automatic Control and Systems Engineering, University of Sheffield
Abstract
It remains unclear how visual information is co-processed
by different layers of neurons in the retina. In particular, relatively little is known how retina translates vast environmental light changes into
neural responses of limited range. We began examining this question in a bottom-up way in a relatively simple °y eye. To gain understanding of how complex bio-molecular interactions govern the conversion of light input into voltage output (phototransduction), we are building a
biophysical model of the Drosophila R1-R6 photoreceptor. Our model, which relates molecular dynamics of the underlying biochemical reactions to external light input, attempts to capture the molecular dynamics of
phototransduction gain control in a quantitative way.
Metadata
Item Type:
Monograph
Authors/Creators:
Song, Z.
Coca, D.
Billings, S.
Postma, M.
Hardie, R.C.
Juusola, M.
Copyright, Publisher and Additional Information:
The Department of Automatic Control and Systems Engineering research reports offer a forum for the research output of the academic staff and research students of the Department at the University of Sheffield. Papers are reviewed for quality and presentation by a departmental editor. However, the contents and opinions expressed remain the responsibility of the authors. Some papers in the series may have been subsequently published elsewhere and you are advised to cite the later published version in these instances.
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