Biophysical Modeling of a Drosophila Photoreceptor

机译：果蝇感光体的生物物理建模

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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 fly 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.

机译：尚不清楚视网膜中神经元的不同层如何共同处理视觉信息。特别是，人们对视网膜如何将巨大的环境光变化转化为有限范围的神经反应知之甚少。我们开始以相对简单的方式以自下而上的方式研究这个问题。为了了解复杂的生物分子相互作用如何控制光输入到电压输出（光转导）的转换，我们正在建立果蝇R1-R6感光体的生物物理模型。我们的模型将潜在生化反应的分子动力学与外部光输入相关联，试图以定量方式捕获光转导增益控制的分子动力学。

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《International conference on neural information processing;ICONIP 2009》|2009年|P.57-71|共15页
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作者
Zhuoyi Song; Daniel Coca; Stephen Billings; Marten Postma; Roger C. Hardie; Mikko Juusola;
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中图分类信息处理（信息加工）;
关键词
biophysical model; drosophila photoreceptor; phototrans-duction cascade; gillespie algorithm; hodgkin-huxley model;

机译：生物物理模型果蝇感光器;光转导级联吉莱斯皮算法;霍奇金-赫x黎模型;

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专利

1. Does calcium diffusional global feedback leads to slow light adaptation in Drosophila photoreceptors? - A 3D biophysical modelling approach [J] . Zhuoyi Song, Marten Postma, Weiliang Chen, BMC Neuroscience . 2011,第SUPPLEMENTa1期

机译：钙扩散的整体反馈会导致果蝇感光细胞的光适应缓慢吗？ -3D生物物理建模方法
2. The roles of Syx5 in Golgi morphology and Rhodopsin transport in Drosophila photoreceptors The roles of Syx5 in Golgi morphology and Rhodopsin transport in Drosophila photoreceptors The roles of Syx5 in Golgi morphology and Rhodopsin transport in Drosophila photoreceptors [J] . Yuri Nakamura, Takunori Satoh, Akiko K. Satoh Biology Open . 2016,第10期

机译：Syx5在果蝇感光器中的高尔基体形态和视紫红质转运中的作用Syx5在果蝇感光器中的高尔基体形态和视紫红质转运中的作用Syx5在果蝇感光器中的果胶体形态和视紫红质转运中
3. The roles of Syx5 in Golgi morphology and Rhodopsin transport in Drosophila photoreceptors The roles of Syx5 in Golgi morphology and Rhodopsin transport in Drosophila photoreceptors The roles of Syx5 in Golgi morphology and Rhodopsin transport in Drosophila photoreceptors [J] . Yuri Nakamura, Takunori Satoh, Akiko K. Satoh Biology Open . 2016,第10期

机译：Syx5在果蝇感光器中的高尔基体形态和视紫红质转运中的作用Syx5在果蝇感光器中的高尔基体形态和视紫红质转运中的作用Syx5在果蝇感光器中的果胶体形态和视紫红质转运中
4. Biophysical Modeling of a Drosophila Photoreceptor [C] . Zhuoyi Song, Daniel Coca, Stephen Billings, International Confernece on Neural Information Processing . 2009

机译：果蝇光感受器的生物物理学建模
5. Unlocking Mouse Cone Photoreceptors: Phototransduction and Biophysics [D] . Ingram, Norianne Theresa. 2019

机译：解锁鼠标锥形光感受器：光电或生物物理学
6. Does calcium diffusional global feedback leads to slow light adaptation in Drosophila photoreceptors? - A 3D biophysical modelling approach [O] . Zhuoyi Song, Marten Postma, Weiliang Chen, 2011

机译：钙扩散的整体反馈会导致果蝇感光细胞的光适应缓慢吗？ -3D生物物理建模方法
7. Does Calcium diffusional global feedback leads to slow light adaptation in Drosophila photoreceptors? - A 3D biophysical modelling approach [O] . 2011

机译：钙扩散的整体反馈会导致果蝇感光细胞的光适应缓慢吗？ -3D生物物理建模方法

Biophysical Modeling of a Drosophila Photoreceptor

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