The gain of rod phototransduction: Reconcillation of biochemical and electrophysiological measurements

Ilya B. Leskov; Vadim A. Klenchin; Jason W. Handy; Gary G. Whitlock; Viktor I. Govardovskii; M. Deric Bownds; Trevor D. Lamb; Edward N. Pugh; Vadim Y. Arshavsky

doi:10.1016/S0896-6273(00)00063-5

The gain of rod phototransduction: Reconcillation of biochemical and electrophysiological measurements

Ilya B. Leskov, Vadim A. Klenchin, Jason W. Handy, Gary G. Whitlock, Viktor I. Govardovskii, M. Deric Bownds, Trevor D. Lamb, Edward N. Pugh, Vadim Y. Arshavsky^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

171 Citations (Scopus)

Abstract

We have resolved a central and long-standing paradox in understanding the amplification of rod phototransduction by making direct measurements of the gains of the underlying enzymatic amplifiers. We find that under optimized conditions a single photoisomerized rhodopsin activates transducin molecules and phosphodiesterase (PDE) catalytic subunits at rates of 120-150/s, much lower than indirect estimates from light-scattering experiments. Further, we measure the Michaelis constant, K(m), of the rod PDE activated by transducin to be 10 μM, at least 10-fold lower than published estimates. Thus, the gain of cGMP hydrolysis (determined by k(cat)/K(m)) is at least 10-fold higher than reported in the literature. Accordingly, our results now provide a quantitative account of the overall gain of the rod cascade in terms of directly measured factors.

Original language	English
Pages (from-to)	525-537
Number of pages	13
Journal	Neuron
Volume	27
Issue number	3
DOIs	https://doi.org/10.1016/S0896-6273(00)00063-5
Publication status	Published - 2000
Externally published	Yes

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title = "The gain of rod phototransduction: Reconcillation of biochemical and electrophysiological measurements",

abstract = "We have resolved a central and long-standing paradox in understanding the amplification of rod phototransduction by making direct measurements of the gains of the underlying enzymatic amplifiers. We find that under optimized conditions a single photoisomerized rhodopsin activates transducin molecules and phosphodiesterase (PDE) catalytic subunits at rates of 120-150/s, much lower than indirect estimates from light-scattering experiments. Further, we measure the Michaelis constant, K(m), of the rod PDE activated by transducin to be 10 μM, at least 10-fold lower than published estimates. Thus, the gain of cGMP hydrolysis (determined by k(cat)/K(m)) is at least 10-fold higher than reported in the literature. Accordingly, our results now provide a quantitative account of the overall gain of the rod cascade in terms of directly measured factors.",

author = "Leskov, \{Ilya B.\} and Klenchin, \{Vadim A.\} and Handy, \{Jason W.\} and Whitlock, \{Gary G.\} and Govardovskii, \{Viktor I.\} and Bownds, \{M. Deric\} and Lamb, \{Trevor D.\} and Pugh, \{Edward N.\} and Arshavsky, \{Vadim Y.\}",

year = "2000",

doi = "10.1016/S0896-6273(00)00063-5",

language = "English",

volume = "27",

pages = "525--537",

journal = "Neuron",

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number = "3",

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TY - JOUR

T1 - The gain of rod phototransduction

T2 - Reconcillation of biochemical and electrophysiological measurements

AU - Leskov, Ilya B.

AU - Klenchin, Vadim A.

AU - Handy, Jason W.

AU - Whitlock, Gary G.

AU - Govardovskii, Viktor I.

AU - Bownds, M. Deric

AU - Lamb, Trevor D.

AU - Pugh, Edward N.

AU - Arshavsky, Vadim Y.

PY - 2000

Y1 - 2000

N2 - We have resolved a central and long-standing paradox in understanding the amplification of rod phototransduction by making direct measurements of the gains of the underlying enzymatic amplifiers. We find that under optimized conditions a single photoisomerized rhodopsin activates transducin molecules and phosphodiesterase (PDE) catalytic subunits at rates of 120-150/s, much lower than indirect estimates from light-scattering experiments. Further, we measure the Michaelis constant, K(m), of the rod PDE activated by transducin to be 10 μM, at least 10-fold lower than published estimates. Thus, the gain of cGMP hydrolysis (determined by k(cat)/K(m)) is at least 10-fold higher than reported in the literature. Accordingly, our results now provide a quantitative account of the overall gain of the rod cascade in terms of directly measured factors.

AB - We have resolved a central and long-standing paradox in understanding the amplification of rod phototransduction by making direct measurements of the gains of the underlying enzymatic amplifiers. We find that under optimized conditions a single photoisomerized rhodopsin activates transducin molecules and phosphodiesterase (PDE) catalytic subunits at rates of 120-150/s, much lower than indirect estimates from light-scattering experiments. Further, we measure the Michaelis constant, K(m), of the rod PDE activated by transducin to be 10 μM, at least 10-fold lower than published estimates. Thus, the gain of cGMP hydrolysis (determined by k(cat)/K(m)) is at least 10-fold higher than reported in the literature. Accordingly, our results now provide a quantitative account of the overall gain of the rod cascade in terms of directly measured factors.

UR - https://www.scopus.com/pages/publications/0033680726

U2 - 10.1016/S0896-6273(00)00063-5

DO - 10.1016/S0896-6273(00)00063-5

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AN - SCOPUS:0033680726

SN - 0896-6273

VL - 27

SP - 525

EP - 537

JO - Neuron

JF - Neuron

IS - 3

ER -

The gain of rod phototransduction: Reconcillation of biochemical and electrophysiological measurements

Abstract

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