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1
Content available remote Molecular models of human visual pigments: insight into the atomic bases of spectral tuning
100%
Centola F. , Polticelli F.
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tom Vol. 12, no. 3
141--146
EN
The cycle of vision is a chain of biochemical reactions that occur after exposure of the pigments to the light. The known mechanisms of the transduction of the light pulse derive mainly from studies on bovine rhodopsin. The objective of this work is to construct molecular models of human rhodopsin and opsins, for which threedimensional structures are not available, to analyze the retinal environment and identify the similarities and differences that characterize the human visual pigments. One of the main results of this work is the identification of Glu102 as the probable second counterion of the Schiff base in M opsin (green pigments) and L opsin (red pigments). Further, the analysis of the molecular models allows uncovering the molecular bases of the different absorption maxima of M and L opsins with respect to rhodopsin and S opsin. These differences appear to be due to both an increase in the polarity of the retinal environment and specific electrostatic interactions, which determine a reorganization of the electronic distribution of retinal by selectively stabilizing one of the two resonance forms.
2
Visual and archaeal rhodopsins: similarities, differences and controversy
100%
Bryl K.
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2003
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tom 08
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nr 2
EN
Rhodopsins are currently known to belong to two distinct protein families. The visual rhodopsins, found in eyes throughout the animal kingdom, are photosensory pigments. Archaeal rhodopsins, found in extreme halophiles, function as light-driven proton pumps (bacteriorhodopsins), chloride ion pumps (halorhodopsins), or photosensory receptors (sensory rhodopsins). Light absorption by rhodopsins triggers their characteristic photoconversion extending into the (milli)second time range. There are three main paradigms of rhodopsins photoconversion. (1) Initiation of the trans-cis isomerization is the very primary consequence of light absorption. (2) Rhodopsins store light energy via the charge-separation mechanism (the charge of Schiff base is separated from its counterion). (3) Full trans-cis isomerization of the chromophore is a prerequisite for the full biological activity of rhodopsins. These paradigms will be questioned.
3
Content available remote Photoreceptor guanylate cyclase variants: cGMP production under control.
86%
Sokal I. , Alekseev A. , Palczewski K.
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tom 50
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nr 4
1075-1095
EN
Changes in the Ca2+ concentration are thought to affect many processes, including signal transduction in a vast number of biological systems. However, only in few cases the molecular mechanisms by which Ca2+ mediates its action are as well understood as in phototransduction. In dark-adapted photoreceptor cells, the equilibrium level of cGMP is maintained by two opposing activities, such as phosphodiesterase (PDE) and guanylate cyclase (GC). Upon absorption of photons, rhodopsin-G-protein-mediated activation of PDE leads to a transient decrease in [cGMP] and subsequently to lowering of [Ca2+]. In turn, lower [Ca2+] increases net production of cGMP by stimulation of GC until dark conditions are re-established. This activation of GC is mediated by Ca2+-free forms of Ca2+-binding proteins termed GC-activating proteins (GCAPs). The last decade brought the molecular identification of GCs and GCAPs in the visual system. Recent efforts have been directed toward understanding the properties of GC at the physiological and structural levels. Here, we summarize the recent progress and present a list of topics of ongoing research.
4
Visual and archaeal rhodopsins: similarities, differences, and controversy
86%
Bryl K.
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nr Suppl.
5
Photoreceptor guanylate cyclase variants: cGMP production under control
72%
Sokal I. , Alekseev A. , Palczewski K.
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nr 4
EN
Changes in the Ca2+ concentration are thought to affect many processes, including signal transduction in a vast number of biological systems. However, only in few cases the molecular mechanisms by which Ca2+ mediates its action are as well understood as in phototransduction. In dark-adapted photoreceptor cells, the equilibrium level of cGMP is maintained by two opposing activities, such as phosphodiesterase (PDE) and guanylate cyclase (GC). Upon absorption of photons, rhodopsin-G-protein- mediated activation of PDE leads to a transient decrease in [cGMP] and subsequently to lowering of [Ca2+]. In turn, lower [Ca2+] increases net production of cGMP by stimulation of GC until dark conditions are re-established. This activation of GC is mediated by Ca2+-free forms of Ca2+-binding proteins termed GC-activating proteins (GCAPs). The last decade brought the molecular identification of GCs and GCAPs in the visual system. Recent efforts have been directed toward understanding the properties of GC at the physiological and structural levels. Here, we summarize the recent progress and present a list of topics of ongoing research.
6
Pineal photosensitivity. A comparison with retinal photoreception
58%
Meissl H. , Yanez J.
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tom 54
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nr S
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