视觉色素的光化学:从分子结合和异构化角度解释光谱变化。

Revue canadienne de biologie Pub Date : 1978-12-01
F I Hárosi, J Favrot, J M Leclercq, D Vocelle, C Sándorfy
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引用次数: 0

摘要

提出了视觉过程中光化学部分的统一观点。为了阐明视觉过程的机制,必须考虑视紫红质的构象变化和分子间相互作用的变化,这些变化从视紫红质经过batho-lumi-和meta-I -到meta-II-视紫红质。分子间的主要联系被认为是涉及希夫碱氮原子的氢键和负基团与β -离子环之间的相互作用。两者一起可以用来解释没有实际质子化的视紫红质的吸收波长。主要思路如下:当光被吸收时,希夫碱的碱度显著增加。这就触发了氢键中的质子转移。同时开始顺反异构化,但仅在后视紫红素- ii处达到共面全反阶段。Lumi-, meta-I和meta-II是逐步异构化的中转站,光子的能量与热能一起被使用。Batho-可能仍然接近11-cis然后依次变成13-cis和15-cis。在脊椎动物的视紫红质中,在meta-II阶段,氢键和β -离子相互作用都被切断,meta-II暴露于水分子的攻击之下。强调了C=N键的顺反异构化的重要性。产生信号所必需的不可逆性要求质子不会回到它原来的供体。讨论了供体的可能身份:它可能是氨基酸或脂质的极性部分。讨论了细菌视紫红质、鱿鱼视紫红质和鸡碘紫质的相关观察结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Photochemistry of visual pigments: an interpretation of spectral changes in terms of molecular associations and isomerization.

A unified view of the photochemical part of the visual process is presented. It is proposed that both conformational changes and changes in intermolecular interactions in the sequence that leads from rhodopsin through batho-lumi- and meta-I to meta-II- rhodopsin have to be considered in order to elucidate the mechanism of the visual process. The main intermolocular associations are assumed to be the hydrogen bond involving the nitrogen atom of the Schiff base and the interaction between a negative group and the beta-ionone ring. The two together can be used to explain the absorption wavelength of rhodopsin without actual protonation. The main line of thought is as follows: when light is absorbed the basicity of the Schiff base increases significantly. This triggers proton transfer in the H-bond. At the same time cis-trans isomerization begins but it only reaches the coplanar all-trans stage at metarhodopsin-II. Lumi-, meta-I and meta-II are way stations in the stepwise isomerization whereby the energy of the photon is used together with thermal energy. Batho- is probably still close to 11-cis which then becomes successively strained 13-cis and 15-cis. In vertebrate rhodopsins at the meta-II stage both the H-bond and the beta-ionone interaction are severed and meta-II becomes exposed to attack by water molecules. The importance of syn-anti isomerization on the C=N bond is emphasized. The irreversibility necessary for the production of a signal requires that the proton does not return to its original donor. The possible identity of the donor is discussed: it might be an amino acid or the polar part of a lipid. Relevant observations made on bacteriorhodopsin, squid rhodopsin and chicken iodopsin are discussed.

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