Pak W L, Lidington K J
J Gen Physiol. 1974 Jun;63(6):740-56. doi: 10.1085/jgp.63.6.740.
A rapid electrical potential, which we have named the M-potential, can be obtained from the Drosophila eye using a high energy flash stimulus. The potential can be elicited from the normal fly, but it is especially prominent in the mutant norp A(P12) (a phototransduction mutant), particularly if the eye color pigments are genetically removed from the eye. Several lines of evidence suggest that the M-potential arises from photoexcitation of long-lived metarhodopsin. Photoexcitation of rhodopsin does not produce a comparable potential. The spectral sensitivity of the M-potential peaks at about 575 nm. The M-potential pigment (metarhodopsin) can be shown to photoconvert back and forth with a "silent pigment(s)" absorbing maximally at about 485 nm. The silent pigment presumably is rhodopsin. These results support the recent spectrophotometric findings that dipteran metarhodopsin absorbs at much longer wavelengths than rhodopsin. The M-potential probably is related to the photoproduct component of the early receptor potential (ERP). Two major differences between the M-potential and the classical ERP are: (a) Drosophila rhodopsin does not produce a rapid photoresponse, and (b) an anesthetized or freshly sacrificed animal does not yield the M-potential. As in the case of the ERP, the M-potential appears to be a response associated with a particular state of the fly visual pigment. Therefore, it should be useful in in vivo investigations of the fly visual pigment, about which little is known.
利用高能闪光刺激,可从果蝇眼睛中获得一种快速电势,我们将其命名为M电势。这种电势可从正常果蝇中引出,但在突变体norp A(P12)(一种光转导突变体)中尤为显著,特别是当从眼睛中通过基因手段去除眼色色素时。多条证据表明,M电势源自长寿命变视紫红质的光激发。视紫红质的光激发不会产生类似的电势。M电势的光谱敏感性在约575纳米处达到峰值。M电势色素(变视紫红质)可被证明能与一种在约485纳米处有最大吸收的“沉默色素”来回进行光转换。推测这种沉默色素就是视紫红质。这些结果支持了最近的分光光度法研究结果,即双翅目昆虫的变视紫红质比视紫红质在长得多的波长处有吸收。M电势可能与早期受体电位(ERP)的光产物成分有关。M电势与经典ERP之间的两个主要区别在于:(a)果蝇视紫红质不会产生快速光反应,(b)麻醉或刚处死的动物不会产生M电势。与ERP的情况一样,M电势似乎是与果蝇视觉色素的特定状态相关的一种反应。因此,它在对果蝇视觉色素的体内研究中应该会很有用,而目前对果蝇视觉色素了解甚少。