Experimental confinement of the transient receptor potential to the peripheral retinula cells in the trp mutant Drosophila: What it tells us about the mutation and visual function

Abstract

By the use of appropriate light intensities the expression of the transient nature of the receptor potential observed in the trp mutant of Drosophila melanogaster can be confined to the peripheral retinula cells in which the visual pigment can also be manipulated predictably, affording an experimental means to probe in these receptors the relationship of the visual pigment to the “electrogenic membrane”. Repeated blue light exposures cause w;trp flies to respond in a manner like cn;bw flies in which the dark-adapted rhodopsin fraction is reduced to 0.5% of the normal level by vitamin A deprivation: this comparable response behaviour, since the amount of visual pigment in w;trp flies is normal, implies that only some subfraction of the photoequilibrium value of rhodopsin may be available. Recovery of the peripheral receptors' sensitivity in ambient light conditions which would render them insensitive by expression of the phenotype is paradoxical and allows a “wavelength effectivity” curve to be constructed which identifies the involvement of the rhodopsin. Resolution of the paradox is discussed.