Visual purple, also known as rhodopsin, is a visual pigment found in the rods of the retina. It is responsible for the eye's ability to perceive light and transmit visual signals to the brain. Visual purple is composed of an opsin protein and a retinal chromophore. When light hits rhodopsin, it changes its structure, triggering a cascade of chemical reactions that ultimately generate a nerve impulse that transmits information about light to the visual center of the brain. Thus, Purpura Visualis plays a key role in the mechanism of vision in vertebrates.
Visual purple or Visual purple is the name that describes a form of pigment that is found in the retina of the eye and is involved in the perception of light and color. This pigment has the property of being converted into light when light hits it.
Visualpurple was first discovered in 1974 by a team of scientists led by chemist Karl Kivifors. The study showed that this pigment is produced during the night phase of sleep, when sleep is deep, and is included in vision only when light hits the retina.
Since this pigment is part of the photoreceptors that are responsible for the perception of light, it is not surprising that this particular pigment is involved in determining different colors. Visualpurple takes part in processing the blue and green parts of the light spectrum, giving us a more accurate assessment of the shades of each color.
Although visual magenta was discovered in the 70s, its effects on visual perception and interactions with other pigments have only recently been studied. It turns out that it plays an important role in the formation of color tones - one of the properties of light and shadow, which describes the presence of color in an environmental object. Thanks to its properties, VisualPurple maintains, changes and helps shape the tonal color of a visible object.
In addition, analysis of previous studies shows