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A trait is an inherited characteristic of an organism. One example is eye color. When a gene codes for the trait "brown eye color" we mean that the person has proteins in her eyes that are shaped to reflect the brown color. The reason she has those particular proteins is because she has the gene that is the instructions for those specific proteins. So: the gene is the instruction to make the protein that is the expression of the trait.
It is not just one gene that causes the color of eyes. Eye color genetics is complicated and it takes many genes to create an eye color. Regardless of the parents' and children's eye color any combination can occur even for the same eye color.
A gene is a segment of DNA that contains the instructions for producing a specific protein or RNA molecule. Genes determine traits such as eye color, height, and susceptibility to certain diseases. They are the fundamental units of heredity and are passed from parents to offspring.
A DNA code for one hereditary trait is called a gene. Genes are segments of DNA that encode specific instructions for producing proteins or functional RNA molecules, which ultimately determine traits like eye color, blood type, or height.
It was Thomas Hunt Morgan who concluded that the gene for eye color is located on the sex chromosome through his work with fruit flies in the early 20th century.
The eye color gene encodes for a protein called OCA2, which plays a role in determining the color of the eyes.
The gene for fruit fly eye color is located on the X chromosome. It codes for a protein called "eye color," which determines the pigmentation in the eyes of the fruit fly. Mutations in this gene can lead to different eye colors in fruit flies.
The gene located on the X chromosome that codes for a protein involved in producing eye pigment is called the OPN1LW gene. Mutations in this gene can lead to color vision deficiencies, such as red-green color blindness.
Yes you get your eye color from your parent. The parent that carries one dominant gene and one recessive gene for a specific eye color and the other parent carries two recessive genes for a different eye color, you will get the eye color of the parent who carries the dominant and recessive gene. In other words, the dominant gene trumps the recessive gene. In another scenario, if both parents carry two recessive genes for a specific eye color, then you will inherit the recessive gene of that color.
The locus for eye color is on the X chromosome.
Eye color is a polygenic phenotypic character.Eye color is determined by amount and type of pigment in eye's iris.eye color is determined by multiple genes.EYCL1 eye color- green/blue. Gene located on chromosome 19EYCL2 eye color- brown eye colorELCL3 eye color- brown/blue. Gene located on chromosome15.
Its possible. A single gene defines a single protein.
A trait is an inherited characteristic of an organism. One example is eye color. When a gene codes for the trait "brown eye color" we mean that the person has proteins in her eyes that are shaped to reflect the brown color. The reason she has those particular proteins is because she has the gene that is the instructions for those specific proteins. So: the gene is the instruction to make the protein that is the expression of the trait.
A single gene influences the color and the eye (color) of a tiger. In other words One gene. Source: Life Science book
It is not just one gene that causes the color of eyes. Eye color genetics is complicated and it takes many genes to create an eye color. Regardless of the parents' and children's eye color any combination can occur even for the same eye color.
Well eye color is a gene passed down from you parents apart from that. Nothing.
A gene is a segment of DNA that contains the instructions for producing a specific protein or RNA molecule. Genes determine traits such as eye color, height, and susceptibility to certain diseases. They are the fundamental units of heredity and are passed from parents to offspring.