An organism that has two identical alleles for a trait is known as a homozygote or a homozygous organism.
homozygous organisms
Homozygous for that locus.
Homozygous for that allele.
Homozygous
When there are heterozygous alleles for a gene thy code for a different expression of the gene. For example, the gene to taste PTC paper is a single gene trait. A person will have two copies (or alleles) for that gene (one from their mothers DNA, one from their father). There are two possible expressions for this gene - either you can taste the chemical or you cannot. When one allele is for tasting, and the other for not tasting, this is known as heterozygous. Both alleles are relating to the same gene but they giving different instructions and are thus not identical. When this happens, the dominant gene wins - in this case tasting is expressed. If the alleles are identical, they are known as homozygous and they are identical.
When the alleles are identical, the individual is homozygous for that trait. While if the pair is made of two different alleles.
It sounds like you are referring to homozygous vs heterozygous. If an organism has two identical alleles of the same gene, it is said to be homozygous. If an organism has two different alleles of the same gene, it is said to be heterozygous.If a homozygous organism has two identical dominantalleles, it is said to be homozygous dominant, while an organism with two identical recessive alleles is said to be homozygous recessive.If this was not what you're asking, please clarify your question on the discussion page so someone can improve this answer.
The term is homozygous.This means that the alleles of a particular gene, at a particular locus on a specific chromosome, are the same.
When identical: homozygous. when different: heterozygous.
We call a gene that has two different alleles heterozygous.
the organism that have two identical alleles would be called homozygous for that particular gene.
Homozygous refers to an individual having two identical alleles for a particular gene (i.e., both alleles are the same - either dominant or recessive). This can result in a higher likelihood of expressing a specific trait.
i think what it is having two identical alleles for a particular gene
When there are heterozygous alleles for a gene thy code for a different expression of the gene. For example, the gene to taste PTC paper is a single gene trait. A person will have two copies (or alleles) for that gene (one from their mothers DNA, one from their father). There are two possible expressions for this gene - either you can taste the chemical or you cannot. When one allele is for tasting, and the other for not tasting, this is known as heterozygous. Both alleles are relating to the same gene but they giving different instructions and are thus not identical. When this happens, the dominant gene wins - in this case tasting is expressed. If the alleles are identical, they are known as homozygous and they are identical.
An individual with two alleles for a trait is considered homozygous if the alleles are the same (e.g., BB or bb) and heterozygous if the alleles are different (e.g., Bb). The combination of alleles determines the individual's genotype and can influence their phenotype.
When the alleles are identical, the individual is homozygous for that trait. While if the pair is made of two different alleles.
It sounds like you are referring to homozygous vs heterozygous. If an organism has two identical alleles of the same gene, it is said to be homozygous. If an organism has two different alleles of the same gene, it is said to be heterozygous.If a homozygous organism has two identical dominantalleles, it is said to be homozygous dominant, while an organism with two identical recessive alleles is said to be homozygous recessive.If this was not what you're asking, please clarify your question on the discussion page so someone can improve this answer.
Every gene has a dominant and recessive allele, homozygous is just when a gene has either two dominant alleles or two recessive alleles.
heterozygous for that specific gene.
An allele of a gene resides on a chromosome; as there are typically two chromosomal copies in an individual Cell, there are typically two alleles of each and every gene in the individuals genome, or its genetic complement.
Hom and het are abbreviations commonly used in genetics to refer to genotypes. "Hom" stands for homozygous, indicating that an individual has two identical alleles for a particular gene. "Het" stands for heterozygous, indicating that an individual has two different alleles for a particular gene.