kugnjunfuj
Yes, that is correct. Each trait is controlled by genes, and genes exist in different forms called alleles. For any given trait, an individual can have two allelesβone inherited from their mother and one from their father. These alleles can have different variations, resulting in different expression of the trait.
allele
Mendel examined one trait at a time in his pea plant experiments. For each trait, he had two choices: the dominant allele and the recessive allele. Therefore, there were two choices for each pea plant trait that Mendel examined.
Two (2)
It should be a dominant allele--a dominant allele's trait will be expressed over the recessive allele's trait.
an allele
A single-gene trait is a phenotypic trait controlled by two homologous alleles.
allele
For each trait, a gamete has one allele. It is haploid.
trait
Mendel examined one trait at a time in his pea plant experiments. For each trait, he had two choices: the dominant allele and the recessive allele. Therefore, there were two choices for each pea plant trait that Mendel examined.
Two (2)
It should be a dominant allele--a dominant allele's trait will be expressed over the recessive allele's trait.
an allele
Every sex cell has one allele for each trait. after meiosis, pairs of chromosomes separate and alleles for each trait also separate into different sex cells.
An allele causes a trait by either being dominant orrecessive or example, allele A will occur over allele a because it is dominant.
Allele The specific trait may be either in homozygous or heterozygous condition. The expression of the trait depends on its dominant or recessive condition.
Dominant is an allele that will always be expressed in a heterozygous individual. Recessive on other hand are traits that will only be expressed in a homozygous condition. Organisms receive one allele for each trait from each parent, thus you have two alleles for each trait.