The dominant allele.
Dominant; genetics.
An allele that is dominated or covered up by another allele is called a recessive allele. This means that the trait associated with the recessive allele is only expressed when an individual carries two copies of that allele.
The answer is allele
Scientists describe the set of information for each form of trait as alleles. Alleles are alternative forms of a gene that can determine a specific trait in an individual. Each individual inherits two alleles for each gene, one from each parent.
The term used to describe the allele for shortness is recessive. In this case, the allele for shortness is masked or overridden by the dominant allele for tallness.
it inherited the allele that made it resisnt.
The dominant allele.
Phenotype does not belong because it represents the physical characteristics or traits of an organism, whereas genotype and allele both refer to the genetic makeup of an organism.
Recessive is a relative term used to describe the relationship to another allele termed the dominant allele. That traits of the recessive allele will only be shown if the person has two copies of the recessive allele. If a dominant allele is present, then the recessive trait will not be shown.
The allele frequency of the populations gene pool is changing.
Dominant; genetics.
An allele that is masked by the dominant allele is called a recessive allele. When an individual has one dominant allele and one recessive allele, only the trait determined by the dominant allele will be expressed. The recessive allele will only be expressed if an individual has two copies of it (homozygous recessive).
A dominant allele
When two allele pairs are identical, it is considered to be homozygous. This means that the individual carries two copies of the same allele for a particular gene.
An allele that is dominated or covered up by another allele is called a recessive allele. This means that the trait associated with the recessive allele is only expressed when an individual carries two copies of that allele.
The answer is allele