Biology, asked by Lastking4053, 1 year ago

Which aleele will rise faster dominant or recessive?

Answers

Answered by DEAN007
0

Answer: idk bro, sorry google it

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Explanation:

Answered by asimkhan33329
0

Answer:

An allele becomes dominant or recessive due to it gain of function or loss of function.

Through mutation ,environmental factors ,adaptation an allele gain characteristics or loose its genetic characteristics.

When it gain characteristics it becomes dominant and when it loses its characteristics it becomes recessive.

Wild type alleles typically encode a product necessary for a specific biological function. If a mutation occurs in that allele, the function for which it encodes is also lost. The general term for these mutations is loss-of-function mutations. The degree to which the function is lost can vary. If the function is entirely lost, the mutation is called a null mutation. If is also possible that some function may remain, but not at the level of the wild type allele. These are called leaky mutations.

Loss of function mutations are typically recessive. When a heterozygote consists of the wild-type allele and the loss-of-function allele, the level of expression of the wild type allele is often sufficient to produce the wild type phenotype. Genetically this would define the loss-of-function mutation as recessive. Alternatively, the wild type allele may not compensate for the loss-of-function allele. In those cases, the phenotype of the heterozygote will be equal to that of the loss-of-function mutant, and the mutant allele will act as a dominant.

Although it would be expected that most mutations would lead to a loss of function, it is possible that a new and important function could result from the mutation. In these cases, the mutation creates a new allele that is associated with a new function. Any heterozygote containing the new allele along with the original wild type allele will express the new allele. Genetically this will define the mutation as a dominant. This class of mutations are called gain-of-function mutations.

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