It affects genetic variation, because the two parental organisms might have different alleles for each gene. For example, say a blonde eyed male and a brown eyed female reproduced, and the trait for brown eyes is dominant (Bb) and the blue eyes are recessive (bb). If they mated they would have the genotypes: Bb, and bb. Therefore, increasing variation
the chromosomes mix with monkeys to give a special flavor of wine that has 2 girls on top of Dave chappelle with a a hooker
No answer
Migration affects the genetic equilibrium of a population by maintaining it.
asexual reproduction is the process in which the cell divides into two new cells
sexual reproduction gives traits of both parents to the child where as asexual reproduction is just a copy of the original with no change at all
All genetic disorders affect the structure of proteins.
Asexual reproduction impacts genetic variation by limiting future genetic change to mutations only; sexual reproduction allows future generation to mix in a nearly infinite range of phenotypes (external appearance).
evaluate the significance of mutations and repairof mutations to the evolution of sexual reproduction
In sexual reproduction, two parents combine their geneticmaterial to form a new organim. Meanwhile, genetic variation can give the new organism a helpful trait or unhelpful trait that would affect its life and how it could life in a certain enviornment.
It affects the genetic compostion of populations by eating gummy worms
From the process of replication of a cell
From the process of replication of a cell
From the process of replication of a cell
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It affects the growth due to the reproduction in todays society.
Variation in and of itself does not affect the traits seen in the overall population. This is because gene frequency and subsequent changes in phenotype generally occur only when the phenotype is "selected" for or against in a population. Granted increased genetic variation is the potential for change, however just as in physics potential has to be acted on for change to occur.The population of a species represents it's entire gene pool. The Hardy-Weinburg Principle states that the frequency of a gene remains the same as long as it is neither selected for or against.Smaller populations can change rapidly due to genetic drift and isolation (which is more of a twist of random probability than selection, like getting heads ten times in a row tossing a penny) selection translates into change in a larger population.