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homozygous organism is one which possess same genes on their chromosome pair for instance C which represent colour blindness it will be present on both the x chromosomes of a female.
The P1 generation represents the parental generation in a breeding experiment. It consists of the original individuals that are crossed to produce the first generation of offspring, known as the F1 generation.
If a plant is homozygous tall then it would possess two tall genes instead of a short gene. If for the notation you use B to represent the dominant tall gene and b to represent the recessive short gene the plant would carry and "BB" compliment of genes.
Two alleles represent a gene. ETC- The paternal (fathers) allele is B (for brown eyes) The mothers (maternal) is b ( for blue eyes) The capital B is the dominant allele, lowercase b is recessive. Therefore, a punnet square will show the offspring can be either hetrozygous or homozygous (recessive or dominant) Alleles represent the charactersitic, while a gene is a segment of DNA where heredity is based.
Based on the information provided, it is not clear whether "Ee" refers to a specific gene or trait. In genetics, "Ee" could represent a heterozygous genotype for a particular gene if one allele is dominant and the other is recessive. Alternatively, if "Ee" represents a homozygous genotype where both alleles are the same (homozygous dominant or homozygous recessive), it would depend on the specific context of the gene or trait.
Two of the same letter. For example, if you have a homozygous organism for dominant red color, then the letters to represent their genotype would be RR. However, if the red color is a recessive trait, then a homozygous organism with that trait will have the genotype rr.
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p represents the square root of the frequency of the homozygous genotype AA.
Inheritance patterns are the predictable patterns seen in the transmission of genes from one generation to the next.
p represents the square root of the frequency of the homozygous genotype AA.
The frequency of the homozygous dominant genotype.
All offspring would inherit one black allele and one white allele, resulting in a heterozygous genotype. Therefore, all eight offspring would likely have black fur, as the black color allele is dominant over white in guinea pigs.
your moms ballsac is on fire put it out with gasoline
Alleles that are the same = homozygous Alleles that are different = heterozygous
Yes.A homozygous genotype is a gene with two identical alleles. Recessive genes are represented by a lowercase letter. Thus, a homozygous recessive genotype would be two identical genes with lowercase letters.
Let Y represent the dominant allele, and yrepresent the recessive allele. Let us also assume that "pure" means homozygous for that trait ("pure' is not the usual term for this, "homozygous" is) So, the two genotypes of the parents of the cross are: Parent 1: YY Parent 2: yy To solve a problem like this, one always has to determine what kind(s) of gametes each parent can produce. Both parents are homozygous for their respective traits, so in this case, each parent can only produce one kind of gamete: Parent 1 can only produce Ygametes, and Parent 2 can only produce y gametes. Therefore, every one of their offspring will have the following genotype: Yy Since every one of the offspring of the cross carries a Y allele, and Y is dominant, all of the offspring will be yellow.
To get the F2 generation from the F1 generation, you cross two F1 individuals together. The offspring of this cross will represent the F2 generation. In Mendelian genetics, the F2 generation allows you to observe the genotypic and phenotypic ratios resulting from the recombination of alleles.