What is the probability that any of the offspring between individuals with the genotype AABbCcddEE will have the genotype AABBCCddEE
R-22 refrigerant typically uses a light green cylinder. However, it's worth noting that R-22 is being phased out due to environmental concerns, and it is being replaced by more eco-friendly refrigerants.
If the mother has one LL allele for color lameness, it means she can only pass on the L allele to her offspring. Since she has one allele for normal vision, that allele does not affect the color trait directly. Therefore, the probability that her child will inherit the LL genotype for color lameness is 100%, as the mother can only provide the L allele.
genotype and phenotype
In a heterozygous cross (e.g., Aa x Aa), the possible genotypes of the offspring are AA, Aa, and aa. The probability of having two offspring with the same genotype can be calculated as follows: the probabilities of each genotype are 1/4 for AA, 1/2 for Aa, and 1/4 for aa. Thus, the probability that both offspring have the same genotype is the sum of the probabilities of each genotype occurring twice: (1/4 * 1/4) + (1/2 * 1/2) + (1/4 * 1/4) = 1/16 + 1/4 + 1/16 = 5/16. Therefore, there is a 5/16 chance that both offspring will have the same genotype.
D
genotype
The genotype of the plant with colored seed and normal starch in the test cross would be AaBb. This genotype indicates that the plant is heterozygous for both the color gene (A) and the starch gene (B), with the recessive alleles for both traits being a (for color) and b (for starch).
50% of the offspring will have the recessive genotype (cc) for hair color when one parent is Cc and the other parent is cc. This is because all their children will inherit one "c" allele from the parent with cc genotype.
No it's a phenotype because it says the physical characteristic if it was like Bb for example it would be the genotype. (I just made Bb up, that's not actually the genotype for brown hair color!)
100%
genotype
No, you cannot determine someone's genotype just by looking at their eye color. Eye color is controlled by multiple genes and can vary even within the same family. Genotype refers to the specific genetic makeup of an individual, which is not always evident from their physical traits.
The genotype for round green peas is typically represented as "RRyy," where "R" stands for the dominant allele for round shape and "y" represents the recessive allele for yellow color. In this case, the round shape is dominant over the wrinkled shape, while green color is recessive to yellow. Thus, the round green peas are homozygous for the round shape and homozygous recessive for the color trait.
What decides your eye color is your genotype that you get from your parents. if you have blue eyes, you have to have two recessive traits. Yet, any other color has to have a dominant allele to create the color. But, scientists already can tell that if you have blue eyes, your genotype is, 'bb.' Or, two recessive alleles.
The phenotypes for the genotype "yellow body color is dominant to blue" would be yellow body color for individuals with at least one dominant allele for yellow (Y allele) and blue body color for individuals with two recessive alleles for blue (yy genotype).
The genotype for a brown-eyed homozygote would be BB, where each allele represents the gene for brown eye color.