answer is 0%
A. Offspring with heterozygous genotype 100 percent B. Offspring with homozygous dominant genotype 0 percent C. Offspring with at least one copy of recessive gene 50 percent
If 50% of the offspring show the dominant phenotype and 50% show the recessive phenotype, it is likely that one parent is heterozygous (Aa) for the trait and the other parent is homozygous recessive (aa). This would result in a 1:1 ratio of offspring showing each phenotype.
The offspring from an FF X ff cross will all have the genotype Ff.This is because they receive one allele from each parent, and in this case they can only receive an F from the FF parent and an f from the ff parent.
The genotypic ratio for crossing Nn x NN is 100% Nn. Since the parent with genotype Nn contributes only the "N" allele, and the parent with genotype NN contributes only the "N" allele, all offspring will have the genotype Nn.
A cross between two homozygous parents will form a 100 percent chance of a heterozygous offspring. One homozygous parent must have the dominant allele, and the other must have the recessive allele. So, if the circumstances are correct, these characteristics will make for a 100 percent chance of a heterozygous offspring.
75 percent
false
A. Offspring with heterozygous genotype 100 percent B. Offspring with homozygous dominant genotype 0 percent C. Offspring with at least one copy of recessive gene 50 percent
There are three outcomes if a person with an AS genotype marries a person with another AS genotype. The offspring has a 50 percent chance of inheriting the AS genotype, and a 25% chance of having a child with an AA or SS genotype. Most couples who share the AS genotype choose not to procreate.
If both brown-haired parents carry a recessive gene for blonde hair (genotype Bb), they can produce offspring with the following combinations: BB, Bb, Bb, and bb. The only combination that results in blonde hair is bb. Therefore, 25% of the offspring will have blonde hair.
for what animal. it all depends on the dominant gene (allele) and recessive. the genotype of the parents needs to be set up in a Punnett square and with that data you can determine the probability that an animal will have brown fur
Simple inherited traits are passed down because each parent contains genes which are given to their offspring. The offspring inherits or receives these traits. The offspring then passes down those traits to their offspring. Each time there is a new generation, the original trait becomes less evident. The recessive traits decrease by a certain percent every time a new set of genes are added.
If 50% of the offspring show the dominant phenotype and 50% show the recessive phenotype, it is likely that one parent is heterozygous (Aa) for the trait and the other parent is homozygous recessive (aa). This would result in a 1:1 ratio of offspring showing each phenotype.
Durrrrr whats the trait??? Assuming this is what your really asking. Its PP X PP Then the result can only be PP if big P is dominant over little p. Form your questions better in the future! Apex: 100 percent heterozygous
The offspring from an FF X ff cross will all have the genotype Ff.This is because they receive one allele from each parent, and in this case they can only receive an F from the FF parent and an f from the ff parent.
If you cross wwgg x WwGg, each parent contributes one allele for the traits. The genotype for wrinkled (w) and green (g) seeds is wwgg, and the genotype for WwGg is heterozygous for smooth and yellow. Therefore, 0% of the offspring will be wrinkled green.
The genotype represents all of an individual's genetic material, so it comprises 100% of their genetic information. The genotype is the genetic code or sequence that determines an individual's traits and characteristics based on the combination of alleles inherited from parents.