Wiki User
∙ 14y agocurly hair, as the dominant gene overrules the recessive gene
I THINK :)
Wiki User
∙ 14y agoThe baby goat is likely to display the dominant trait for curly hair, as the dominant gene overrides the recessive gene. Therefore, the baby goat will have curly hair.
Amira Prasatek
curly hair obisley
Brianna Pillor
Anonymous
curly hair
Amira Prasatek
An example of this would be a plant with a dominant gene for flower color (e.g., purple) and a recessive gene for a different color (e.g., white). Depending on the combination of these genes, the plant will exhibit either the dominant trait (purple flowers) or the recessive trait (white flowers).
The ratio of dominant to recessive traits in the F2 generation of Mendel's experiments was 3:1. This is known as the phenotypic ratio for a monohybrid cross, where three individuals display the dominant trait for every one individual displaying the recessive trait.
If one parent is homozygous dominant (AA) and the other parent is homozygous recessive (aa), all offspring will inherit one dominant allele and display the dominant phenotype. Therefore, the probability of their offspring exhibiting the dominant phenotype is 100%.
Lobster claw syndrome, or Ectrodactyly, is a rare genetic condition caused by a mutation in the TP63 gene, which is inherited in an autosomal dominant pattern. This means that only one copy of the mutated gene is needed to display the syndrome.
When two recessive alleles are joined together in an individual, the individual will display the recessive trait associated with those alleles. This is because recessive alleles only express themselves when a dominant allele is not present.
A recessive gene will not display its trait in the presence of a dominant trait. A recessive gene only expresses its trait when paired with another copy of the same recessive gene.
100% of the offspring will display the dominant trait because the homozygous dominant parent can only pass on the dominant allele. The offspring will inherit one dominant allele from the dominant parent and one recessive allele from the recessive parent, resulting in a heterozygous genotype expressing the dominant trait.
An example of this would be a plant with a dominant gene for flower color (e.g., purple) and a recessive gene for a different color (e.g., white). Depending on the combination of these genes, the plant will exhibit either the dominant trait (purple flowers) or the recessive trait (white flowers).
A recessive trait can be masked by a dominant trait in individuals who are heterozygous. Thus, a majority of people may appear to display the dominant trait even if they are carriers of the recessive trait. Only when two carriers of the recessive trait have children together is there a chance for the recessive trait to become visible in the offspring.
Approximately 75% of the offspring are likely to display the dominant trait if one parent carries the dominant gene and the other parent carries a recessive gene. This is due to the fact that the dominant gene typically overrides the recessive gene in determining the phenotype.
The ratio of dominant to recessive traits in the F2 generation of Mendel's experiments was 3:1. This is known as the phenotypic ratio for a monohybrid cross, where three individuals display the dominant trait for every one individual displaying the recessive trait.
Do a testcross with a homozygous recessive plant.
Parents with the dominant phenotype can have offspring with the recessive phenotype if both parents are heterozygous carriers of the recessive allele. In this case, there is a 25% chance for their offspring to inherit two copies of the recessive allele and display the recessive phenotype.
Heterozygous means that you are carrying 1 dominant trait and 1 recessive trait.If an allelic pair has one dominant and other recessive gene it is called heterozygous.
Only one dominant allele is needed to display the dominant phenotype. Dominant alleles are expressed when present, masking the effect of recessive alleles.
If one parent is homozygous dominant (AA) and the other parent is homozygous recessive (aa), all offspring will inherit one dominant allele and display the dominant phenotype. Therefore, the probability of their offspring exhibiting the dominant phenotype is 100%.
Approximately 225 plants will display the trait controlled by the recessive allele. This is because in a monohybrid cross between two heterozygous parents, the ratio of offspring displaying the recessive trait to those displaying the dominant trait is 1:2:1.