Their offspring will be heterozygous recessive.
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∙ 12y agoThe parental organisms that are crossed are typically of two different generations or lines: the P1 generation, which are the original parents, and the F1 generation, which are the offspring resulting from their cross.
The blending of the phenotype of the parents in the offspring is known as incomplete. colors of flowers can show incomplete dominance if a red flower is crossed with a white flower and their offspring are pink.
one form of a character
When two dissimilar individuals are crossed in a process, it can lead to genetic variation and potentially produce offspring with a combination of traits from each parent. This can lead to increased diversity within a population, which can be beneficial for adaptation and survival in changing environments.
visual inspection of phenotypic traits.
Hybrids. Hybrids are the offspring resulting from the cross between two distinct species. They typically exhibit a mix of traits from both parent species.
A hybrid.
If both oompahs are heterozygous (Oo), there are three possible genotypes that would result in offspring with orange faces: OO, Oo, and oO. Therefore, 75% of the offspring from this cross would have orange faces.
If two true-breeding pea plants are crossed their offspring will show the dominant trait. The flowers will be purple or light purple.
The offspring of two true-breeding plants is also true-breeding, meaning they will consistently display the same traits as the parents. This is because true-breeding plants are homozygous for a particular trait, so when they are crossed, their offspring will also be homozygous for that trait.
The genotype of the offspring will be WwMm, representing a heterozygous combination for both genes (Ww for gene 1 and Mm for gene 2). This means the offspring will inherit one dominant allele (W or M) and one recessive allele (w or m) for each gene.
3:1 ratio Two pea plants, both heterozygous for flower color, are crossed. The offspring will show the dominant purple coloration in a 3:1 ratio
The 3:1 ratio for a particular trait suggests that the trait is determined by a single gene with two alleles. It indicates that one parent is homozygous dominant for the trait, one parent is homozygous recessive, and the offspring are heterozygous.
The offspring will all inherit one copy of the dominant allele (from the heterozygous parent) and one copy of the recessive allele (from the homozygous recessive parent). This results in all offspring being heterozygous for the trait.
The offspring will all be heterozygous Bb, carrying one dominant allele (B) from one parent and one recessive allele (b) from the other parent.
The offspring will get the qualities , traits of homozygous BB.
they can produce fertile offspring