When a red flower crosses with a white flower, it can create a pink flower. Why? Because of incomplete dominance. Incomplete dominance is when the heterozygous phenotype(offspring) is a blend of the two homozygous phenotypes(parents).
If ALL offspring are Aa, The parents are AA and aa.
if both organisms repoduce an offspring every 12 hours then they would have the same number of offspring neither would be greater.
Whenever one refers to an animals or humans offspring, such as; The mare's progeny were successful racehorses. Progeny is a fancy word for offspring.
For the two given parents: 1 offspring will have the homozygous genotype: YY 1 offspring will have the homozygous genotype: yy 2 offspring will have the heterozygous genotype: Yy
In a typical Mendel experiment, Mendel took two purebreeding lines (the parental generation) and crossed them to produce the 1st filial generation and sometimes would self cross these to produce the 2nd filial generation.
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To determine the probability of different offspring from the cross of genotypes BB, Bb, and bb, we first need to clarify the specific cross being made. If we are crossing BB (homozygous dominant) with Bb (heterozygous), the potential offspring would be 50% BB and 50% Bb. If we then cross this with bb (homozygous recessive), the resulting offspring would be 50% Bb and 50% bb. Thus, the probabilities for the offspring would be 50% Bb and 50% bb.
The cross that will produce only horned Roan offspring in cattle is the red bull with the white cow. However, these offspring would be able to create either red, white, or Roan.
We would need to know the situation to respond to this question.
dihybrid cross
If the gene for colored spots was not passed from a moth to its offspring, the offspring would not have colored spots. Traits are inherited from parents through genes, so without the gene for colored spots, the offspring would not exhibit this specific physical characteristic.
A waterlemon
If the parents are both AA, which results in the cross AA X AA, then the offspring will all be AA. If both parents are AA, resulting in the cross AA X AA, then all offspring will be AA. If BOTH parents are Aa, resulting in the cross Aa X Aa, then the offspring will be 25% AA, 50% Aa, and 25% AA. This is only true if the alleles are not sex-linked.
In a trihybrid cross, the offspring would inherit one allele from each parent for each of the three traits (Tall, green, and round). Since the parents are homozygous for all traits (ttggrr x ttggrr), all the offspring would be tall, green, and round, resulting in 100% of the offspring being tall, green, and round.
If ALL offspring are Aa, The parents are AA and aa.
It does.. But you knew anything you would try to answer it 👏
If you crossed a black hen/roo with a white hen/roo, the offspring would NOT be blue. If he was recessive white, the chicks would be black. If he was dominant white, the chicks would be white with some black "smudges" or "spots". The only way to produce 100% blue chicks is to cross a black roo over splash hens or a splash rooster over black hens.