tall and short
genotype:
TT, Tt, tt
phenotype:
tall, short
if both "parents" are homozigous or purebred than the offspring would be all purebred tall if one parent was a hybrid than offspring would be 50% short and 50% tall. Try a punnett square
Tall.
They are traits that are passed from parent to offspring, and therefore develop into phenotype.
did
No, a recessive trait will only show in the offspring if there is no dominant allele masking it. The trait that will always show in the offspring is the dominant allele, provided one parent was homozygous for it.
No, a recessive trait will only show in the offspring if there is no dominant allele masking it. The trait that will always show in the offspring is the dominant allele, provided one parent was homozygous for it.
homozygous recessive
They are traits that are passed from parent to offspring, and therefore develop into phenotype.
your question is confusing but a phenotype is a physical characteristic passed from parent to offspring
The genotype of the offspring that had the same phenotype as the parents is rr or wrinkled. The phenotype for the seed shape of both parent plants is round.
1/2 or 50%. The homozygous recessive gentoype contains two recessive alleles for the gene for a trait. So the homozygous recessive individual can pass on only recessive alleles to an offspring. The heterozygous individual has one dominant and one recessive allele for the gene for a trait. So the heterozygous individual can pass on either a dominant or a recessive allele to an offspring. So if an offspring inherits a recessive allele from the heterozygous parent, along with the recessive allele from the homozygous recessive parent, it will have the homozygous recessive genotype and phenotype.
For a recessive allele to produce a recessive phenotype, the individual must have two copies, one from each parent. An individual with one dominant and one recessive allele for a gene will have the dominant phenotype.
What percentage of the possible types of offspring had the same phenotype as the parents
75%
It dependes on the genes of the parent if you have no information of the genes of the parent I cannot tell you
If the phenotype is recessive then the genotype must be dd.
did
phenotypes are decided by the alleles for that particular characteristic, by a dominant or two recessive alleles. For example, cystic fibrosis has a recessive allele so the phenotype of cystic fibrosis would only appear if there were two of the recessive allele, one from each parent, were present. A heterozygous carrier of the cystic fibrosis allele would show the phenotype of not having cystic fibrosis. So to determine the phenotype simply find out which allele is dominant and find what alleles each parent has the the probability of each phenotype can be calculated
It is possible for their offspring to exhibit type AB, A, B, or O, depending upon the parental genotype, which is unknown. The blood type exhibited, also referred to as phenotype, is due to the dominant A and B alleles. Every person inherits two alleles for each gene, one from each parent. The type A may have inherited two A alleles or an A allele and an O allele, the O being masked by the dominant A because it is a recessive trait. Therefore they exhibit the phenotype A, but could potentially pass on an O allele to any offspring. The same goes for the type B parent (could be BB or BO). The exact genotype (AA/BB or AO/BO) is not determined through simple blood testing, so the exact phenotype of the offspring can not be predicted.