Punnett square
It is called a Punnett square.
punnett or punnett square
Punett square
punnett square
What percentage of the possible types of offspring had the same phenotype as the parents
Crossing over is the phenomena of interchanging of chromosome parts during prophase of meosis of cell cycle and the two homologus chromosome of different parents get intermixed now it is important so that the coming generation get new genetic pattern or can get character of both the parents
Genotype is the coded for traitPhenotype is the visible characteristicSo in the case where both parents had heterozygous dominant Brown eyes (Bb - big B for brown, dominant gene; little b for blue recessive gene); it is possible for the child to have blue eyes, by being homozygous recessive (bb).However this is an educated guess, as your question does not make sense.
adaptation of tiger
You will have the dominant phenotype for that trait.
It is called a Punnett square.
The crossing over alleles is critical to the survival and genetic diversity of a species. The results of the random crossing over of alleles is that the offspring will have chance inheritance of certain characteristics from their parents (as opposed to being genetic clones with no diversity). The diversity of phenotypes are among the major manifestations of random crossing.
Anaphase 1 - the crossing over of chromosomes, they swap genetic material determining what you genetically inherit
The same phenotype as both of the parents.
If both parents have the same phenotype, but the offspring did not share that phenotype, then it is likely that the parents have a dominant phenotype, but the offspring has a recessive phenotype, which means that the offpring's genotype would be homozygous recessive, and it's parents' genotypes would be heterozygous. For example, the parents may both have the genotype Bb, which gives them black fur. Approximately 25% of their offspring should have the genotype bb, which gives them the phenotype of white fur.
If both parents have the same phenotype, but the offspring did not share that phenotype, then it is likely that the parents have a dominant phenotype, but the offspring has a recessive phenotype, which means that the offpring's genotype would be homozygous recessive, and it's parents' genotypes would be heterozygous. For example, the parents may both have the genotype Bb, which gives them black fur. Approximately 25% of their offspring should have the genotype bb, which gives them the phenotype of white fur.
What percentage of the possible types of offspring had the same phenotype as the parents
You get four choices of gene, of which two are randomly selected. Although sometimes these genes are the same, often they are not all identical. this results in different genotypes and therefore phenotypes being experienced.
An organism's genotype is its genetic identity. The genotype is comprised of all the genetic material inherited from both parents. The genotype is what "tells" each individual cell how to function. The phenotype is the physical expression of an organism's genotype. For example, if a person's genotype for eye color is one dominant allele for brown and one recessive for blue, then the individual's phenotype would be their actual eye color which in this case would be brown.
What percentage of the possible types of offspring had the same phenotype as the parents
Crossing over is the phenomena of interchanging of chromosome parts during prophase of meosis of cell cycle and the two homologus chromosome of different parents get intermixed now it is important so that the coming generation get new genetic pattern or can get character of both the parents
Swapping of genetic genetic material is when two chromosomes (maternal and paternal) with the same gene sequence exchange genes, this occurs during Phrophase 1 of meiosis by a process called crossing over. Hope this helps.