aa, bb, ab, ao, ab and oo
(THOSE ARE BLOOD TYPES, WHO EVER PUT THAT, DUMB AS!!!)
& yea i know how to spell, it has 2 "s."
Genes are the cause ... in all cases.
A Punnett square is used to determine an idealized outcome. For example, all possible combinations of genotypes of the gametes are represented, as if they had been actually been produced. The proportions of the various resulting genotypes are also idealized. In actual crosses, the numbers will vary from the idealized numbers due to chance.
depends how it self fertilises. If the gametes are produced with random genes in them the offspring could have recessive charateristics not displayed on the parent. However it could only have charateristics that were present in the parents genotype to begin with. If the offspring has the same genotype as tha parent then it would be the exact same.
First, draw a box, then divide it in four. Let's say we're testing for the genotypes of the offspring of parents with TT and Tt genotypes. Above the first box, write one allele of a parent, or in this case, T. Above the box to the right of it, write another T for the parents' other allele. Do the same down the left side of the four boxes with the other parent's genes. Now, this is a bit like finding coordinates. In the first box, write the allele of the gene above it, and to its left. That is one possible genotype of the offspring. Repeat this for all squares. In our case with the parents being TT and Tt, the four offspring in the Punnett squares will have only two possible genotypes; TT or Tt, like their parents. This will show you how many chances the offspring have of being heterozygous, homozygous dominant, or recessive.
The only organs in the skeletal system are the bones. Do you need a list of all of these 206 bones found in the adult human? See the link below for this list.
it made scientist from all over the curious about learning about pheotypes and genotypes wanting to learn from gregor mendal
dog food is your answer
Punic square
Genes are the cause ... in all cases.
This is because they all have at least one dominant allele, P.
punnett square
An isogenic mutation is known as a mutation of an inbred strain, in which all microbes contain the same or highly similar genotypes.
Different Genotypes are observed by varying phenotypes in a population
Geneticists use punnet squares to determine dominant and recessive alleles in organisms such as humans. For example, a monohybrid cross can be used to show hair color. Alleles from parents are used to determine the probability of certain traits to be more or less prevalent.
In the related links you will find a "foal color calculator" you type in the mares color, and if you know it, the genotypes, and the same for the studs. it will list all the possiblities and the chances of each color. I got the following: 58.34% - Buckskin 33.33% - Palomino 8.33% - Smoky Black However, I do not know your horses genotypes, so I would advise you redo it. Even if you don't know the genotypes, see what other chances you might get if your stud was a silver carier, or if your mare was heterozygous for the agouti trait. So do some experimenting and see what you get *Oh, and there is no such thing as an "Albino" horse. Cremello is often called albino. But had to let you know, because it doesn't offer Albino, it offers Cremello*
Generally, if the parents are heterozygous and one allele is dominant over the other there are only 2 phenotypes and 3 genotypes. Parents Aa can produce AA, Aa and aa offspring. If the heterozygous individuals have an intermediate phenotype, then three genotypes and 3 phenotypes are possible. If 2 traits are being studied using heterozygous parents AaBb then the possible Genotypes are AABB, AABb, AAbb, AaBB, AaBb, Aabb, aaBb, aaBB, aabb which is nine genotypes. But there are 4 phenotypes. AABB AABb AaBB AaBb are phenotypically the same. aaBb, aaBB are phenotypically the same. Aabb, AAbb are phenotypically the same. aabb
that list is here.