offspring will be produced in following
AA :Aa:aa and is in the ratio of 1:2:1
so the probabiltiy is 50%
There is nothing true about the AAA theorem and the SSS postulate because the AAA postulate is not true!
there isn't a AAA postulate because,,, for a triangle to be equal, there HAS to be a side in it
F1 offspring obtained by monohybrid cross of AA and AA will be Aa.
3.20
A
50% AA and 50% Aa
No. An AA and SS combination can only produce an AS genotype.
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
no they can only have children with as as as as
The offspring's genotype will be AA. Both parents are homozygous dominant, AA, having only dominant alleles to pass on to their offspring. So each parent can pass on only the dominant allele (A) to its offspring. So the offspring will also be homozygous dominant, AA.
homozygous? homozygous? homozygous dominant
Yes, in most societies. Genotyping is generally not done before marriage, so genotypes of the couple are unknown.
Only one; A. At least concerning this one trait.
Possible genotypes would be AA and Aa. Phenotypes cannot be determined here because they are the physical, observable results of a genotype.
The genetic makeup AAA BB is called its genotype. It is defined as the genetic makeup of an organism or group of organisms with reference to a single trait, set of traits, or an entire complex of traits.
AA : Aa in the ratio of 1:1
You cannot do a cross to determine the genotypes of individuals because there is only one gene here. Genotype consists of the entire genetic makeup of the individual, which cannot be determined by a single gene. Only the alleles S or s is used to express this particular gene. If you're looking for a monohybrid cross between Ss and Ss, while separately wanting a result between ss and ss, then the answers are as follows: Ss x Ss 25% SS 50% Ss 25% ss ss x ss = 100% ss