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The gametes derived from the genotype GGBB include dominant and recessive plus mixed. These could show as GG, BB, GB, and BG although there are some multiples of each.
This is one of the classic experiments carried out by Gregor Mendel. If you cross pure-breeding green pod plants with pure-breeding yellow pod plants the offspring (F1 generation) will all have green pods. This means that green pod is dominant and yellow pod is recessive. To explain the results, pure-breeding green pod plants must have the genotype GG (homozygous dominant) and yellow pod plants must be gg (homozygous recessive). When they are crossed the F1 offspring will receive a G allele from the green parent and a g allele from the yellow parent, so they will all have the genotype Gg ie they will be heterozygous.
Are you talking about phenotype or genotype? Phenotype is the expression of the genotype. Genotype is what you inherited. Phenotype is what you see. Homozygous is the same. Heterozygous is different. If you inherit one allele for blue eyes and one allele for brown eyes, your phenotype should be brown eyes. Your genotype would be brown eyes, blue eyes. You would have a heterozygous genotype.
The answer is genotype
its genotyoe :P
Mm, Ff, Gg, Ll, Ss and ect
well GG and Gg both produce the same phenotype for a trait GG and Gg are both different kinds of genotypes that make the same phenotype
i dont nkonw - - - - Ignore that person. If you are using a Punnett Square (2X2 box) then you will see that if you have a Gg (across the top) and gg (down the side) you will have Gg, Gg, gg, gg. The lowercase letters represent recessive traits and the uppercase dominant. The ratios are split into Phenotypes and Genotypes. If you have at least one dominant trait then it is considered a genotype (for this problem Gg GG). Double recessive is a phenotype (double lower case-in this case gg.) Your ratio for the above Gg, Gg, gg, gg is 2:4 (1:2) for both Phenotype and Genotype. Hope this helps!
I think it is gg.
I think it is gg.
Dominant alleles are expressed, even if a recessive allele is also present. In the notation used, a capital letter means a dominant allele - therefore the presence of a P (in either PP or Pp) means the organism will display the trait P creates.
two recessive alleles gg
Hazel eyes are not highly common. They are eyes that can change color from brown to green, and somewhere in between. A genotype of Gg would produce hazel eyes.
both must be tt (novanet) To a limited extent. You need to know what traits are dominant; you can then use that to detemine whether a plant has at least one copy of that gene. I don't know much about pea plants, horses are my thing, so bear with me as I try to explain. You have a gray horse. Gray is caused by the G gene. It is a dominant trait; if the horse is GG or Gg, it will be gray. However, if the horse is gg, it will not be gray. Therefore, if my horse is gray, it must be GG or Gg; if it is not, it must be gg. Same thing with black. If my horse has black on its body, it must be EE or Ee. If it does not, it must be ee. You can help determine genotype through knowledge of ancestors and offspring; but you cannot totally determine a genotype via the phenotype.
The gametes derived from the genotype GGBB include dominant and recessive plus mixed. These could show as GG, BB, GB, and BG although there are some multiples of each.
The alleles such as TT or tt, RR or rr, and so on.The alleles such as TT or tt, RR or rr, and so on.they are also Tt Rr etc
This is one of the classic experiments carried out by Gregor Mendel. If you cross pure-breeding green pod plants with pure-breeding yellow pod plants the offspring (F1 generation) will all have green pods. This means that green pod is dominant and yellow pod is recessive. To explain the results, pure-breeding green pod plants must have the genotype GG (homozygous dominant) and yellow pod plants must be gg (homozygous recessive). When they are crossed the F1 offspring will receive a G allele from the green parent and a g allele from the yellow parent, so they will all have the genotype Gg ie they will be heterozygous.