25%
The yellow pods make up 25%, the Green pods make up the other 75%.
Tsgsd
75%
When Mendel crossed pea plants with green pods with those with yellow pods, the offspring all had green pods if the green pod parent was homozygous. If the green pod parent was heterozygous, then half the offspring had green pods and half had yellow pods.
In accordance to Medelian's first law,you will receive a F1 (Generation 1) of all the dominant traits (If you G is Green,it will be all green and if you G is yellow,it will be all yellow).It is only when during F2 (Generation 2) as you interbreed them (F1 x F1) will you receive a Phenotypic ratio of 3:1.In this,if your G is green,it will be of a ratio of 3 greens to 1 yellow pea pods. Basically Gg x Gg will give rise to 2 phenotypic classes of progeny,G and g,in a ratio of 3:1 provided that G is Dominant to g.
constricted :)
only green-podded plants. Incorrect^ Letter D on the sheet, about three-quarters green-podded plants and one-quarter yellow-podded plants.
100%
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.
Yellow pods are a recessive trait and for this type of trait to show in the phenotype, both alleles have to be recessive. If there was a recessive allele (yellow) and a dominant allele(green) as it shows in hybrid pods, then the dominant allele would be the one shown and the pod would be green.
no
corn?