The genotype of pure lines refers to individuals that are homozygous for a particular trait, meaning they carry the same alleles for that trait. For example, in a pure line of plants, all individuals would have the same genotype for a specific gene, such as AA or aa. This genetic uniformity is desired in breeding and research to study the effects of specific alleles.
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.
Pure lines are used in plant breeding to maintain the genetic purity of a specific crop variety. They are developed by self-pollinating a plant for several generations to eliminate genetic variability. This ensures that when pure lines are crossed with other pure lines, the resulting offspring will have predictable and consistent traits.
he crossed two pure lines
They were homozygous.
The answer is genotype
Ex. Genotype = Phenotype AA Pure, no cleft chin Aa Hybrid, no cleft chin AA Pure, cleft chin XX Female XY Male
No. A gene is a part of the DNA that identifies the outcome of a certain trait or part of a trait. A genotype is the actual definition of the gene for each individual.
I think it is gg.
Homozygous.
I think it is gg.
The genotypes would be: RR, RR, RR, and Rr As for the phenotypes, you cannot tell without knowing what the alleles represent.
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.
like
Pure lines are used in plant breeding to maintain the genetic purity of a specific crop variety. They are developed by self-pollinating a plant for several generations to eliminate genetic variability. This ensures that when pure lines are crossed with other pure lines, the resulting offspring will have predictable and consistent traits.
HomozygousTT, they are both the samett, they are both the sameThe reason it's homozygous is because, like in humans, if a male likes another male, he is homosexual. Homo meaning the same.
They were homozygous.
I think it's genotype...