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Using a punnett square you get the results of TT, TT, Tt, Tt. Key= T-tall t-short It's going to be tall but can have different genotypes
The answer would be ("A genotype of both parents") Welcome! Have a great day and hopes this helps :p
punnett square
The Punnet Square was created in the early 1905 by Reginald Punett. Reginald Punnett was born in England in 1875. The Punnett's Square is used to illustrate some of Mendel's discoveries in genetics.
All tall plants.
Tall = T short = t Tall plants genotype would either be TT or Tt, and short plants genotype would be tt.
The possible genotypes and phenotypes of the offspring can be determined using a Punnett square, a grid that shows the possible combinations of alleles that can result at fertilisation. The Punnett square below shows the expected genotypes of the offspring of parent pea plants that both have the genotype Rr.
Using a punnett square you get the results of TT, TT, Tt, Tt. Key= T-tall t-short It's going to be tall but can have different genotypes
Allele for tall stem (dominant)- T Allele for short stem (recessive)- t The F1 generation would all be tall-stemmed plants with the genotype Tt (heterozygous). The F2 generation would consist of: 25% Tall plants with the genotype TT (homozygous dominant) 50% Tall plants with the genotype Tt (heterozygous) 25% Short plants with the genotype tt (homozygous recessive)
The answer would be ("A genotype of both parents") Welcome! Have a great day and hopes this helps :p
The reason why short plants reappeared in Mendel's F2 generation of pea plants was because their short trait was heterozygous. Both parents carriedÊthat recessive gene, so they passed it on to their offspring.
Its either p,f2,1f,or f1
The plant's genotype gave it a tall phenotype even though its alleles were heterozygous. Add an I and can and chagne the "?" to a ".".
I think you're talking about Mendel's famous pea plant study. It's not the size that matters, but rather the genotype. The parents have to possess a certain pair of chromosomes to create a specific phenotype (short plants).Here's your answer:Let's use T to represent the dominant trait of tallness, and t to represent a recessive trait of shortness.If both parents are short plants, their genotype would have to be tt (dominant could be TT or Tt). So when you crossed their chromosomes for offspring, their genotypes would also be tt. Therefore, the phenotype would be short.
punnett square
The Punnet Square was created in the early 1905 by Reginald Punett. Reginald Punnett was born in England in 1875. The Punnett's Square is used to illustrate some of Mendel's discoveries in genetics.
All tall plants.