Question2: An allele (F) in tomatoes reduces fruit weight/ From the data, determine the additive effect (a), the dominance deviation (d) and the type of dominance
The answer is-
D. a= 26; d= 8.5; no dominance.
This is because the phenotype says that the mean phenotype is much higher than that of the dominant trait. thereby it can be said that there is no dominance.
Question2: An allele (F) in tomatoes reduces fruit weight/ From the data, determine the additive effect...
An allele (F) in tomatoes reduces fruit weight. From the data, determine the additive effect (a)the dominance deviation (d) and the type of dominance. genotype Mean phenotype (fruit wt g) 1.1 8.5 53.1 O A a 26; d = -17.5; partial dominance B. - 52; -17.5; complete dominance ca 52; d = 8.5; over dominance D., 26; d = 8.5; no dominance
An allele (F) in tomatoes reduces fruit weight. From the data, determine the additive effect (a), the dominance deviation (d) and the type of dominance genotype Mean phenotype (fruit wt g) Aa . 26; d. 17.5; partial dominance B 52:d=-17.5: complete dominance Ca. 52,0 8.5; over dominance D., 26; 8.5; no dominance
An allele (F) in tomatoes reduces fruit weight. From the data, determine the additive effect (a), the dominance deviation () and the type of dominance. genotype Mean phenotype (fruit wt g) A a. 26; d .175partial dominance Ba52:.175; complete dominance G -52:-8.5 over dominance Da 26; d = 8.5; no dominance
QUESTION 10 An allele (F) in tomatoes reduces fruit weight. From the data, determine the additive effect (a), the dominance deviation (d) and the type of dominance. genotype Mean phenotype (fruit wtg) A a = 26; d = -17.5, partial dominance 1.1 85 53.1 Da=52, d = .175, complete dominance Ca = 52 d = 85, over dominance D. a = 26, d = 8.5, no dominance