1. In non-Mendelian inheritance: a. Mendelian phenotypic probabilities are not met b. the (F1) has the same phenotype as
Posted: Tue May 17, 2022 3:35 pm
1. In non-Mendelian inheritance:
a. Mendelian phenotypic probabilities are not met
b. the (F1) has the same phenotype as the parents
c. was developed by Darwin
2. A probability of 9:3:3:1 is characteristic of
_______________________.
a. monohybrid genotype
b. dihybrid phenotype
c. dihybrid genotype
3. The phenotypic probability of a monohybrid cross
is:
a. 3/4 recessive; 1/4 dominant
b. 1/2 dominant; 1/2 recessive
c. 3/4 dominant/ 1/4 recessive
4. The genotypic probability of a monohybrid cross
is:
a. 1/4 AA; 2/4 AA; 1/4 yy
b. 1/2 AA; 1/2 yy
c. 3/4 AA; 1/4 yy
5. The R1R2 combination of an incomplete dominance
cross results in red flowers.
True
False
6. In inheritance called incomplete dominance, the
recessive gene expresses something, it generates a
product.
True
False
7. AB blood type is the result of
codominance.
True
False
a. Mendelian phenotypic probabilities are not met
b. the (F1) has the same phenotype as the parents
c. was developed by Darwin
2. A probability of 9:3:3:1 is characteristic of
_______________________.
a. monohybrid genotype
b. dihybrid phenotype
c. dihybrid genotype
3. The phenotypic probability of a monohybrid cross
is:
a. 3/4 recessive; 1/4 dominant
b. 1/2 dominant; 1/2 recessive
c. 3/4 dominant/ 1/4 recessive
4. The genotypic probability of a monohybrid cross
is:
a. 1/4 AA; 2/4 AA; 1/4 yy
b. 1/2 AA; 1/2 yy
c. 3/4 AA; 1/4 yy
5. The R1R2 combination of an incomplete dominance
cross results in red flowers.
True
False
6. In inheritance called incomplete dominance, the
recessive gene expresses something, it generates a
product.
True
False
7. AB blood type is the result of
codominance.
True
False