ABO Cross, Japanese Punnett squares, & Hemophilia Genetics (FINAL)

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions of either the male or the female. If the father has Blood type A, and the mother has blood type B, and C has blood type O, what is:

the B genotype

I^B i

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions of either the male or the female. If the father has Blood type A, and the mother has blood type B, and C has blood type O, what is:

the G genotype

I^A

the C genotype

ii

the E genotype

I^B

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions of either the male or the female. If the father has Blood type A, and the mother has blood type B, and C has blood type O, what is:

codominant genotype

I^A I^B

c

the A genotype

I^A I^B

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions of either the male or the female. If the father has Blood type A, and the mother has blood type B, and C has blood type O, what is:

the F genotype

i

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions of either the male or the female. If the father has Blood type A, and the mother has blood type B, and C has blood type O, what is:

the D genotype

I^A i (?)

the H genotype

i

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions of the pollen from one pink-flowered Japanese Four o'clock to the ovule of another pink-flowered Four o'clock, where D is white flowered.  What is the:

which genotype exhibits incomplete dominance

C^R C^r

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions of the pollen from one pink-flowered Japanese Four o'clock to the ovule of another pink-flowered Four o'clock, where D is white flowered.  What is the:

the E genotype

C^R

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions of the pollen from one pink-flowered Japanese Four o'clock to the ovule of another pink-flowered Four o'clock, where D is white flowered.  What is the:

the B genotype

C^R C^R

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions of the pollen from one pink-flowered Japanese Four o'clock to the ovule of another pink-flowered Four o'clock, where D is white flowered.  What is the:

genotype of G?

C^r

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions of the pollen from one pink-flowered Japanese Four o'clock to the ovule of another pink-flowered Four o'clock, where D is white flowered.  What is the:

the F genotype

C^r

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions of the pollen from one pink-flowered Japanese Four o'clock to the ovule of another pink-flowered Four o'clock, where D is white flowered.  What is the:

the H genotype

C^R

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions of the pollen from one pink-flowered Japanese Four o'clock to the ovule of another pink-flowered Four o'clock, where D is white flowered.  What is the:

genotype of a pink-flowered plant

C^R C^r

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions of the pollen from one pink-flowered Japanese Four o'clock to the ovule of another pink-flowered Four o'clock, where D is white flowered.  What is the:

genotype of a red-flowered plant

C^R C^R

Hemophilia: 

E Genotype 

X^h-b

genotype of a normal (non-carrier) female:

X+X+

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions two people who do not suffer from hemophilia, but what had a child B that did have hemophilia which could be supplemented by adding recominant Factor IX.  What is the:

the C genotype:

X+Y

genotype of a unaffected carrier female:

X+ X^h-b

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions two people who do not suffer from hemophilia, but what had a child B that did have hemophilia which could be supplemented by adding recominant Factor IX.  What is the:

the G genotype:

X+

genotype of a (very rare until modern times) hemophiliac woman:

Xh-b Xh-b

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions two people who do not suffer from hemophilia, but what had a child B that did have hemophilia which could be supplemented by adding recominant Factor IX.  What is the:

the D genotype:

X+ X+

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions two people who do not suffer from hemophilia, but what had a child B that did have hemophilia which could be supplemented by adding recominant Factor IX.  What is the:

the H genotype 

y

In the Punnett square, A B and C are progeny of a cross, and E D F and G are the haploid contributions two people who do not suffer from hemophilia, but what had a child B that did have hemophilia which could be supplemented by adding recominant Factor IX.  What is the:

the A genotype

X+X^h-b