Download DiHybrid Cross 2 Finished (1)

DiHybrid Cross 2
1. Ggbb= Gray hair and Red eyes
ggbb= White hair and Red eyes
ggBB= White hair with Black eyes
GgBb= Gray hair with Black eyes
2.
Gb
Gb
Gb
gB
GgBb
GgBb
GgBb
gB
GgBb
GgBb
GgBb
gb
Ggbb
Ggbb
Ggbb
gb
Ggbb
Ggbb
Ggbb
Phenotype: ½ gray fur and black eyes, ½ gray fur and red eyes.
Gb
GgBb
GgBb
Ggbb
Ggbb
3.
GB
Gb
gB
gb
GB
GGBB
GGBb
GgBB
GgBb
Gb
GGBb
GGbb
GgBb
Ggbb
gB
GgBB
GgBb
ggBB
ggBb
gb
GgBb
Ggbb
ggBb
ggbb
Phenotype: 9/16 grey fur and black eyes, 3/16 grey fur and red eyes, 3/16 white fur
and black eyes, 1/16 white fur and red eyes
4.
GB
Gb
gB
GgBB
GgBb
gb
GgBb
Ggbb
gB
GgBB
GgBb
gb
GgBb
Ggbb
Genotype: ¼ GgBB, ½ GgBb, ¼ Ggbb
GB
GgBB
GgBb
GgBB
GgBb
Phenotype: 12/16 grey fur and black eyes, ¼ grey fur and red eyes
5.
Gb
GgBb
Ggbb
GgBb
Ggbb
genotype
BB
Bb
bb
NN
Nn
nn
6. nnbb x NnBb
phenotype
barbs
barbs
smooth
Non resistance
Non resistance
resistance
7.
NB
Nb
nB
nb
nb
NnBb
Nnbb
nnBb
nnbb
nb
NnBb
Nnbb
nnBb
nnbb
nb
NnBb
Nnbb
nnBb
nnbb
nb
NnBb
Nnbb
nnBb
nnbb
8. Phenotype: 4/16 nonresistant and barbs, 4/16 nonresistant and smooth, 4/16 resistant
and barbs, 4/16 resistant and smooth
9. a. S – spotted skin, s – non-spotted skin, W – wooly hair, w – non-wooly hair
b. Ssww x ssWw
c.
Sw
Sw
sw
sw
sW
SsWw
SsWw
ssWw
ssWw
sw
Ssww
Ssww
ssww
ssww
sW
SsWw
SsWw
ssWw
ssWw
sw
Ssww
Ssww
ssww
ssww
Genotype: 4/16 SsWw, 4/16 ssWw, 4/16 Ssww, 4/16 ssww
Phenotype: 4/16 spotted skin and wooly hair, 4/16 non-spotted skin and wooly hair, 4/16
spotted skin and non-wooly hair, 4/16 non-spotted skin and non-wooly hair
10. a. B – black, b – chestnut, T – trotting, t – pacing
b. BBtt x bbTT
c.
Bt
Bt
Bt
bT
BbTt
BbTt
BbTt
bT
BbTt
BbTt
BbTt
Bt
BbTt
BbTt
bT
BbTt
bT
BbTt
Genotype: 100% BbTt
phenotype: 100% black and trotting
BbTt
BbTt
11. a. W – white, w – yellow, D – disk, d – sphere
b. WWDD x wwdd
c.
WD
WD
wd
WwDd
WwDd
wd
WwDd
WwDd
wd
WwDd
WwDd
wd
WwDd
WwDd
Genotype: 100% WwDd
BbTt
BbTt
BbTt
BbTt
WD
WwDd
WwDd
WwDd
WwDd
WD
WwDd
WwDd
WwDd
WwDd
phenotype: 100% white and disk
12. a. R – running, r – waltzing, B – black, b – brown
b. RrBb x RRBB
c.
RB
Rb
rB
RB
RRBB
RRBb
RrBB
RB
RRBB
RRBb
RrBB
RB
RRBB
RRBb
RrBB
RB
RRBB
RRBb
RrBB
Genotype: 4/16 RRBB, 4/16 RRBb, 4/16 RrBB, 4/16 RrBb
rb
RrBb
RrBb
RrBb
RrBb
Phenotype: 16/16 running and black
13. a. R – running, r – waltzing, B – black, b – brown
b. RRBB x Rrbb
c.
RB
RB
Rb
RRBb
RRBb
rb
RrBb
RrBb
Rb
RRBb
RRBb
RB
RRBb
RrBb
RRBb
RB
RRBb
RrBb
RRBb
rb
RrBb
Genotype: 50% RRBb 50% RrBb
phenotype: 100% running and black
RrBb
14. a. R – running, r – waltzing, B – black, b – brown
b. rrbb x rrbb
c.
rb
rb
rb
rrbb
rrbb
rb
rrbb
rrbb
rb
rrbb
rrbb
rrbb
rrbb
rb
Genotype: 100% rrbb
Phenotype: 100% waltzing and brown
RrBb
RrBb
rb
rrbb
rrbb
rrbb
rrbb
rb
rrbb
rrbb
rrbb
rrbb
15. a. R – running, r – waltzing, B – black, b – brown
b. RRBb x rrbb
c.
RB
Rb
RB
rb
RrBb
Rrbb
RrBb
rb
RrBb
Rrbb
RrBb
rb
RrBb
Rrbb
RrBb
rb
RrBb
Rrbb
RrBb
Genotype: 50% RrBb, 50% Rrbb
phenotype: 50% running and black, 50% running and brown
16. a. R – running, r – waltzing, B – black, b – brown
b. Rrbb x RrBB
c.
Rb
Rb
rb
RB
RRBb
RRBb
RrBb
RB
RRBb
RRBb
RrBb
rB
RrBb
RrBb
rrBb
rB
RrBb
RrBb
rrBb
Genotype: 4/16 RRBb, 8/16 RrBb, 4/16 rrBb
Phenotype: 12/16 running and black, 4/15 waltzing and black
Rb
Rrbb
Rrbb
Rrbb
Rrbb
rb
RrBb
RrBb
rrBb
rrBb
17. a. R – running, r – waltzing, B – black, b – brown
b. RrBb x RrBb
c.
RB
Rb
rB
rb
RB
RRBB
RRBb
RrBB
RrBb
Rb
RRBb
RRbb
RrBb
Rrbb
rB
RrBB
RrBb
rrBB
rrBb
rb
RrBb
Rrbb
rrBb
rrbb
Genotype: 1/16 RRBB, 2/16 RRBb, 2/16 RrBB, 4/16 RrBb, 1/16 RRbb, 2/16 Rrbb, 1/16
rrBB, 2/16 rrBb, 1/16 rrbb
Phenotype: 9/16 running and black, 3/16 running and brown, 3/16 waltzing and black, 1/16
waltzing and brown
18. Set up a punnett square using the following information:
a. Dominate allele for tall plants = D
b. Recessive allele for dwarf plants = d
c. Dominate allele for purple flowers = W
d. Recessive allele for white flowers = w
e. Cross a homozygous dominate parent
(DDWW) with a homozygous recessive parent (ddww)
FOIL:
DW, DW, DW, DW and dw, dw, dw, dw
dw
dw
dw
dw
DW
DdWw
DdWw
DdWw
DdWw
DW
DdWw
DdWw
DdWw
DdWw
DW
DdWw
DdWw
DdWw
DdWw
Using the Punnett square in question #1:
What is the probability of producing tall plants with purple flowers?
Possible genotype(s)?
DW
DdWw
DdWw
DdWw
DdWw
100% will be tall and purple
DdWw
What is the probability of producing dwarf plants with white flowers?
Possible genotype(s)?
0%
What is the probability of producing tall plants with white flowers?
Possible genotype(s)?
0%
What is the probability of producing dwarf plants with purple flowers?
Possible genotype(s)?
0%
19. Set up a punnett square using the following information:
a. Dominate allele for black fur in guinea pigs = B
b. Recessive allele for white fur in guinea pigs =b
c. Dominate allele for rough fur in guinea pigs = R
d. Recessive allele for smooth fur in guinea pigs
1. = r
e. Cross a heterozygous parent (BbRr) with a heterozygous parent (BbRr)
FOIL:
BR, Br, bR, br
BR
Br
bR
br
BR
BBRR
BBRr
BbRR
BbRr
Br
BBRr
BBrr
BbRr
Bbrr
bR
BbRR
BbRr
bbRR
bbRr
br
BbRr
Bbrr
bbRr
bbrr
Using the punnett square in question #3:
What is the probability of producing guinea pigs with black, rough fur?
Possible genotype(s)?
9/16
BBRR, BBRr, BbRR, BbRr,
What is the probability of producing guinea pigs
with black, smooth fur? Possible genotype(s)?
3/16
BBrr, Bbrr,
What is the probability of producing guinea pigs
with white, rough fur? Possible genotype(s)?
3/16
bbRR, bbRr
What is the probability of producing guinea pigs
with white, smooth fur? Possible genotype(s)?
1/16
bbrr