Incomplete Dominance Codominance Multiple Alleles › uploads › 5 › 8 › 7 › 5 › 58753919...
Transcript of Incomplete Dominance Codominance Multiple Alleles › uploads › 5 › 8 › 7 › 5 › 58753919...
Non-Mendelian Genetics
Mendelian Genetics:
Dominant & Recessive ReviewOne allele is DOMINANT over the other
(because the dominant allele can “mask” the
recessive allele)
genotype: PPphenotype: purple
genotype: ppphenotype: white
genotype: Ppphenotype: purple
Review Problem:
Dominant & RecessiveIn pea plants, purple flowers (P) are dominant over
white flowers (p). Show the cross between two heterozygous plants.
P
p
P p
pp
Pp
Pp
PP- PP (25%)
Pp (50%)
pp (25%)
- ratio 1:2:1
- purple (75%)
white (25%)
- ratio 3:1
GENOTYPES:
PHENOTYPES:
Non-Mendelian Genetics
Incomplete Dominance
Codominance
Multiple Alleles
Polygenic Traits
Sex-Linked Traits
Incomplete Dominance
a third (new) phenotype
appears in the heterozygous
condition as a BLEND of the
dominant and recessive
phenotypes. Ex - Dominant Red (R) + Recessive White
(r) = Hybrid Pink (Rr)
RR = red rr = white Rr = pink
Problem:
Incomplete DominanceShow the cross between a pink and a white flower.
- RR (0%)
Rr (50%)
rr (50%)
- ratio 1:1
- pink (50%); white (50%)
- ratio 1:1
R r
r
r
rrRr
rrRr
GENOTYPES:
PHENOTYPES:
Codominancein the heterozygous condition, both alleles are expressed
equally with NO blending! Represented by using two DIFFERENT capital letters.
Example: Dominant Black (B) + Dominant White (W) = Speckled Black and White Phenotype (BW)
Sickle Cell Anemia -
NN =
normal cells
SS = sickle cells NS = some of
each
Codominance Example:
Speckled ChickensBB = black feathers
WW = white feathers
BW = black & white speckled feathers
Notice –
NO GRAY!
NO BLEND!
Each feather is
either black or white
Codominance Example:
RhodedendronR = allele for red flowers
W = allele for white flowers
Cross a homozygous red flower with a homozygous white flower.
Codominance Example:
Roan cattle
cattle can be
red
(RR – all red hairs)
white
(WW – all white hairs)
roan
(RW – red and white hairs together)
Codominance Example:
Appaloosa horsesGray horses (GG) are codominant to white horses
(WW). The heterozygous horse (GW) is an Appaloosa (a white horse with gray spots).
Cross a white horse with an appaloosa horse.
W W
G
W
GWGW
WWWW
Problem:
CodominanceShow the cross between an individual with
sickle-cell anemia and another who is a carrier
but not sick.N S
S
S
NS
NS
SS
SS
- NS (50%)
SS (50%)
- ratio 1:1
- carrier (50%)
sick (50%)
- ratio 1:1
GENOTYPES:
PHENOTYPES:
Multiple Alleles
there are more than two alleles for a gene.
Ex – blood type consists of two dominant and
one recessive allele
options. Allele A
and B are
dominant over
Allele O (i)
Multiple Alleles:
Lab Mouse Fur Colors
Fur colors (determined by 4 alleles):
black agouti yellow
Multiple Alleles:
Rabbit Fur Colors
Fur colors (determined by 4 alleles):
full, chinchilla, himalayan, albino
Multiple Alleles:
Blood Types (A, B, AB, O)Rules for Blood Types:
A and B are co-dominant (Both show)
AA or IAIA = type A
BB or IBIB = type B
AB or IAIB = type AB
A and B are dominant over O
AO or IAio = type A
BO or IBio = type B
OO or ioio = type O
Multiple Alleles:
Blood Types (A, B, AB, O)
Phenotype
Possible
Genotype(s)
Allele
(antigen)
on RBC
surface
Can
Donate
Blood
To
Can
Receive
Blood
From
A
IAio
IAIA A A, AB A, O
B
IBio
IBIB B B, AB B, O
AB IAIB AB AB
A, B,
AB, O
O ioio O
A, B,
AB, O O
Problem:
Multiple AllelesShow the cross between a mother who has type
O blood and a father who has type AB blood.
- Ai (50%)
Bi (50%)
- ratio 1:1
- type A (50%)
type B (50%)
- ratio 1:1
GENOTYPES:
PHENOTYPES:
i o io
IA
IB
IAio
IBio
IAio
IBio
Problem:
Multiple AllelesShow the cross between a mother who is heterozygous for
type B blood and a father who is heterozygous for type A blood.
-AB (25%); Bi (25%);
Ai (25%); ii (25%)
- ratio 1:1:1:1
-type AB (25%); type B (25%)
type A (25%); type O (25%)
- ratio 1:1:1:1
GENOTYPES:
PHENOTYPES:
Polygenic Traits
traits produced by multiple genes
example: skin color
Sex-Linked TraitsGene is attached to
the X chromosome
only, not found on
the Y chromosome
at all. (women have
XX, men have XY
chromosomes).
These disorders are
more common in
boys.
examples: red-green
colorblindness
Sex-Linked Traits
in males, there is
no second X
chromosome to
“mask” a recessive
gene. If they get an
X with the disorder,
they have it. Girls
must inherit
defective X’s from
both parents.
Sex-Linked TraitsA: 29, B: 45, C: --, D: 26
Normal vision
A: 70, B: --, C: 5, D: --
Red-green color blind
A: 70, B: --, C: 5, D: 6
Red color blind
A: 70, B: --, C: 5, D: 2
Green color blind