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Transcript genetics notes_1 

Genetics is the study of inheritance
Parents send information about traits
(characteristics) to their offspring.
This information is what we refer to as genes.
Genes are located on chromosomes which are made
of DNA.
Each individual has two copies of a gene, one from
each parent.(one from egg, one from sperm).
The two copies of each gene may or may not have
the same information (or ALLELES) for each trait
For example both of your parents gave you an
ALLELE for tongue rolling.
Allele = form of a trait
Your mom might have given you the gene that says
you can roll your tongue. While your dad might
have given you the gene that says you cannot roll
your tongue.
Dominant - represented by capital
letters it is the overpowering trait
Recessive - represented by lowercase
letters it is the trait that is
sometimes hidden by the dominant
trait
The ability to roll your tongue is a dominant trait,
so it would be represented with a T
Not being able to roll your tongue would be a
recessive trait represented with a t
If they are the same genes the individual is
said to be homozygous for that trait. DD or
dd
If they have different information the
individual is said to be heterozygous for
that trait. Dd
Remember homo means the same
And
Hetero means different
Let’s Practice!
Determine if each is Homozygous or
Heterozygous.
AA
Aa
aa
Phenotype of an organism is its physical
appearance (what it is going to look like)
Example: Acne or No Acne, Big Eyes or
Small Eyes
The genotype of an organism is the genes or
letters that organism has for a trait.
Ex. AA, Aa, or aa
Hybrid vs. Purebred?
If you have a Hybrid dog breed vs. a
Purebred Dog breed, what does that mean?
HOW TO SUCCEED IN
GENETICS PROBLEMSOLVING
LEGEND
PARENTS
CROSS IT
RESULTS
The ability to roll your tongue is a dominant trait,
so it would be represented with a T
Not being able to roll your tongue would be a
recessive trait represented with a t
If the dad cannot roll his tongue his
genotype is tt
If the mom can roll her tongue her genotype
is either TT or Tt
Let’s say the mom is heterozygous for the
tongue rolling trait which would make her
genotype Tt
HOW TO SUCCEED IN
GENETICS PROBLEMSOLVING
LEGEND
T= Tongue
roller
t = non
roller
PARENTS
CROSS IT
RESULTS
HOW TO SUCCEED IN
GENETICS PROBLEMSOLVING
LEGEND
T= Tongue
roller
t = non
roller
PARENTS
tt x Tt
CROSS IT
RESULTS
In flowers red petal color is dominant to
white petal color. Cross a heterozygous red
petaled flower with a white petaled flower
Rr x
rr
Phenotype
50% Red
50% White
Genotype
50% Rr
50% rr
HOW TO SUCCEED IN
GENETICS PROBLEMSOLVING
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Rr x Rr
Phenotype
Genotype
75% Red
25% RR
25% White
50% Rr
25% rr
RR x Rr
Phenotype
Genotype
100% Red
50% RR
0% White
50% Rr
HOW TO SUCCEED IN
GENETICS PROBLEMSOLVING
LEGEND
PARENTS
CROSS IT
RESULTS
Polydactylous cats have more than five toes. In
fact, the author, Ernest Hemingway is credited
with establishing a large colony of about 50 feral
polydactylous cats in the Florida Keys. One of his
cats, Princess six-toes appeared in the New York
Times. The polydactyl allele is dominant over the
allele for five toes and fingers. Predict the
offspring of a mating between a heterozygous
polydactylous male and female.
HOW TO SUCCEED IN
GENETICS PROBLEMSOLVING
LEGEND
PARENTS
CROSS IT
RESULTS
More Practice!
Albinism is the absence of skin pigmentation and is a recessive
trait found in humans and other animals. In the human
population about 1/20,000 individuals is an albino. Normal
pigmentation (A) is dominant to albinism (a). If an albino
woman marries a homozygous normal man, what is the
likelihood that one of their children will display albinism?
HOW TO SUCCEED IN
GENETICS PROBLEMSOLVING
LEGEND
PARENTS
CROSS IT
RESULTS
Test Cross
 A common squash in Texas is the Yellow crooked-neck
squash. This fruit is a source of vitamin A, B, and C. It
also contains calcium and iron. Yellow colored squash (y)
is recessive to white-colored squash (Y). If a yellow male
squash is crossed with a female white-squash and 5 of
the offspring are yellow, and 5 are white, what is the
genotype of the female white squash?
HOW TO SUCCEED IN
GENETICS PROBLEMSOLVING
LEGEND
PARENTS
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RESULTS
Test Cross
BONUS: A woman with normal pigmentation
marries an albino man and their first child is an
albino. What are the genotypes of the couple?
HOW TO SUCCEED IN
GENETICS PROBLEMSOLVING
LEGEND
PARENTS
CROSS IT
RESULTS
DIY Monohybrid Cross Practice
Problems
 You will be responsible for creating a practice problem for
your classmates to perform. Do a quick google search of
real world dominant and recessive traits, and then create
a document or presentation to share with your
classmates.
 Example on next slide!
In Quaker Parrots, green feathers (F) are dominant to
blue feathers (f). If a homozygous dominant male mates
with a homozygous recessive female, what are the
chances that they would have a blue feathered
offspring?
Legend
Parents
F = Green feathers
f = blue feathers
FF x ff
Cross
Results
F
f
f
F
Ff
Ff
Ff
Ff
Phenotype:
Green : blue
4: 0
Genotype
FF: Ff: ff
0 : 4: 0
Or make it a little fun….
 Bieber hair (H) is dominant over clown fro hair (h). Vernon
has bieber hair, If Vernon married a clown fro chicka what
is the possibility of them having clown fro babies?

Vernon
+
Clown Fro
Chicka
Intermediate Inheritance (aka Incomplete
Dominance)
Sometimes the dominant and the recessive trait
blend together.
For example, in snapdragons a red flower crossed
with a white flower = all pink flowers!
Intermediate Inheritance: THE RULES ARE GOING TO CHANGE
in how we write the GENOTYPE!!!!
Example: When you cross a Red(FRFR) flower with a White
flower(FWFW) all offspring are pink (FRFW)
Legend
______= Red
_______=White
FRFW=_______
Parents
Cross it
Genotypic Ratio
FRFR: FWFW: FRFW
Phenotypic Ratio
Red: White: PINK
CoDominance—BOTH alleles
exhibit dominance!
Ex. Roan Horses
CODOMINANCE:
Example: When you cross a Red(FRFR) horse with a White
horse(FWFW) all offspring are RED AND WHITE (FRFW)
Legend
______= Red
_______=White
FRFW=_______
Parents
Cross it
Genotypic Ratio
FRFR: FWFW: FRFW
Phenotypic Ratio
Red: White:
Red/White
In chickens, black and white feather color are
codominant alleles for this trait. Using superscript
notation, show a cross between two black and
white feathered chickens (erminette).
LEGEND
PARENTS
CROSS IT Genotype
Phenotype
Dihybrid Cross
 Monohybrid = 1 trait
 Dihybrid = 2 traits
Dihybrid Cross in Pea Plants
 Round (R) is Dominant, wrinkled (r) is recessive
 Yellow (Y) is Dominant, green (y) is recessive
RrYy x RrYy
Phenoype:
9:3:3:1
9 round & yellow, 3 round & green,
3
wrinkled & yellow, 1 wrinkled & green
(Cliff’s) Notes on Genetics!!
 Create a Foldable with a page for each of
the following terms.
Each page MUST
1. Dominant v. Recessive
include
2. Homozygous v. Heterozygous
A. Title
3. Phenotype v. Genotype
B. Definition
C. Illustration
4. Monohybrid v. DiHybrid Cross
D. Punnett Square
5. Intermediate Inheritance
Example
6. Codominance
7. Multiple Alleles
8. Sex-Linked Traits
9. Polygenic Traits
10. Questions you still have about Genetics
Cliff’s Notes on Genetics Sample Page
(Title)
DOMINANT vs.
recessive
(Definition) A Dominant trait will
overpower or mask a recessive trait.
(Illustration)
(Punnett Square Practice) Albinism (a)is a recessive trait. Normal skin pigmentation
(A) is a dominant trait. Cross a homozygous normal male with an albino female.
LEGEND
A-Normal
(DOMINANT
trait)
a- albino
(recessive trait)
PARENTS
AA x aa
CROSS IT
F F
Ff
f Ff
f Ff
Ff
RESULTS
Genotype : FF:Ff:ff
0:4:0
Phenotype:
Normal:Albino
4:0
Your 23rd pair of chromosomes are called your “sex
chromosomes”
These chromosomes have the genes that determine if you
are male XY or female XX.
Who determines the sex of the child the mom or the dad?
The dad is the only one that can give a Y chromosome so
he is the one that determines the sex of the child.
Some traits are sex linked traits like: colorblindness,
hemophilia (a blood disorder), and certain types of
baldness.
Sex linked traits are traits that are on the X chromosome
Cross a male who does not have hemophilia with a female
carries hemophilia, but does not have it.
Some traits are controlled by genes that have more
than two alleles this is called a multiple allele.
An example of multiple alleles is blood types.
Blood Type
Genotype
(Phenotype)
A
IAIA or IAi
B
IBIB or IBi
AB
I AI B
O
ii
Phenotypic Ratio
25% AB
25% A
25% B
25% O
Phenotypic Ratio
50% A
50% O
Polygenic Traits
Poly – many
Genic – genes
Polygenic Traits are traits that are controlled by
many genes.
Skin, hair, and eye color are all influenced by the
effects from three to six genes.
Each of these genes control the amount of a
pigment called melanin. The more of the genes
that are expressed, the darker the color
produced.
http://www.howe.k12.ok.us/~jimaskew/bio/bktype.htm