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Genetics
1
What is genetics?
• Every sex cell has one allele for each trait.
• Genetics - the study of how traits are
inherited through the interactions of alleles is
Genetics
1
Punnett Squares
• How could you predict what the offspring
would look like without actual mating?
• Punnett square –
A tool used to show possible combinations
of alleles
Genetics
1
Alleles Determine Traits
• Most cells in your body have two alleles for
every trait.
• These alleles are located on chromosomes
within the nucleus of cells.
Genetics
1
Punnett Squares
• They show the genotype or genetic makeup,
of an organism.
• The way an organism looks and behaves as a
result of its genotype is its phenotype
Genetics
1
Alleles Determine Traits
• An organism with two alleles that are the same is
called homozygous
• An organism that has two different alleles for a trait
is called heterozygous
Solving Punnet Squares
1.Draw box
2.Put names on top and side
3.Put genotypes
4.Cross top
5.Cross bottom
6.List genotypes
(1 hetero Xx,)
7.List phenotypes
(1 albino bird)
8.Calculate number out of 4 (1 of 4)
9.Calculate percentages
(25%)
6
Genetics
1
Making a Punnett Square
Dd
D
D
d
DD
Dd
Dd
dd
Dd
d
Genetics
1
Punnett Squares
• In a Punnett square, letters represent
Dominant and recessive alleles.
Dd
D
D
d
DD
Dd
Dd
dd
Dd
d
Genetics
1
Punnett Squares
•An Uppercase (D) letter stands for a dominant
allele.
•A lowercase (d) letter stands for a
recessive allele.
Dd
D
D
d
DD
Dd
Dd
dd
Dd
d
Genetics Since Mendel
2
Incomplete Dominance
• When the offspring of two homozygous parents
show an intermediate phenotype, this inheritance is
called incomplete dominance.
• Examples of incomplete dominance include the flower
color of some plant breeds and the coat color of some
horse breeds.
Genetics Since Mendel
2
Multiple Alleles
• Traits controlled by multiple alleles produce
more than three phenotypes of that trait.
• Blood type in humans is an example of
multiple alleles that produce only four
phenotypes.
• The alleles for blood types are called A, B,
and O.
Genetics Since Mendel
2
Multiple Alleles
• When a person inherits
one A allele and one B
allele for blood type,
both are
expressedphenotype
AB.
• A person with
phenotype A blood has
the genetic makeup, or
genotypeAA or AO.
Genetics Since Mendel
2
Multiple Alleles
• Someone with
phenotype B blood
has the genotype BB
or BO.
• Finally, a person with
phenotype O blood has
the genotype OO.
Genetics Since Mendel
2
Allele O is recessive
A and B are dominant
Multiple Alleles
Father type AB
phenotype
A
Mother type B
phenotype
B
BB
AB
Called AB
B
B
AB
Called B
BB
Genetics Since Mendel
2
Multiple Alleles
Father type A
phenotype
A
Mother type B
phenotype
B
AB
Called AB
o
Ao
Called A
Allele O is recessive
A and B are dominant
Can only be
Ao or AA
o
Bo
Called B
oo
Genetics Since Mendel
2
Multiple Alleles
• When a person inherits
one A allele and one B
allele for blood type,
both are
expressedphenotype
AB.
• A person with
phenotype A blood has
the genetic makeup, or
genotypeAA or AO.
Genetics Since Mendel
2
Multiple Alleles
• Someone with
phenotype B blood
has the genotype BB
or BO.
• Finally, a person with
phenotype O blood has
the genotype OO.
Genetics Since Mendel
2
Allele O is recessive
A and B are dominant
Multiple Alleles
Father type AB
phenotype
A
Mother type B
phenotype
B
BB
AB
Called AB
B
B
AB
Called B
BB
Genetics Since Mendel
2
Multiple Alleles
Father type A
phenotype
A
Mother type B
phenotype
B
AB
Called AB
o
Ao
Called A
Allele O is recessive
A and B are dominant
Can only be
Ao or AA
o
Bo
Called B
oo
Genetics Since Mendel
2
Multiple Alleles
Genotype
Ao or AA
Bo or BB
AB
oo
Phenotype
A
B
AB
o
Note in blood typing
there is only one recessive – type o
The A or B are dominant – which why it is called multiple alleles
Genetics Since Mendel
2
Pedigrees Trace Traits
• A pedigree is a visual tool for following a
trait through generations of a family.
• Males are
represented
by squares
and females
by circles.
Child
Child
Note children and genetic/blood relatives are connected by the direct white line
Genetics Since Mendel
2
Pedigrees Trace Traits
• A completely filled circle or square shows
that the trait is seen in that person.
• Half-colored circles or squares indicate
carriers.
• People
represented by
empty circles or
squares do not
have the trait and
are not carriers.
Genetics Since Mendel
2
Using Pedigrees
• A pedigree is a useful tool for a geneticist.
• When geneticists understand how a trait is
inherited, they can predict the probability that
a baby will be born with a specific trait.
Genetics Since Mendel
2
Using Pedigrees
• Pedigrees also are important in breeding
animals or plants.
• These organisms are bred to increase their
yield and
nutritional
content.
Genetics Since Mendel
2
Sex Determination
• Each egg produced by a female normally
contains one X chromosome.
• Males produce sperm that normally have
either an X or a Y chromosome.
Genetics Since Mendel
2
Sex Determination
• When a sperm with an X chromosome
fertilizes an egg, the offspring is a female,
XX.
• A male offspring, XY is the result of a Ycontaining sperm fertilizing an egg.
Genetics Since Mendel
2
Chromosome Disorders
• If three copies ( an extra ) of chromosome 21
are produced in the fertilized human egg,
Down’s syndrome results.
Genetics Since Mendel
2
Recessive Genetic Disorders
• Cystic fibrosis is the most common
Recessive genetic disorder
• Can lead to death among Caucasian
Americans.
Genetics Since Mendel
2
Impact of the Environment
• Your environment plays a role in how some
of your genes are expressed or whether they
are expressed at all.
• Environmental influences can be
internal or external.
•
Genes determine many of your traits, you might be able to influence their expression
by the decisions you make.
• Some genetically people at risk for skin cancer limit their exposure to the Sun and take
care of their skin, they might never develop cancer.
Biotechnology
3
Genetic Engineering
• Through genetic engineering, scientists are experimenting
with biological and chemical methods to change the
arrangement of DNA that makes up a gene.
• Genetic engineering already is used to help produce
large volumes of medicine.
Biotechnology
3
Genetically Engineered Plants
• Genetic engineering can produce improvements in
crop plants, such as corn, wheat, and rice.
• One type of genetic engineering involves finding the genes
that produce desired traits in one plant and then inserting
those genes into a different plant.
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