Genetics

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Genetics

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Title: Genetics

1
Genetics
2
Heredity

Inheritance of traits

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
3
Genetics

Gregor Mendel
Suggested that paired factors, or genes, carry
inherited traits.
Predicted how traits were inherited by studying
pea plants

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
4
Simple Dominant Traits

Traits that are controlled by one pair of genes
One dominant allele is all that the organism
needs to show the dominant trait

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
5
Recessive attached ear lobes
Dominant Free Ear Lobes
Hitch hikers thumb Dominant
Tongue Roll Dominant trait
Regular thumb Recessive
6
Section 10.1 Summary pages 253-262
Seed shape
Flower color
Seed color
Flower position
Pod color
Pod shape
Plant height
Dominant trait
axial (side)
purple
round
yellow
green
tall
inflated
Recessive trait
terminal (tips)
green
white
yellow
short
wrinkled
constricted
Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
7
Alleles

Different forms of a gene type
Organisms have two genes (alleles) for each
trait.
One gene (allele) from female gamete (egg).
One gene (allele) from male gamete (sperm).

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
8
Dominant gene (allele)

Stronger of two genes
Represented with capital letters
Written first
Example T for tall plant height

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
9
Recessive gene (allele)

Weaker of two genes
Can be hidden by dominant genes.
Represented with lower case letters
Example t for short plant height

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
10
Pure (Homozygous)

Two of the same genes (alleles) for a trait
Example TT (homozygous dominant) or tt
(homozygous recessive)

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
11
Hybrid (Heterozygous)

Two different alleles for a trait
Example Tt

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
12
Genotype

Combination of alleles or genes for a certain
trait
Example Tt, TT, tt

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
13
Phenotype

Visible traits (how it looks)
Determined by looking at organism
Example tall, short

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
14
Genotype or Phenotype?

Tt
Round
Black
BB
Smooth
rr
Tall

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
15
In pea plants, green pods are completely dominant
over yellow.

What are the genotypes?
Homozygous yellow
Heterozygous green
Pure dominant
Hybrid

gg
Gg
GG
Gg
Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
16
In pea plants, green pods are completely dominant
over yellow.
gg

Pure yellow
Homozygous recessive
Pure green
Heterozygous
Yellow

gg
GG
Gg
gg
Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
17
In guinea pigs, short hair is dominant over long
hair

What letter should be used for the gene for hair
length?
What hair length will be represented by a capital
S?
What hair length will be represented by a lower
case s?

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
18
What phenotypes would result from the following
genotypes?

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
19
What are the phenotypes of the parent plants?
If both parents are pure, what are their
genotypes?
Short plant
Tall plant
Which gene or allele can each parent pass on to
the offspring?
t
t
T
T
t
T
What is the phenotype of the offspring?
What is the genotype of the offspring?
All tall plants
t
T
20
In pea plants, round pea pod texture is dominant
over wrinkled texture. What is the genotype of
the following?

homozygous round
heterozygous
wrinkled
pure dominant
hybrid round

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
21
In pea plants, round pea pod texture is dominant
over wrinkled texture. What is the genotype of
the following?

pure recessive
heterozygous round
pure wrinkled
hybrid
pure round

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
22
Punnett Squares

Punnett squares used to predict and compare the
genetic differences that will result from a cross.

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
23
Section 10.1 Summary pages 253-262
Monohybrid crosses
Heterozygous tall parent
T
t
T
t
T
TT
Tt
Tt
tt
t
T
t
Heterozygous tall parent
Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
24
Generations of Inheritance
Start by crossing homozygous parents
tt
TT
P1
Short pea plant
Tall pea plant
Results in heterozygous offspring
Tt
F1
Crossing heterozygous offspring from F1
generation results in three tall and 1 short
All tall pea plants
TT
Tt
Tt
tt
F2
3 tall 1 short
25
Incomplete dominance

Alleles BLEND (mix)
Neither gene is dominant
A third or new phenotype can be seen
Think about colors of paint ?

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
26
Red
X
White
PINK

If a red impatient is crossed with a white
impatient, the resulting flowers are pink.
Red and white blend like paint colors to produce
pink (new phenotype).

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
27
Incomplete Dominance
R
R

RW
RW
W
RW
RW
W
www.nerdscience.com
11-3
28
Codominance

Both alleles are dominant
Both alleles are seen (expressed) TOGETHER
There is NO blending

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
29
Codominance Both alleles or genes are expressed
White
Red
X
Red White
Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
30

Red cow crossed with white cow results in roan
cattle. Roan cattle have both red and white
hairs.

Codominance
31
Codominance

Example
White chicken x black chicken black and white
checkered chicken

32
Incomplete or Codominance?

A white cow and a red cow produce a roan cow, one
that has both white and red hairs.
A red flower and a white flower produce pink
flowers.
A black cat and a tan cat produce tabby cats,
cats where black and tan fur is seen together.

33
Incomplete or Codominance?

A blue blahblah bird and a white blahblah bird
produce offspring that are silver.
A certain species of mouse with black fur is
crossed with a mouse with white fur and all of
the offspring have grey fur.
A woman with blood type A and a man with blood
type B have a child with blood type AB.

34
Blood Types (codominant)
Phenotype (Blood type) Genotype (Alleles or genes for blood type)
A IAIA, IAi
B IBIB, IBi
AB IAIB
O ii

Blood type is codominant
4 different blood types

35
Charles Drew

Charles Drew impacted blood donation and blood
banks

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
36

Three Basic Principles of Genetics

37
The Principle of Dominance

One gene for a trait may hide the other gene and
keep it from being seen (expressed) in the
organism

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
38
Section 1 Check
When Mendel crossed a tall pea plant with a short
pea plant, all the offspring plants were tall.
In such crosses when only one trait was
observed, Mendel called the observed trait
dominant.
Tall plant
t
t
T
T
t
T
F1
All tall plants
t
T
Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
39
The Principle of Segregation

The two genes for a trait separate, or segregate,
during the formation of gametes (meiosis).
This happens when pairs of chromosomes separate
during meiosis

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
40
The Principle of Independent Assortment

Genes for different traits separate independently
during the formation of gametes.

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
41
Sex Chromosomes

X and Y chromosomes
Determine the sex of the offspring
Females have two large XX chromosomes
Males have an X and a smaller Y chromosome (XY).

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall. Miller, K.
R., Levine, J. S. (2005). Chapter 14 The Human
Genome.Prentice Hall biology (North Carolina ed.,
pp. 340- 365). Upper Saddle River, N.J. Prentice
Hall.
42
Sex Chromosomes

All other chromosomes are autosomes.
Human sperm contain 22 autosomes and an X or Y
chromosome
Human eggs contain 22 autosomes and an X
chromosome

Most are carried on the X chromosome
Also called X-linked traits
Hemophilia and color blindness are recessive
sex-linked traits carried on the X-chromosome
Males show recessive traits more than females

Males get only one allele for a sex-linked trait
carried on the X chromosome (nothing on Y)
Females have a second X chromosome that carries
another allele that can hide recessive traits

Females who have recessive alleles but show the
dominant trait are called carriers
A woman can have normal vision but carry the
recessive allele for colorblindness

Done to determine the genotypes of organisms that
show dominant traits
Unknown genotype organism is crossed with a
homozygous recessive (Example tt)

If all offspring have the dominant trait then the
genotype is probably pure (TT x tt)
If some of the offspring show the recessive
trait, then the genotype is heterozygous.(Tt x
tt)

Method of determining the genotype of individuals
by looking at inheritance patterns

Miller, K. R., Levine, J. S. (2005). Chapter
14 The Human Genome.Prentice Hall biology (North
Carolina ed., pp. 340- 365). Upper Saddle River,
N.J. Prentice Hall.
49
Human Genetics

23 pairs of chromosomes (46 total)
Pedigrees are used to trace genetic traits

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
50
Male
Parents
Siblings
Female
Pedigrees illustrate inheritance
Affected male
Known heterozygotes for recessive allele
Affected female
Mating
Death
Miller, K. R., Levine, J. S. (2005). Chapter
14 The Human Genome.Prentice Hall biology (North
Carolina ed., pp. 340- 365). Upper Saddle River,
N.J. Prentice Hall.
51
Pedigrees illustrate inheritance
Female
Male
I
1
2
II
2
1
3
4
5

In a pedigree, a circle represents a female a
square represents a male.

III
1
4
2
3
?
IV
5
3
4
2
1
Miller, K. R., Levine, J. S. (2005). Chapter
14 The Human Genome.Prentice Hall biology (North
Carolina ed., pp. 340- 365). Upper Saddle River,
N.J. Prentice Hall.
52
Pedigrees illustrate inheritance
I
1
2
II
3
2
1
4
5

Highlighted circles and squares represent
individuals showing the trait being studied.

III
1
4
2
3
?
IV
2
3
5
1
4
Miller, K. R., Levine, J. S. (2005). Chapter
14 The Human Genome.Prentice Hall biology (North
Carolina ed., pp. 340- 365). Upper Saddle River,
N.J. Prentice Hall.
53
Pedigrees illustrate inheritance
I
1
2
II

Circles and squares that are not highlighted
represent individuals that do not show trait.

2
3
1
4
5
III
1
4
2
3
?
IV
3
5
2
4
1
Miller, K. R., Levine, J. S. (2005). Chapter
14 The Human Genome.Prentice Hall biology (North
Carolina ed., pp. 340- 365). Upper Saddle River,
N.J. Prentice Hall.
54
Pedigrees illustrate inheritance

A half-shaded circle or square represents a
carrier, a heterozygous individual.

Miller, K. R., Levine, J. S. (2005). Chapter
14 The Human Genome.Prentice Hall biology (North
Carolina ed., pp. 340- 365). Upper Saddle River,
N.J. Prentice Hall.
55
Pedigrees illustrate inheritance

A horizontal line connecting a circle and a
square indicates that the individuals are
parents, and a vertical line connects parents
with their offspring.

I
1
2
II
4
3
2
1
5
III
1
4
2
3
?
IV
2
3
5
1
4
Miller, K. R., Levine, J. S. (2005). Chapter
14 The Human Genome.Prentice Hall biology (North
Carolina ed., pp. 340- 365). Upper Saddle River,
N.J. Prentice Hall.
56
Pedigrees illustrate inheritance

Each horizontal row of circles and squares in a
pedigree designates a generation, with the most
recent generation shown at the bottom.

I
1
2
II
1
3
2
4
5
III
1
2
4
3
?
IV
3
5
1
2
4
Miller, K. R., Levine, J. S. (2005). Chapter
14 The Human Genome.Prentice Hall biology (North
Carolina ed., pp. 340- 365). Upper Saddle River,
N.J. Prentice Hall.
57
Pedigrees illustrate inheritance

The generations are identified in sequence by
Roman numerals, and each individual is given an
Arabic number.

Chromosome pairs do not separate correctly
One gamete has too many the other too few

Miller, K. R., Levine, J. S. (2005). Chapter
14 The Human Genome.Prentice Hall biology (North
Carolina ed., pp. 340- 365). Upper Saddle River,
N.J. Prentice Hall.
61
Nondisjunction

Examples
Trisomy 21 - Down Syndrome (extra chromosome 21)

Miller, K. R., Levine, J. S. (2005). Chapter
14 The Human Genome.Prentice Hall biology (North
Carolina ed., pp. 340- 365). Upper Saddle River,
N.J. Prentice Hall.
62
Down Syndrome
63

XXY syndrome (Klinefelter Syndrome)

Miller, K. R., Levine, J. S. (2005). Chapter
14 The Human Genome.Prentice Hall biology (North
Carolina ed., pp. 340- 365). Upper Saddle River,
N.J. Prentice Hall.
64
Genetic Disorders

Most caused by recessive alleles
Cystic fibrosis
Sickle-cell anemia
Phenylketonuria (PKU)
Tay-Sachs disease

Miller, K. R., Levine, J. S. (2005). Chapter
14 The Human Genome.Prentice Hall biology (North
Carolina ed., pp. 340- 365). Upper Saddle River,
N.J. Prentice Hall.
65
Karyotype

Chart of chromosome pairs
Shows unusual number of chromosomes
Can detect trisomy 21 (Down syndrome)
Identifies male or female

Miller, K. R., Levine, J. S. (2005). Chapter
14 The Human Genome.Prentice Hall biology (North
Carolina ed., pp. 340- 365). Upper Saddle River,
N.J. Prentice Hall.
66
Karyotype
Normal Female
67
(No Transcript)
68
Karyotype
Female with Down Syndrome
69
Autosomal Disorders in Humans
14-1
www.nerdscience.com
70
Dihybrid Cross
RrYy x RrYy
RY Ry rY ry
RY RRYY RRYy RrYY RrYy
Ry RRYy RRyy RrYy Rryy
rY RrYY RrYy rrYY rrYy
ry RrYy Rryy rrYy rryy
www.nerdscience.com
11-3
71
Extra Studying

While all of these chapters where not used in
this Power Point, you may find it useful to go
and read, or re-read, the following chapters in
your text book.
Chapter 11 Introduction to Genetics
Chapter 12 DNA and RNA
Chapter 13 Genetic Engineering
Chapter 14 The Human Genome
Chapter 16 Evolution of Populations

Underlined Chapters are covered in Power Point.
72
Bibliography

Miller, K. R., Levine, J. S. (2005). Chapter
11 Introduction to Genetics. Prentice Hall
biology (North Carolina ed., pp. 262- 285). Upper
Saddle River, N.J. Prentice Hall.
Miller, K. R., Levine, J. S. (2005). Chapter
12 DNA and RNA. Prentice Hall biology (North
Carolina ed., pp. 286- 317). Upper Saddle River,
N.J. Prentice Hall.
Miller, K. R., Levine, J. S. (2005). Chapter
13 Genetic Engineering. Prentice Hall biology
(North Carolina ed., pp. 318- 339). Upper Saddle
River, N.J. Prentice Hall.
Miller, K. R., Levine, J. S. (2005). Chapter
14 The Human Genome.Prentice Hall biology (North
Carolina ed., pp. 340- 365). Upper Saddle River,
N.J. Prentice Hall.
Miller, K. R., Levine, J. S. (2005). Chapter
16 Evolution of Populations. Prentice Hall
biology (North Carolina ed., pp. 392- 415). Upper
Saddle River, N.J. Prentice Hall.