Chapter 14 Mendel - PowerPoint PPT Presentation

1 / 46

About This Presentation

Title:

Chapter 14 Mendel

Description:

You looked at 7 traits, the gene for each residing on a different chromosome. ... (now known as alleles, which reside on chromosomes) segregate, or separate. ... – PowerPoint PPT presentation

Number of Views:62

Avg rating:3.0/5.0

Slides: 47

Provided by: paulh212

Category:

more less

Transcript and Presenter's Notes

Title: Chapter 14 Mendel

1
Reebop Ratios
2
Part 1 IntroductionPart 2 Mendelian Genetics
and Beyond
3
Part 1 Introduction
4
Remember your baby Reebops?

Lets think about the tail trait.
What were the possible phenotypes?
curly tail
straight tail
What were the possible genotypes?
TT curly tail
Tt curly tail
tt straight tail

5
Important Words

Homozygous Having two alleles (forms of a gene)
that are identical (TT or tt).
Heterozygous Having two alleles (forms of the
gene) that are different (Tt).
Dominant The dominant allele is expressed when
homozygous (TT) and when heterozygous (Tt).
Recessive The recessive allele is only expressed
when homozygous (tt).

Which of the genotypes below are heterozygous?
Homozygous?
Tt TT tt
Based on these genotypes and phenotypes, which
allele is dominant, T or t? How do you know?
TT curly tail
Tt curly tail
tt straight tail

7
Quick-Think Time

If your original Reebop parents had 100
offspring, how many of them would you expect to
have a curly tail?
How many of them would you expect to have a
straight tail?
Why do you think so?
Why would someone want to predict the numbers of
offspring to have a particular trait?

8
Punnetts Square

We can find out the expected number of
curly-tailed and straight-tailed babies with a
tool called Punnetts Square.
We will call it Punnetts Fertilization
Probability Square.

9
Who was Punnettand what is his square?

REGINALD CRUNDALL PUNNETT (1875-1967)was among
the first English geneticists. He created the
Punnett Square to work out what the possible
offspring of two parents will be.

10
Curly-tailed Dad
possible gametes
t
T
T
t
T
Tt
TT
possible gametes
tt
Tt
t
t
T
Curly-tailed Mom
11
Quick-Think Time
T
T
T
t
t
T
Tt
TT
T
tt
Tt
t
t
t
How many out of 100?
12
Expected Genotype
25
T
T
T
t
t
T
50
Tt
TT
T
tt
Tt
t
t
t
25
13
Expected Phenotype
T
T
T
t
t
T
50 25 75 curly-tailed
Tt
TT
T
tt
Tt
t
t
t
25 straight-tailed
14
From Percentages to Ratios
25 TT to 50 Tt to 25 tt
Genotypic ratio of 1 to 2 to 1, or 121
75 curly-tailed to 25 straight-tailed
Phenotypic ratio of 3 to 1 or 31
15
How can we test this prediction?
Expected genotypic ratio 121
Expected phenotypic ratio 31
16
STOP to complete Reebop Ratios activity
17

Part 2 Mendilian Genetics and Beyond

18
You and Gregor Mendel

In the first Reebop activity, you looked at the
variety of offspring produced by two parents.
You looked at 7 traits, the gene for each
residing on a different chromosome.
You learned about how meiosis and fertilization
contribute to variation in organisms.

19
You and Gregor Mendel

In the second Reebop activity, you looked at the
expected and experimental ratios of offspring
with curly and straight tails.
You, and a nineteenth-century monk named Gregor
Mendel have a lot in common.
Lets find out why.

20
(No Transcript)
21
Mendel the Garden Pea

Gregor Mendel, Austrian Monk
In 1866, Mendel performed breeding experiments
with garden pea plants and observed consistent,
predictable patterns of inheritance.
From his observations, Mendel developed a number
of principles, today referred to as Mendel's Laws
of Inheritance.

22
Before Mendel

In the 19th century, when both Gregor Mendel and
Charles Darwin were alive, blending inheritance
was a popular idea.
According to blending inheritance, traits from
parents blended in offspring producing
intermediate traits.
Example The offspring of one short parent and
one tall parent would be of medium height. This
offspring would pass the new medium sized trait
to its own offspring.

23
Quick-Think Time

Imagine that blending inheritance occurs in
Reebops.
What type of tail would the offspring of
curly-tailed and straight-tailed parents have?
What would happen to variation in this population
over time?

24
Darwin and Mendel
18091882
18221884
25
Darwin and Mendel

Darwin observed that variation, in the form of
individual differences, exists in every species,
and is not reduced from one generation to the
next.
He proposed that natural selection acts on this
variation.
Darwin knew that in order for his idea to be
valid, a mechanism for preserving and inheriting
variation had to exist.

26
Darwin and Mendel

THE BIG IDEA
Mendels work answered Darwins difficult
question.
Mendel showed that traits from parents do not
blend. The traits remain distinct and can be
passed on to later generations. Genetic variation
is preserved.
Mendel also proposed a mechanism for how this
variation is inherited and preserved.

27
Mendel summarized his findings in three theories

Mendels first law, or the principle of
segregation
During the formation of eggs and sperm, paired
factors (now known as alleles, which reside on
chromosomes) segregate, or separate.

28
Quick-Think Time

Explain how Mendels Principle of Segregation was
demonstrated in the Reebop activities.

29
Mendel summarized his findings in three theories

Mendels second law, or the principle of
independent assortment
Each pair of factors (now known as alleles)
separate and recombine into gametes independently
of each other.

30
Quick-Think Time

Explain how Mendels Principle of Independent
Assortment was demonstrated in the Reebop
activities.

31
Mendel summarized his findings in three theories.

Mendels third law, or the law of dominance
Each characteristic is determined by the
interaction of two hereditary factors (now called
alleles), one from each parent. Mendel found that
one allele was always dominant over the other.

32
Quick-Think Time

Explain how Mendels Law of Dominance was
demonstrated in the Reebop activities.

33
Mendel Probability

coin (heads/tails)
probability of heads or tails ½
probability of getting heads 3 times in a row
multiplication rule
(½ x ½ x ½ 1/8)

34
Extensions of Mendelian Genetics

Many researchers have encountered exceptions to
Mendelian Principles was he wrong?

Majority of heritable characters not as simple as
peas
Phenotypes affected by many genes, sequential,
jointly, environment, etc.

35
Extensions of Mendel

Incomplete Dominance appearance between
dominant and recessive

F2 generation 1 2 1 CRCRCRCWCWCW
F1 Generation All CRCW
Eggs
CR
CRCR
Sperm
Cw
121 phenotypic ratio 121 genotypic ratio
CWCW
36
Another example of Incomplete Dominance
Chestnut, CC
Palomino, CCcr
Cremello, CcrCcr
37
Extensions of Mendel

Codominance both alleles affect phenotype in
separate ways
Only observed at the cellular or molecular level

e.g., M N bloodgroups (RBC surface marker)
MM
NN
MN (both equally expressed)

38
Extensions of Mendel

Multiple alleles of a single gene ABO blood
groups

A, B, AB, O
Combinations of 3 different alleles
IA, IB, I
A and B dominant to O, but not to each other
A and B are codominant

39
Extensions of Mendel

Multiple alleles of a single gene ABO blood
groups

I enzyme that adds sugar molecules to lipids on
surface of RBC recognized by our immune system
IB adds galactose (IBIB or IBi) B
IA adds galactosamine (IAIA or IAi) A
i does not add a sugar (ii) O
IA IB adds both sugars AB

40
Multiple AllelesABO Blood Groups
Possible alleles from female
Possible alleles from male
Blood Types
A
AB
B
O
41
Extensions of Mendel

Epistasis one gene influences a second gene
(gene interaction)

For example in dogs
B gene determines whether pigment (melanin) is
brown or black.
E geneenables or prevents melanin from being
deposited in the coat.

42
Epistatic Ineractions on Coat Color
ee
E_ No dark pigment in fur
Dark pigment in fur Yellow
Lab E_bb E_B_
eebb eeB_ Chocolate Lab Black
Lab Yellow fur, Yellow fur, Brown fur,
Black fur, brown nose, black
nose, nose, lips, nose, lips, lips, eye
rims lips, eye rims eye rims eye
rims
43
Pedigree Analysis