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Transcript
Pedigree Charts
The family tree of genetics
I
II
III
Overview
What is a pedigree?
I.
a.
b.
Definition
Uses
Constructing a pedigree
II.
a.
b.
III.
Symbols
Connecting the symbols
Interpreting a pedigree
Pedigree definition
 Pedigree:
a family history that
shows how a trait is inherited over
several generations
 Pedigrees
are usually used when
parents want to know if they are
carriers of a particular disorder
Making a Pedigree
Filled in symbols
indicate
individual is
affected with a
disorder
 Female
 Male
 Married
 Siblings
Couple
Connecting Pedigree Symbols
Examples of connected symbols:
Fraternal
twins
Identical
twins
Example of a Pedigree
Grandparents
Grandparents
Parents
Aunts, Uncles
Aunts, Uncles
Brother
You
Do any disorders run in this family??
Example of Pedigree Charts
 How
is the disorder most likely
inherited?
Autosomal recessive.
Answer
 Recessive
Example of Pedigree Charts
How is the disorder most likely
inherited?
Autosomal dominant:
The trait runs in every
generation and affects
several family
members.
Grandparents
Grandparents
Parents
Aunts, Uncles
Sex Linked! The allele
is inherited on the x
chromosome
Brother
Aunts, Uncles
You
Interpreting a Pedigree Chart
1.
Determine if the pedigree chart shows an
autosomal or X-linked disease.
– If most of the affected individuals in the
pedigree are male the disorder is Xlinked
– If there is more of a balance between
the ratio of the men and women the
disorder is autosomal.
Interpreting a Pedigree Chart
2.
Determine whether the disorder is
dominant or recessive.
– If the disorder is dominant, one of
the parents must have the
disorder.
– If the disorder is recessive, neither
parent has to have the disorder
because they can be heterozygous.
Summary
 Pedigrees
are family trees that
explain your genetic history.
 Pedigrees are used to find out the
probability of a child having a
disorder in a particular family.
 To begin to interpret a pedigree,
determine if the disease or condition
is autosomal or X-linked and
dominant or recessive.
Pedigree Chart -Cystic Fibrosis
Human Genetics
Karyotype
Chromosome Number
Different # for
Homologous
different species
Chromosomes
 Full set =
are
the sets of
2N=Diploid

N= pair
each

# pairs
 1 pair from mother
 1 pair from father
 Humans= 23
pairs or
 46 total

Autosomes & Sex
Chromosomes
Autosomes = # 122 for all traits
except sex
Sex chromosomes=
Pair # 23 XX(female) or
XY(male)
Down Syndrome= 3 of #21
Klinefelter’s = XXY
Multiple Alleles
More
than TYPES:
A
A
A
one type of A
I I ,I i
allele for a B
B
B
B
I I ,I i
trait
AB IAIB
Example:
O
ii
Blood Type
Mutation


1.
2.
3.
4.
Change in DNA
code
Caused by:
Chemical
damage
Errors in
Replication
X-ray damage
UV damage
A
T
G
C
A
to A
G
C
Mutation
Changes
in the
DNA code
= Changes in
the final
proteins made
=Changes in
the organism
Genetic
Technology
Recombinant
DNA &
Bacterial Transformation
1. Transgenic tobacco plant?
 Genetically
engineered
 Inserting
fire fly
genes into
the plant
 Using “cut &
paste”
enzymes
2. Genetic Engineering:
Altering
the genetic
makeup of an organism
By Cutting DNA from one
organism and inserting
fragments into a host
Recombinant DNA
Alters the allele frequency
of a population by artificial
Recombinant DNA:
“Recombine”
Connecting
or
reconnecting DNA
fragments
DNA of two different
organisms

Example: lab of inserting human DNA
Genetic Engineering of Insulin
Human DNA cut out
Human DNA put
into bacteria DNA
Bacteria DNA is opened up
Many Bacteria
Grow human
insulin
4. Transgenic Organism:
= across
 “genic” = race
 Contains genes from
another organism
 Bacteria
 Virus
 Human
 “trans”
5. Tobacco Recombinant DNA
Process:
a.
b.
c.
Isolated DNA to be
inserted into host
Attach DNA fragment to a
vehicle (vector)
Transfer the vector to the
host=
Transgenic organisms
Restriction Enzymes:
Human Cut
Restriction Enzymes cut DNA at
very specific sites
Separate the base pairs of both
strands
“Scissors” in Recombinant
Bacterium
DNA cut
7. “Sticky ends”
DNA
cuts that have single
stranded ends
Attract corresponding base
pairs
Made by special restriction
(cutting) enzymes
GGCCATTAC
Stick together TACCGG
CCGC
TAATGATGGC
Vectors = vehicles
Carry
foreign DNA
fragments into the
host
Bacteria carried the
firefly DNA into the
tobacco cells
Biological or
Vectors:
Biological: Mechanical:
Virus
Micropipett
Bacterial
e
plasmid
Metal bullet
(circular
coated
with
DNA)
DNA
Recombinant DNA Uses:
Grow human
hormones in
bacteria cultures
 Artificial
sweeteners using
bacteria to make
amino acids
 Study human
diseases by
inserting human
DNA into mice
 Replace incorrect
DNA sequences

Replace harmful
bacteria on
plants
 Nitrogen
bacteria in the
soil & plants to
make fertilizer
 Improve
transport of
fruits
 Resist diseases
 Increase
