a look at genetic complexities chapter 12 notes. the exceptions to mendel’s rules section 12.2
TRANSCRIPT
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Patterns of Heredity and Human Genetics
A Look at Genetic Complexities
Chapter 12 Notes
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What happens when heredity follows different
rules? The Exceptions to Mendel’s Rules
Section 12.2
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At the end of this lesson, YOU will be able to:◦ Distinguish between alleles for incomplete
dominance and codominance.◦ Explain the patterns of multiple allelic and
polygenic inheritance.◦ Analyze the pattern of sex-linked inheritance.◦ Summarize how internal and external
environments affect gene expression.
Section Objectives
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Remember Punnett Squares
Heterozygous Chin Dimple (male)
XNo Chin Dimple
(female)
Dd
dd
D
d
d d
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His 4 conclusions were:◦ The Rule of Unit Factors◦ The Rule of Dominance◦ The Law of Segregation◦ The Law of Independent Assortment
Remember Mendel?
http://www.pbs.org/wgbh/nova/orchid/images/amat_mendel.jpg
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Sometimes, patterns of inheritance are not as simple as Mendel’s Rules imply.
The exceptions to Mendel’s Rules are when nature uses a different method of determining traits.
Exceptions to Mendel’s Rules
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The Law of Independent Assortment can be broken when genes are found close together on the same chromosome.◦ The genes will appear
linked, or show up together.
◦ The closer the genes are to each other the more they will be inherited together.
Gene Linkage
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Usually, a dominant gene produces a protein for the trait.
The recessive allele either produces a nonfunctional protein or no protein at all.◦ So we see the
dominant trait in hybrids because it is the only trait expressing a protein.
Breaking the Rule of Dominance
Protein
DNA
mRNAmRNA
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When heterozygous individuals show an intermediate phenotype between the two homozygous phenotypes.◦ Having one copy of a
gene does not produce enough protein to completely mask the recessive allele.
Incomplete Dominance
http://www.miracosta.edu/home/rmooney/Mendelian%20genetics_files/slide0015_image033.jpg
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Snapdragons◦ If you cross a red
flower and a white flower, the resulting hybrid will be pink. RR = red flower rr = white flower Rr = pink flower
◦ If you cross two pink flowers (Rr), you get: 25% Red Flowers 50% Pink Flowers 25% White Flowers
Incomplete Dominance
RR
r r
Rr
R r
RrRr
RrRr
RrRrRR rr
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Hair◦ Straight (HH)◦ Wavy (Hh)◦ Curly (hh)
Incomplete Dominance
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When a heterozygous individual shows the phenotypic traits of both alleles.◦ Both alleles produce
a protein, which are seen in the hybrids.
◦ The traits do not blend!
Codominance
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Feather Color in Chickens◦ A black chicken
would be BB.◦ A white chicken
would be WW.◦ A hybrid, BW, would
have a checkered appearance. Both white and black
pigments are seen in the offspring.
CodominanceB B
W
W
WB
W
B
BW
BW
BW
BW
BW
BW
BB
WW
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Sickle Cell
Codominance
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When a trait is controlled by more than two alleles.◦ Each individual only
owns two alleles, but others in the population may possess different types.
Multiple Alleles
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Fur Color in Rabbits◦ C = Dominant allele◦ ch = Himalayan fur◦ cch = Chinchilla fur◦ ca = Albino fur
Multiple Alleles
Cch
cchcacbcb- Bugs Bunny
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Blood Types◦ IA, IB, or i
Multiple Alleles
IAIA or IAi IBIB or IBi
IAIB ii
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When one trait is controlled by more than one gene.◦ The genes may be
on the same or different chromosomes.
◦ Both genes have a single phenotypic effect.
Polygenic Traits
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Coat Color in Labrador Retrievers◦ Controlled by two
different genes, the B gene and the E gene.
◦ A dihybrid cross of two black labs (BbEe x BbEe) results in: 9 Black Pups 3 Chocolate Pups 3 Golden Pups 1 Golden Pup with a
brown nose and light eyes.
Polygenic Traits
http://www.oakhillkennel.com/library/color.html
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Eye Color◦ Brown Gene◦ Green Gene
Polygenic Traits
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When traits are determined by several factors from the genetic makeup and the organism’s environment.◦ The genes only
represent the potential.◦ Environmental
influences turn on the genes at different times and in different amounts.
Multifactorial Traits
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Temperature, nutrition, light, chemicals, and infections can influence gene expression.◦ Arctic Foxes have
coats that change color due to temperature.
Multifactorial Traits
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Height, Intelligence, Cholesterol, Weight, Mental Illness, etc.
Multifactorial Traits
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How do our chromosomes determine our sex?
Sex Determination and Sex-linked Traits
Section 12.2
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Humans have a total of 46 chromosomes, or 23 pairs:◦ 22 pairs of autosomes◦ 1 pair of sex
chromosomes Autosomes
◦ All of the chromosomes that determine the traits other than sex.
◦ Come in different sizes with different genes on them.
◦ Pairs 1-22
Sex Determination
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Sex Chromosomes◦ Determine the sex of
the individual.◦ Pair 23
In females, these chromosomes match in the form of XX.
In males, these chromosomes are different, as in XY.
Sex Determination
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The combination of sex chromosomes decides if you are a boy or a girl.◦ A mother (XX) can only
supply eggs that have an X chromosome.
◦ The father (XY) has some sperm with a X chromosome and some with a Y chromosome.
Sex Determination
XX
X
Y
XX XX
XY XY
G- 50% XX; 50% XY
P- 50% female; 50% male
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Comparing the X and the Y
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Genes that are located on the sex chromosomes.◦ The X chromosome
contain many important genes that are necessary for survival.
◦ The Y chromosome contains the SRY gene which determines maleness.
Sex-Linked Traits
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First observed in fruit flies (Drosophila).
Fruit flies have either red or white eyes.◦ Thomas Hunt Morgan
noticed that all of the white-eyed flies were male.
◦ Therefore, eye-color in flies is a sex-linked trait.
Sex-Linked Traits
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Because the X chromosome is much larger than the Y, most sex-linked traits are on the X.
When writing the alleles for these traits, you must include the chromosomes that the individual has:
Sex-Linked Traits
Y Y Chromosome
(no alleles)
XR
X Chromosome(red-eyed allele)
Xr
X Chromosome(white-eyed allele)
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Because males have only one X chromosome, they are more likely to get a single defective copy.◦ XRY- red-eyed male◦ XrY- white-eyed male
Sex-Linked Traits
XRY
XrY
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Because females receive two X chromosomes, they are more likely to get a dominant allele that can cover the effects of the recessive trait.
A carrier female has a recessive allele but does not show the trait (heterozygous)
Sex-Linked Traits
XRXR
Homozygous Red-eyed Female
XRXr
Carrier Female
XrXr
White-eyed female (rare)
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Sex-Linked Punnett Squares
Homozygous Red-eyed Female x White-eyed MaleXRXR XrY
XR
XR
Xr Y
XR Xr
XR
Xr
XR Y
XR Y
G- 50% XRXr
50% XRY
P- 50% red-eyed female 50% red-eyed male
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Sex-Linked Punnett Squares
Heterozygous Red-eyed Female x Red-eyed Male
XRXr XRY
XR
Xr
XR Y
XR XR
XR Xr
XR Y
Xr Y
G- 25% XRXR
25% XRXr
25% XRY 25% XrY
P- 50% red-eyed female 25% red-eyed male 25% white-eyed male
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How do pedigrees show inherited traits within
families?Understanding Pedigrees
Section 12.1
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A graphic representation of traits inherited within a family.◦ Allows scientists to trace
the history of a genetic disorder.
◦ Uses symbols to represent individuals. Circles represent females Squares represent males If the symbol is shaded, the
individual is affected by the trait.
Pedigrees
Normal Female
Normal Male
Affected Female
Affected Male
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Inherited traits can be followed from generation to generation.◦ Horizontal lines
connect two individuals who have mated.
◦ Vertical lines represent the offspring of a union.
Pedigrees
Bb Bb
Bb bb BB Bb
I
II
1 2
1 2 3 4 5
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Sex-Linked vs. Autosomal◦ If more males are
affected by a trait than females, it is probably sex-linked.
◦ If it affects males and females equally, it is probably autosomal.
Rules of Pedigrees
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Dominant vs. Recessive◦ If a trait skips a
generation, it is recessive.
◦ If the trait is found in each generation, it is probably dominant.
Rules of Pedigrees
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Identifying Genotypes◦ If any males are
carriers, the trait is autosomal.
◦ If a male has a sex-linked trait, his mother was probably a carrier.
Rules of Pedigrees
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Affects males and females equally. Skips generations (appears in some
generations but not in others). Males can be carriers
Autosomal Recessive
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Affects males and females equally Does not skip any generations.
Autosomal Dominant
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Affects males more than females. Skips generations.
◦ Must use the chromosomes (XY or XX)
Sex-Linked Recessive
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Example #1: AlbinismAre males affected more frequently that females?
NO Autosomal Disorder
Does the disorder skip generations?YES (P1)
Recessive Disorder
Autosomal RecessiveA- normala - albino
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Example #2: HemophiliaAre males affected more frequently that females?
YES Sex-Linked Disorder
Does the disorder skip generations?YES Recessive Disorder
Sex-Linked Recessive+ = normalH = hemophilia
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Pedigree PracticeGenetic Trait: ACHOO(Sneezes in response to light)
#1- Is this trait sex-linked or autosomal?
#2- Is this trait dominant or recessive?
#3- What is the genotype of individual A?
#4- What is the genotype of individual B?
#5- What is the genotype of individual C?
A
B
C
D#6- What is the genotype of individual D?
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A picture of an individuals chromosomes.◦ Homologous
chromosomes are paired up.
◦ Pairs are arranged by size.
◦ Karyotypes can help diagnose chromosomal disorders.
Karyotype
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When arranging the chromosomes:◦ Autosomal
Chromosomes are placed in order by size.
◦ The Sex Chromosomes are pair 23.
Karyotypes
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What to look for:◦ The Sex
Chromosomes: Male (XY) or Female
(XX) Is there an odd number
(XXY, XYY, XO, XXX)
◦ The Autosomes Are there two or three
chromosomes for pair 21?
Trisomy 21 Down Syndrome
Karyotypes
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Example #1
Number of Autosomes:
Number of Sex-Chromosomes:
Karyotype:
Phenotype:
44
1
45 (X)
Female-Turner Syndrome
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Example #2
Number of Autosomes:
Number of Sex-Chromosomes:
Karyotype:
Phenotype:
44
3
47 (XYY)Male
Jacob’s Syndrome
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Example #3
Number of Autosomes:
Number of Sex-Chromosomes:
Karyotype:
Phenotype:
44
3
47 (XXY)Male
Klinefelter Syndrome
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What is the genetic basis for determining blood
types?
Understanding Blood Types
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Your body produces antibodies that attack any foreign objects within you.◦ Usually, this fights bacteria,
viruses, or fungi. All of your cells have
antigens on their surface.◦ Antigens are cellular
nametags.◦ Your body makes antibodies
to fight off anything without your particular antigen.
Blood Types in Humans
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Your special antigens are made by your DNA.
The antigens found on the red blood cells determine your blood type.◦ Type A◦ Type B◦ Type AB◦ Type O
Blood Types in Humans
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Genotype IAIA or IAi
Antigens A antigens
Antibodies
Anti-B antibodies
Type A Blood
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Genotype IBIB or IBi
Antigens B antigens
Antibodies Anti-A antibodies
Type B Blood
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Genotype IAIB
Antigens A antigens and B
antigensAntibodies No
Antibodies
Type AB Blood
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Genotype ii
Antigens No antigens
Antibodies Anti-A and Anti-B
antibodies
Type O Blood
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Another antigen on the surface of the RBC, is the Rhesus Factor.◦ Named after it was
discovered in Rhesus Monkeys
People who have the Rh factor are positive.
People without the Rh factor are negative.
Rh Factor
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Commonly, a person’s blood type combines their ABO type and Rh factor.◦ Type A neg.◦ Type O pos.
Blood Donations
rh
rh
rh
rhrh
rh
rhrh
Anti-A
Anti-B
Anti-Rh
Anti-A
Anti-B
Anti-Rh
Anti-A
Anti-B
Anti-Rh
Type A+
Type AB-
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A person cannot receive any blood that contains an antigen that they posses the antibody for.◦ Type A individuals
produce anti-B antibodies.
◦ Giving that person type B blood can have dangerous effects.
◦ The anti-B antibodies will cause the Type B blood to stick together. This is called clumping.
Blood Donations
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The Universal Recipient◦ Produces no antibodies◦ Can receive all types
of blood◦ Type AB+
The Universal Donor◦ RBC’s have no
antigens.◦ Can give blood to
anyone◦ Type O-
Blood Donations
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Determining Blood Types
IAIAx IBIBType A Type B
IA
IA
IB IB
IAIB
IAIB
IAIB
IAIB
G:
P:
100% IAIB
100% AB
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Determining Blood Types
Type AB x Type OIAIB ii
IA
IB
i i
IAi
IBi
IAi
IBi
G:
P:
50% IAi50% IBi
50% Type A50% Type B
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Determining Blood TypesHospital Mix-UpOn a busy night at the Plainsboro Hospital, three families delivered three healthy baby boys. Unfortunately, the babies became mixed up during a rush and no one knows which baby belongs to which family. The nurses were able to take blood samples from each parent and each baby. Use your knowledge of blood type genetics to figure out which baby belongs to each family.
Parent Blood Type
Mr. Robinson AB
Mrs. Robinson B
Mr. Jones O
Ms. Jones AB
Mr. Jackson B
Ms. Jackson B
Baby Blood Type
Baby #1 O
Baby #2 AB
Baby #3 A
Baby #1 belongs to the JacksonsBaby #2 belongs to the RobinsonsBaby #3 belongs to the Jones
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Codominance◦ Both A and B are
dominant.◦ In a hybrid (AB) both
types of antigen will be present.
Multiple Alleles◦ The ABO blood group has
three alleles that produce four phenotypes.
Polygenic◦ Two genes control blood
type: ABO and Rh factor
Characteristics of Blood System
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How do scientists follow genetic disorders in our
genome?When Genetics Goes Wrong
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Inheritance◦ Autosomal Recessive◦ Chromosome #7
Symptoms◦ Abnormally thick
mucous clogs pores in lungs, liver, pancreas.
Cystic Fibrosis
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Cystic FibrosisGene Therapy is a hopeful avenue of treatment for those with cystic fibrosis.
Here’s how it works:1. Insert a working copy of
the gene into a virus.2. Load the virus into an
inhaler.3. Have the patient breath in
the virus with the working copy.
4. The virus then injects its DNA and the working CF gene into the patient’s cells What would be one potential
downside to using gene therapy?
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Inheritance◦ Autosomal Recessive◦ Chromosome # 12
Symptoms◦ Victims are unable
to metabolize phenylalanine properly.
◦ Leads to mental retardation.
Phenylketoneuria (PKU)
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Phenylketoneuria (PKU)All babies are tested for PKU in the first few days.
How would being diagnosed with PKU affect your life?
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Inheritance◦ Autosomal
Codominant◦ Chromosome # 11
Symptoms◦ Defective hemoglobin
becomes sickle-shaped
◦ Pain crises result when, cells clog blood vessels.
Sickle Cell
http://www.ehponline.org/docs/2004/112-6/bloodcells.jpg
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Sickle CellAA
Normal RBC/ Susceptible to Malaria
ASNormal RBC and Sickle
Cells/ Resistant to Malaria
SSSickle Cells/
Resistant to Malaria
If sickle-cell is so bad, why has the
gene not been taken out of the genome?
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Inheritance◦ Autosomal Dominant◦ Chromosome # 4
Symptoms◦ Progressive
neurological disorder.◦ Nerve cells begin to
deteriorate resulting in a loss of coordination.
◦ Begins in late 40’s or early 50’s.
Huntington’s Disease
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Huntington’s Disease
Hh Hh
hh hhH
h
h h
Huntington’s Disease is autosomal dominant.If one of your parents have it, you have a 50% chance of inheriting this progressive disorder.Question #1Genetic testing can determine if you have inherited the dominant allele or not. If one of your parent’s had it, would you want to know if you have the disease or not?
Question #2Should the results of genetic testing be given to employers by insurance companies? Is having the trait cause for firing somebody, even if they have not shown any symptoms?
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Inheritance◦ Sex-linked Recessive◦ X Chromosome
Symptoms◦ Unable to distinguish
between red and green colors.
Color Blindness
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Color Blindness
Normal Vision
ProtanopiaDeuteranopiaTritanopia
How would colorblindness affect the way you see the world?
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Inheritance◦ Sex-linked Recessive◦ X Chromosome
Symptoms◦ Unable to clot
properly because of missing Factor VII.
◦ Seen in the Royal family of Britain
Hemophilia
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Hemophilia
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Inheritance◦ Chromosomal
Nondisjunction◦ Trisomy 21
Symptoms◦ Mild mental
retardation◦ Simian Crease,
Epicanthal fold, shorter limbs, poor muscle tone, protruding tongue
Down Syndrome
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Down SyndromeWomen over the age of 35
increase the chances of a DS child up to 1 in 378 (over 45
is 1 in 30).
An amniocentesis extracts some fetal cells to prepare a
karyotype.
If you found out that your child would be born with Trisomy 21 (Down Syndrome), would you support terminating the pregnancy?
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Polygenic Traits◦ Eye Color- 2 genes◦ Skin Color- 3 genes
Multifactorial◦ Height◦ Cholesterol◦ Behavioral Traits
Other Traits in Humans