NOTES: 14.1-14.2: HUMAN HEREDITY · Pedigrees: • May skip a generation • Affected individuals...
Transcript of NOTES: 14.1-14.2: HUMAN HEREDITY · Pedigrees: • May skip a generation • Affected individuals...
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NOTES: 14.1-14.2:
HUMAN HEREDITY
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Human Genes:
● The human genome is the complete set of
genetic information
-it determines characteristics such as eye
color and how proteins function within cells
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Recessive and Dominant
Alleles:
• Some common genetic disorders are autosomal
recessive
– This means that you need two recessive alleles (on
any of the 44 chromosomes—NOT the sex
chromosomes) to express the disease
• EX: Cystic Fibrosis
• Other genetic disorders are autosomal dominant
– Only one allele is needed for the trait to be
expressed
• EX: Huntington’s Disease
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Autosomal Recessive Disorders:
• In order to develop an autosomal recessive trait, an individual must have the genotype: “aa”
• To be born with a homozygous recessive genotype, both parents must be heterozygotes (“carriers”)…or homozygous recessive themselves (although with most disorders, that is not the case)…WHY NOT?
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From gene to molecule:
• In both cystic fibrosis and sickle cell
anemia, a small change in the DNA of a
single gene affects the structure of a
protein, causing a serious genetic disorder
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What makes an allele dominant
or recessive?
• Gene = sequence of DNA that codes for a
protein
• Usually:
– Dominant alleles code for the correct production of
that protein
– Recessive alleles code for no / wrong protein
production
– Heterozygous condition — the normal (dominant)
allele will still cause correct protein production
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Cystic Fibrosis:
• Caused by a recessive allele on chromosome #7– It is an autosomal genetic disorder
• Causes digestive and respiratory problems
• Death around 20-30 years of age
• How does it happen?– Three bases are deleted from the protein, which
removes one amino acid
– The protein cannot fold properly anymore, and is destroyed
– Result: airway is clogged with mucus
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CF Example:
• Cystic fibrosis heterozygotes (Ff)
– just one copy of the normal (dominant) allele is
enough to supply the cell with the proper proteins to
function.
– Because of this, the normal allele is considered
dominant over the recessive allele
• Therefore, a person who is heterozygous does
not suffer from Cystic Fibrosis
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Sickle Cell Anemia:● One DNA base has been changed
• Amino acid is valine, instead of glutamic acid
• Result = abnormal hemoglobin
• The abnormal hemoglobin forms crystal-like structures that change the shape of the red blood cells
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Sickle Cell Anemia:
• The abnormal red blood cells are shaped
like a “sickle” or a half-moon;
• These RBCs slow blood flow, block small
blood vessels, and result in tissue damage
and pain.
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Sickle Cell Anemia:
• Three genotypes possible:
1) HH = all healthy hemoglobin
2) Hh = ½ healthy hemoglobin; ½ abnormal hemoglobin;
**CODOMINANCE!!
3) hh = all abnormal hemoglobin
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Sickle Cell Anemia:
• Individuals who are Hh do not have
serious health problems and can lead
relatively normal lives, but-
• They do show some signs of sickle cell
anemia if the availability of oxygen is
reduced
(i.e. high altitude;
strenuous exercise)
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Pedigree Chart:
• Shows how a trait is transmitted
from generation to generation
• Each row is a generation
• Circles represent females
• Squares represent males
– Shaded in: person expresses
that trait
– Half shaded in: person is only a
carrier
– Clear: person does not carry or
express that trait
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Tay-Sachs Disease:
• Autosomal recessive disorder
• Recessive allele results in the absence of
an enzyme that normally breaks down
lipids in the central nervous system
• Without this enzyme, the lipids accumulate
in the nervous system and the affected
individual dies
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Phenylketonuria (PKU):
• Autosomal recessive disorder;
• Absence of an enzyme to break down the amino acid phenylalanine
• The accumulation of phenylalanine causes damage to the nervous system
• By avoiding phenylalanine in
the diet, affected infants
can avoid the symptoms
of the disorder
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Autosomal Recessive Traits &
Pedigrees:
• May skip a generation
• Affected individuals are born to 2 carriers
• Males and females affected equally
• KNOWN carriers will be half-shaded in…it
is not always possible to know if an
individual is a carrier
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What about autosomal dominant
human traits?
• A single dominant allele inherited from 1
parent is all that is needed for a person to
show the dominant trait.
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Simple Dominant Traits:
• Tongue rolling
• Unattached earlobes
• Hitchhiker’s thumb
• Hair in the middle section of fingers
• Ability to taste PTC
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Autosomal Dominant Traits &
Pedigrees:
• Typically seen in every generation,
affecting multiple people
• Affected individuals are born to affected
parent(s)
• Males and females affected equally
• There are NO “carriers”!
(you either have it – AA or Aa –
or you don’t – aa)
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Autosomal Dominant Disorder:
HUNTINGTON’S DISEASE
• Rare, but lethal, dominant allele;
• Results in a breakdown of parts of the brain;
• Onset between the ages of 30 and 50;
• No known treatment or cure;
• There is a test available to see if you have it –
may help with the decision to start a family;
• Every child of an affected individual has a 50/50
chance of being affected (and passing it down)
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• Can’t trace every human trait through a pedigree because some genes are polygenic– Shape of your eyes
– Shape of your ears
– Height
– Eye color
• Also, phenotype is influenced by your environment (ex: nutrition & exercise)– Average height is 10 cm more than it was in the
1800’s in the US & Europe due to nutritional improvements
– Genes that are denied a proper environment in which to reach full expression in 1 generation, can achieve full potential in a later generation (genes are inherited, the environment is not)
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REVIEW:Human Blood Groups
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Blood Groups• Human blood comes in a variety of
genetically determined blood groups
• Using the wrong blood during a blood transfusion can be fatal
• A number of genes help determine blood type but we will focus on two:
– ABO blood groups
– Rh blood groups
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Blood Groups — Rh factor:
• The Rh blood group is determined by a
single gene with 2 alleles — positive and
negative
• The “positive” allele is dominant
• You need two Rh- alleles (Rh-/Rh-) to be
Rh negative
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Rh Factor• The Rh factor genetic information is
also inherited from our parents, but it is
inherited independently of the ABO
blood type alleles.
– There are 2 different alleles for the Rh
factor known as Rh+ and Rh-.
Mother Father Child
Rh- Rh+ Rh+
Rh- Rh- Rh-
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The “Rh Issue”… Mom = Rh- Baby #1 = Rh+
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ABO Blood Groups
• This is a case of multiple alleles
• There are 3 alleles for this gene—A, B, and O.
• AND…A and B are CODOMINANT!
• O is recessive to A and B
• Alleles A and B produce antigens (which are carbohydrates) on the surface of red blood cells
• O produces NO antigens
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ABO Blood Groups—the wrong blood can be FATAL
• Antigens are recognized by the immune system and induce an immune response
• If the wrong blood is transfused, the body will respond to these antigens by producing antibodies– Antibodies are named for what they attack
• Antibodies bind to the foreign molecule (the antigen) and blood clumping will occur, which leads to blood clotting, which leads to death
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ABO Blood Groups
• If you have blood type A, then you have:– The “A” antigen on the surface or your RBCs
– You have anti-B antibodies
– You can receive type A blood and type O blood
• Remember: Your antibodies are named for what they attack—so if you received type AB or type B blood then clumping would occur.
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ABO Blood Groups
• Try this cross
• Cross a person who’s genotype is IAIA with a person who is IAIB.
• Give the possible genotypes and phenotypes
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• Cross a person who’s genotype is IAIA with a person who is IAIB.
• Gametes = IA, IA and IA, IB
• Cross:
IA
IA
IAIBIB
IA
IAIAIAIA
IAIB
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• Genotypes= ½ IAIA, ½ IAIB
• Phenotypes = ½Type A, ½ Type AB
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Human Genes & Chromosomes:
Vocabulary:
• Sex-linked gene
• Sex-influenced gene
Key Concepts:
• Why are sex-linked
disorders more common in
males than in females?Lou Gehrig: died at
37 of ALS
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Human Genes & Chromosomes:
• Chromosomes 21 & 22 are the smallest human
autosomes
– Chromosome 22 contains approximately 43 million
DNA bases (approx. 545 genes)
– Chromosome 21 contains approximately 32 million
DNA bases (approx. 225 genes)
• 1 of these genes is associated with ALS (Amyotrophic Lateral
Sclerosis)
• Causes a progressive loss of muscle control due to the
destruction of nerves in the brain and spinal cord
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Remember…
• Humans have 46 chromosomes (23 pair)
• 2 of them are sex chromosomes they determine what sex you are
– XX = female
– XY = male
• 44 of them are autosomes they do not determine what sex you are
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Who determines the sex of a
child?
The mother or the father?
THE FATHER!!!!
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Why does the father determine the sex of the offspring???
• Mom is XX, she can donate either one X
chromosome or the other X chromosome
• Dad is XY, he can donate either an X
chromosome or a Y chromosomes.
• If the offspring receives the father’s X, it is
female
• If the offspring receives the father’s Y, it is male
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The Y chromosome:
• If a Y chromosome is present, the person is male
• X chromosomes contain genes necessary for growth / development
• No cases of a person born with being 45,0Y
– Probably spontaneously aborted (miscarriage)
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Sex Linked Genes:
• Genes carried on the X or Y chromosome are
“sex-linked” because they are on the sex
chromosomes
• Many sex-linked genes are found
on the X-chromosome
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Sex Linked Genes:
• All X-linked traits are expressed in males
• WHY???????
• Males only have 1 copy of the X chromosome, while females need 2 copies of the defective gene
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Human Sex-Linked Gene
Disorders:
1. COLORBLINDNESS:
• 3 human genes associated with color vision
are located on the X-chromosome
• In males, a defective version of any one of
these produces colorblindness
• Females must receive 2 copies of the allele to
be colorblind
XCXCXCXc
XCYXcY
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More Human Sex-Linked Gene
Disorders…
2. HEMOPHILIA
• 2 important genes on the X-chromosome that
code for proteins that control blood clotting
• A recessive allele in either of these 2 genes
may lead to hemophilia
-“bleeders disease”
-injections of normal clotting
proteins prevent death
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Sex-Linked Traits and Pedigrees:
• only (or mostly) males are affected;
• affected males are born to “carrier”
females;
• typically not seen in all generations
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Queen Victoria’s Legacy in
Royal Families of Europe
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Sex-Influenced Genes:
• A person’s phenotype is affected by their sex
(internal environment is different…hormones!)
• Ex: Pattern Baldness
WOMEN: MEN:
BB: not bald BB: not bald
Bb: not bald Bb: bald
bb: bald bb: bald
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X-Chromosome Inactivation:
• Females have 2 X-chromosomes… if 1 is
enough for males, how does the cell
“adjust” to the extra x-chromosome in
females?
• One X-chromosome is randomly
switched off
– Condenses and is called a Barr body
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X-Chromosome Inactivation –
an example:
• Tortoise-shell cats:
XBY = brown male
XbY = orange male
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X-Chromosome Inactivation –
an example:
• Tortoise-shell cats:
XBXB = brown female
XbXb = orange female
XBXb = tortoise-shell female
-Can a male cat have tortoise-shell fur?
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Tortoise-shell cats!
(a.k.a. “Torties”)
XBXb