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What makes us human?

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Title: What makes us human?


1
What makes us human?
2
Human Chromosomes
  • To analyze chromosomes, cell biologists
    photograph cells in mitosis, when the chromosomes
    are fully condensed and easy to see.
  • The biologists then cut out the chromosomes from
    the photographs and group them together in
    homologous pairs.
  • A picture of chromosomes arranged in this way is
    known as a karyotype (Homologous pairs)

3
Human Chromosomes
  • A Human body cell contains 46 chromosomes.
  • A haploid sperm, carrying just 23 chromosomes,
    fertilized a haploid egg, also with 23
    chromosomes.
  • 22 autosomes ( 1-22)
  • 1 sex chromosome (X or Y)
  • The diploid zygote, or fertilized egg, contained
    the full complement of 46 chromosomes.

4
Karyotype
  • These human chromosomes have been cut out of a
    photograph and arranged to form a karyotype.

5
Human Chromosomes
  • Two of your 46 chromosomes are known as sex
    chromosomes, because they determine an
    individuals sex. (Chromosomes 23)
  • Females have two copies of a large X chromosome.
    Males have one X and one small Y chromosome.
  • The remaining 44 chromosomes are known as
    autosomal chromosomes, or autosomes. (Chromosomes
    1-22)

6
Sex Chromosomes
  • All egg cells carry a single X chromosome (23X).
  • Half of all sperm cells carry an X chromosome
    (23X) and half carry a Y chromosome (23Y).
  • This ensures that just about half of the zygotes
    will be 46XX and half will be 46XY.

7
Human Traits
  • A pedigree chart, which shows the relationships
    within a family, can be used to help with this
    task.
  • Many human traits are polygenic (controlled by
    many genes)
  • Environmental effects on gene expression are not
    inherited genes are.

8
Interest Grabber
A Family Tree
Section 14-1
  • To understand how traits are passed on from
    generation to generation, a pedigree, or a
    diagram that shows the relationships within a
    family, is used. In a pedigree, a circle
    represents a female, and a square represents a
    male. A filled-in circle or square shows that the
    individual has the trait being studied. The
    horizontal line that connects a circle and a
    square represents a marriage. The vertical
    line(s) and brackets below that line show the
    children of that couple.

Go to Section
9
Interest Grabber continued
  • 1. This pedigree shows the inheritance of
    attached ear lobes. Which parent has attached ear
    lobes?
  • 2. How many children do the parents have? Which
    child has attached ear lobes?
  • 3. Which child is married? Does this childs
    spouse have attached ear lobes? Do any of this
    childs children have attached ear lobes?

Go to Section
10
Figure 14-3 A Pedigree
Section 14-1
A circle represents a female.
A square represents a male.
A horizontal line connecting a male and female
represents a marriage.
A vertical line and a bracket connect the parents
to their children.
A half-shaded circle or square indicates that a
person is a carrier of the trait.
A circle or square that is not shaded indicates
that a person neither expresses the trait nor is
a carrier of the trait.
A completely shaded circle or square indicates
that a person expresses the trait.
Go to Section
11
Human Genes
  • Some of the very first human genes to be
    identified were those that control blood type.
  • The Rh blood group is determined by a single gene
    with two alleles positive and negative. Rh
    stands for rhesus monkey, the animal in which
    this factor was discovered.
  • The positive (Rh) allele is dominant, so persons
    who are Rh/Rh or Rh/Rh- are said to be
    Rh-positive.
  • Individuals with two Rh- alleles are Rh-negative.

12
Section 14-1
Blood Groups
Safe Transfusions
Antigen on Red Blood Cell
Phenotype (Blood Type
Genotype
From
To
Go to Section
13
Human Alleles
  •  Many human genes have become known through the
    study of genetic disorders.
  • Genetic Disorders can be caused by
  • recessive alleles
  • dominant alleles
  • Codominant alleles
  • What makes an allele dominant, recessive, or
    codominant?
  • It all depends on the nature of a genes protein
    product and its role in the cell.

14
(No Transcript)
15
Concept Map
Section 14-1
Autosomol Disorders
caused by
include
include
include
Go to Section
16
Figure 14-8 The Cause of Cystic Fibrosis
Section 14-1
Chromosome 7
CFTR gene
The most common allele that causes cystic
fibrosis is missing 3 DNA bases. As a result,
the amino acid phenylalanine is missing from the
CFTR protein.
Normal CFTR is a chloride ion channel in cell
membranes. Abnormal CFTR cannot be transported
to the cell membrane.
The cells in the persons airways are unable to
transport chloride ions. As a result, the airways
become clogged with a thick mucus.
Go to Section
17
Sickle Cell Disease 
  • Sickle cell disease is a common genetic disorder
    found in African Americans.
  • Sickle cell disease is characterized by the bent
    and twisted shape of the red blood cells
  • These sickle-shaped red blood cells are more
    rigid than normal cells and tend to get stuck in
    the capillaries, the narrowest blood vessels in
    the body.
  • As a result, blood stops moving through these
    vessels, damaging cells and tissues beyond the
    blockage.
  • Sickle cell disease produces physical weakness
    and damage to the brain, heart, and spleen. In
    some cases, it may be fatal.

18
Sickle Cell Disease 
  • Hemoglobin is the protein that carries oxygen in
    the blood.
  • Mutation the amino acid valine in place of
    glutamic acid.
  • As a result, the abnormal hemoglobin is somewhat
    less soluble than normal hemoglobin. Blood gets
    stuck in cappillaries.

19
Why do so many African Americans carry the sickle
cell allele?
  • Most African Americans can trace their ancestry
    to west central Africa.
  • Malaria, a serious parasitic disease that infects
    red blood cells, is common in this region of
    Africa.
  • People who are heterozygous for the sickle cell
    allele are generally healthy and are resistant to
    malaria.

20
Checkpoint Questions
  • What are sex chromosomes? What determines whether
    a person is male or female?
  • Using an example, explain how a small change in a
    persons DNA can cause a genetic disorder.
  • 3. How does studying genetic disorders such as
    PKU help biologists understand normal alleles?
  • 4. What are some problems biologists face in
    studying human inheritance?
  • 5. If a woman with type O blood and a man with
    type AB blood have children, what are the
    childrens possible genotypes?

21
Sex-Linked Genes
  • Is there a special pattern of inheritance for
    genes located on the X chromosome or the Y
    chromosome?
  • The answer is yes. Because these chromosomes
    determine sex, genes located on them are said to
    be sex-linked genes.

22
Sex-Linked Genes
  • Males have just one X chromosome. Thus, all
    X-linked alleles are expressed in males, even if
    they are recessive.
  • In order for a recessive allele, such as the one
    for colorblindness, to be expressed in females,
    there must be two copies of the allele, one on
    each of the two X chromosomes.
  • This means that the recessive phenotype of a
    sex-linked genetic disorder tends to be much more
    common among males than among females.
  • In addition, because men pass their X chromosomes
    along to their daughters, sex-linked genes move
    from fathers to their daughters and may then show
    up in the sons of those daughters.

23
Expression of X-Linked Alleles Colorblindness 
  •  X-linked alleles are always expressed in males,
    because males have only one X chromosome.
  • Males who receive the recessive Xc allele all
    have colorblindness.
  • Females, however, will have colorblindness only
    if they receive two Xc alleles.

24
Sex-Linked Genes Hemophilia
  •  Hemophilia is another example of a sex-linked
    disorder.
  • Two important genes carried on the X chromosome
    help control blood clotting.
  • A recessive allele in either of these two genes
    may produce a disorder called hemophilia
  • In hemophilia, a protein necessary for normal
    blood clotting is missing.
  • About 1 in 10,000 males is born with a form of
    hemophilia.
  • People with hemophilia can bleed to death from
    minor cuts and may suffer internal bleeding from
    bumps or bruises.
  • Fortunately, hemophilia can be treated by
    injections of normal clotting proteins.

25
Sex-Linked Genes Duchenne Muscular Dystrophy
  •  
  • Duchenne muscular dystrophy is a sex-linked
    disorder that results in the progressive
    weakening and loss of skeletal muscle.
  • People with Duchenne muscular dystrophy rarely
    live past early adulthood. In the United States,
    one out of every 3000 males is born with Duchenne
    muscular dystrophy.
  • Duchenne muscular dystrophy is caused by a
    defective version of the gene that codes for a
    muscle protein.
  • Researchers in many laboratories are trying to
    find a way to treat or cure this disorder,
    possibly by inserting a normal allele into the
    muscle cells of Duchenne muscular dystrophy
    patients.

26
X-Chromosome Inactivation
  • Females have two X chromosomes, but males have
    only one.
  • If just one X chromosome is enough for cells in
    males, how does the cell adjust to the extra X
    chromosome in female cells?
  • In female cells, one X chromosome is randomly
    switched off.
  • That turned-off chromosome forms a dense region
    in the nucleus known as a Barr body.
  • Barr bodies are generally not found in males
    because their single X chromosome is still
    active.

27
X-Chromosome Inactivation Cats
  • In cats, for example, a gene that controls the
    color of coat spots is located on the X
    chromosome.
  • One X chromosome may have an allele for orange
    spots and the other may have an allele for black
    spots.
  • In cells in some parts of the body, one X
    chromosome is switched off. In other parts of the
    body, the other X chromosome is switched off.

28
X-Chromosome Inactivation Cats
  • As a result, the cats fur will have a mixture of
    orange and black spots, as shown in the figure
    below.
  • Male cats, which have just one X chromosome, can
    have spots of only one color.
  • By the way, this is one way to tell the sex of a
    cat. If the cats fur has three colorswhite with
    orange and black spots, for exampleyou can
    almost be certain that it is female.

29
Chromosomal Disorders
  • The most common error in meiosis occurs when
    homologous chromosomes fail to separate.
  • This is known as nondisjunction, which means not
    coming apart. Nondisjunction can occur either
    during meiosis I, as shown in the figure below,
    or in meiosis II,

30
Chromosomal Disorders
  • Nondisjunction causes gametes to have abnormal
    numbers of chromosomes.
  • The result of nondisjunction may be a chromosome
    disorder such as Down syndrome.

31
Down Syndrome
  •  If two copies of an autosomal chromosome fail to
    separate during meiosis (nondisjunction) an
    individual may be born with three copies of a
    chromosome.
  • This is known as a trisomy, meaning three
    bodies. The most common form of trisomy involves
    three copies of chromosome 21 and is called Down
    syndrome.
  • In the United States, approximately 1 baby in 800
    is born with Down syndrome.
  • Down syndrome produces mild to severe mental
    retardation.
  • It is also characterized by an increased
    susceptibility to many diseases and a higher
    frequency of some birth defects.

32
Sex Chromosomal Disorders
  • Disorders also occur among the sex chromosomes.
  • Two of these abnormalities are Turners syndrome
    and Klinefelters syndrome.
  • In females, nondisjunction can lead to Turners
    syndrome.
  • A female with Turners syndrome inherits only one
    X chromosome (genotype XO).
  • Women with Turners syndrome are sterile because
    their sex organs do not develop at puberty.

33
Sex Chromosomal Disorders
  • In males, nondisjunction causes Klinefelters
    syndrome (genotype XXY).
  • The extra X chromosome interferes with meiosis
    and usually prevents these individuals from
    reproducing.
  • Cases of Klinefelters syndrome have been found
    in which individuals were XXXY or XXXXY.
  • There have been no reported instances of babies
    being born without an X chromosome, indicating
    that the X chromosome contains genes that are
    vital for normal development.

34
Checkpoint Questions
  1. Why are sex-linked disorders more common in males
    than in females?
  2. How does nondisjunction cause chromosome number
    disorders?
  3. List at least two examples of human sex-linked
    disorders.
  4. Describe two sex chromosome disorders.
  5. Distinguish between sex-linked disorders and sex
    chromosome disorders.
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