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Genetics and Prenatal Development

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Genetics and Prenatal Development Child Development A. Genetics We each have 46 chromosomes (23 pairs from each parent). Chromosomes-threadlike structures--carry ... – PowerPoint PPT presentation

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Title: Genetics and Prenatal Development


1
Genetics and Prenatal Development
  • Child Development

2
A. Genetics
  • We each have 46 chromosomes (23 pairs from each
    parent).
  • Chromosomes-threadlike structures--carry genetic
    information that directs development.
  • Chromosomes made up of DNA molecules (double
    helix)

3
What is DNA (deoxyribonucleic acid)
  • A long, double-stranded molecule that looks like
    a twisted ladder.
  • Each of the latter consists of a specific pair of
    chemical substances called bases, joined together
    between the two sides.
  • Humans have 4 base pairs.

4
What is a gene?
  • A segment of DNA along the length of the
    chromosome.
  • DNA can replicate itself, leading to the
    development of a human being from 1 cell.
  • This process is mitosis.

5
Sex Cells (Gametes)
  • Gametes- sperm and ova
  • Contain only 23 Chromosomes. Formed through
    meiosis-which halves the of chromosomes present
    in body.
  • In males- sperm produced throughout life, in a
    female-she is born will all ova she will have
    (350-450 during maturity).

6
Multiple offspring
  • Monozygotic twins- a fertilized egg (zygote)
    separates into two distinct cell clusters that
    form into two genetically identical humans.
  • Odds (3 out of every 1,000 births).
  • Dizyogotic twins- two separate ova are fertilized
    by two different sperm cells.

7
Is it a boy or girl?
  • 22 of our 23 chromosome pairs can be
    distinguished from one another. These are called
    autosomes.
  • The 23rd pair consists of sex chromosomes.
  • Females-XX and males-XY. The X is long, the Y
    short and carries less genetic material.

8
Who determines the sex?
  • Males- the X and Y-chromosomes separate into
    different sperm cells.
  • X- sperm cells Y-sperm cells.
  • Females-gametes carry X chromosomes only.
  • Males sperm determines babys sex.

9
What is the default?
  • To be female!!!
  • A genetic male will only develop into a male
    infant if testosterone is presented during
    prenatal development.
  • Deficient male hormones will lead to development
    of female infant.

10
Becoming male
  • Testes in male fetuses Wolffian system to
    develop Mullerian inhibiting hormone (MIH) is
    released.
  • Hormonesmust be present during 3rd and 4th
    months of pregnancy.

11
Sex Chromosome anomalies
  • Turners Syndrome When a males sperm fails to
    have an X or Y sex chromosome, the child is an
    XO. She only has one X from her mother. These
    children will be short, have webbed necks,
    mouth/facial anomalies, and cognitive
    impairments.
  • Klinefelters syndrome Occurs when a male child
    has an extra X chromosome (XXY), and displays
    female secondary sex characteristics and some
    cognitive impairments.
  • XXY malesappear to be significantly taller than
    normal males and may have cognitive impairments.
  • Fragile X- occurs in male children only in which
    the X is fragmented or broken. Leads to facial
    anomalies and mental retardation which gets
    progressively worse with age.

12
Genetic inheritance
  • 2 or more forms of each gene occur at the same
    place on the chromosomes.
  • Each different form of a gene is called an allele
    (1-mother, 1-father).

13
Alleles
  • If alleles from both parents are alike the child
    will be homozygous (AA, aa) for that
    characteristic.
  • If alleles are different, the child will be
    heterozygous (Aa, aA) for that characteristic.
  • Here, relationships between alleles determine if
    trait will appear.

14
What happens if a child is heterozygous?
  • e.g., eye color, Bb (B-brown, b-blue)
  • One allele will be dominant for a trait, whereas
    the other will be recessive.
  • This child will have Brown eyes!

15
Possible Outcomes with heterozygous Allele
patterns
  • 1. Dominant allele will be expressed, while the
    recessive allele will not (e.g., brown eyes
    winning out over blue.)
  • 2. The trait expressed may be in between the
    dominant and recessive alleles (a dominant dark
    skin allele and recessive light skin allele, may
    yield a child with skin color in between the
    two).
  • 3. Both alleles may be expressed simultaneously
    at full intensity (called codominance). A child
    with an allele for A blood and an allele for B
    blood, may have both AB antigens expressed in
    their blood.

16
Carriers of recessive genes
  • Heterozygous individuals with just one
    recessive allele (Bb) can pass that trait to
    their children.
  • These are carriers (blue eyes, blond hair,
    cystic fibrosis, PKU)

17
Dominant and Recessive Characteristics
  • Dominant Recessive
  • Dark hair Blond hair
  • Normal hair Pattern baldness
  • Curly hair Straight hair
  • Nonred hair Red hair
  • Facial dimples No dimples
  • Normal hearing deafness
  • Normal vision myopia
  • Normally pigmented skin Albinism
  • Type A blood Type O blood
  • Type B blood Type O blood
  • Rh-positive blood Rh-negative blood

18
PKU-a recessive disease
  • Phenylketonuria lack an enzyme that converts
    one of the basic amino acids that make up
    proteins (phenylalanine).
  • phenylalanine quickly builds to toxic levels in
    brain
  • Will lead to mental retardation, but if caught
    early can be treated with diet restrictions.

19
What if a harmful recessive gene occurs on the
X-chromosome?
  • Females may have an extra allele that will
    cancel-out the effects of the harmful allele.
  • Males only have 1 X on 23rd pair, so they dont
    have any extra alleles to cancel-out effects.
  • (E.g, color blindness)

20
Chromosomal abnormalities
  • Damage to the chromosomes may result in birth
    defects/disease.
  • Most commonDowns Syndrome
  • Results when an extra chromosome is present on
    the 21st pair.

21
Downs Syndrome results in
  • mental retardation, speech difficulties, limited
    vocabulary, slow motor development.
  • Downs babies have more problems (breathing,
    feeding) than healthy infants.

22
Predisposing factors
  • Maternal age (35 )
  • Paternal- Marijuana smoking increases likelihood
    of Downs syndrome.

23
B. Prenatal Diagnosis
  • Good News!!!
  • 95 of fetuses examined through prenatal
    diagnosis are normal.

24
Prenatal Diagnostic Tests
  • 1. Amniocentesis- A hollow needed is inserted
    through the abdominal wall to obtain a sample of
    fluid in the uterus.
  • May be performed 11-14
  • wks following conception.
  • 1-2 weeks for results.

25
2. Chorionic Villi sampling
  • A hollow probe is inserted through the vagina.
    Sample collects chorionic villi, hairlike
    projections surrounding organism.
  • Performed (6 to 8 weeks following conception),
    results known within 24 hours.

26
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27
3. Fetoscopy
  • A small tube with light source at one end is
    inserted into womb to inspect fetus for defects
    of the limbs face. Blood may be taken.
  • Diagnoses- hemophilia, sickle-cell anemia,
    neural tube defects.
  • Performed between 15 18 weeks post conception

28
4. Ultrasound
  • High-frequency sound waves beamed at the uterus
    their reflection is recorded.
  • Provides picture of fetus.
  • Detects fetal age, multiple pregnancies,
    identification of gross physical defects.

29
5. Maternal Blood Analysis
  • A blood test done at 2nd month of pregnancy.
  • Looks for elevated levels of alpha-fetoprotein
    --may detect neural tube defects Downs
    Syndrome

30
C. Prenatal Development
  • Female releases a mature egg (ovum) once a month.
    The egg travels from the ovaries to the
    fallopian tubes where it awaits a sperm cell to
    fertilize it.
  • When sperm meets egg, the egg is fertilized and
    travels down to the uterus.

31
Period of zygote from fertilization to
Implantation (two week period).
  • 7th -9th day post conception.
  • Zygote becomes a blastocyst, a hollow,
    fluid-filled ball.
  • Cells inside, form embryonic disk (will become
    baby).

32
Period of the embryo
  • Implantation -8th week of pregnancy.
  • Period marks most rapid prenatal changes (organ
    development).
  • Ectoderm-NS skin
  • Mesoderm-muscle, skeletal
  • Endoderm-digestive tract,
  • (6 weeks)

33
First Month
  • Nervous system develops first -- neural tube or
    primitive spinal cord.
  • At 3-4 weeks (brain other
  • organs form
  • The Heart pumps blood!!!
  • (4weeks)

34
The Second Month
  • Eyes, ears, nose, jaw, neck form.
  • Tiny buds become arms, legs, fingers,
  • toes.
  • Organs become more distinct
  • (heart)
  • Is 1 inch long, can move.
  • (8 weeks)

35
Third Month
  • Fetus can kick, bend its arms,
  • forms a fist, curls its toes,
  • opens it mouth.
  • By the 12th week, the
  • external genitals are
  • well formed.
  • (12 weeks)

36
The Second Trimester
  • By end of 2nd trimester (6 months) all major
    organs are formed.
  • Baby continues growing,
  • Is felt moving by mother.

37
Third Trimester (6-9 mos.)
  • Babies born during this time have a chance of
    survival (24 weeks-50 survival rate).
  • Fetus gains weight (about 5 lbs.)
  • And continues growing.
  • Baby prepares for birth.
  • (24 weeks)

38
Third trimester
  • 30 weeks

39
D. Childbirth
  • Stage 1 Dilation and effacement of the cervix
    (avg 12-14 hrs.)
  • Stage 2 Delivery of the baby.
  • Stage 3 Birth of the placenta

40
Complications
  • Failure to progress
  • Fetal distress
  • Placental abruption
  • Often results in C-section delivery, where baby
    is surgically removed from the mother.
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