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Title: Heredity Influences on Development Chapter 3


1
Heredity Influences on DevelopmentChapter 3
  • Dr. Pelaez

2
Principles of Heredity Transmission
  • The Genetic Code
  • Conception is the moment of fertilization, when a
    sperm penetrates an ovum, forming a zygote.
  • The zygote contains 46 chromosomes, consisting of
    thousands of chemical segments, or genes.
  • Genes are hereditary blueprints for development
    that are passed on unchanged from generation to
    generation.
  • Chromosomes come in matching pairs. (23
    chromosomes from each parent.)

3
  • Growth of the Zygote and Production of Body Cells
  • The zygote moves through the fallopian tube
    toward the uterus, and begins the process of
    mitosis.
  • The zygote first divide into 2 cells, then 2
    become 4, 4 become 8, 8 become 16, etc.
  • Before each division, the zygote duplicates its
    46 chromosomes.

4
  • Germ (or Sex) Cells
  • The germ cells are the sex cells of the zygote.
  • The germ cells function is to produce gametes,
    which are either sperm in males or ova in
    females.
  • Meiosis occurs when the male germ cell in the
    testes produces sperm and when the female germ
    cell in the ovaries produces ova.
  • Often cross-over takes place. This is when
    there is an exchange of genetic material.

5
  • Multiple Births
  • Multiple births occur when the are two people who
    share a genotype. When the zygote begins the
    process of mitosis it may begin to split into
    identical cells. At this moment two individuals
    have been formed. This is an example of
    monozygotic twins.
  • Dizygotic twins are more common. These are twins
    that result when a mother releases two ova at the
    same moment and each is fertilized by a different
    sperm.

6
  • The 23rd pair of chromosomes
  • The sex of the zygote is determined by the 23rd
    pair of chromosomes.
  • For a female sex, both of these sex chromosomes
    are an X chromosome.
  • For a male sex, the 23rd pair consists of one X
    chromosome and one Y chromosome.
  • The purpose of our genes..
  • Our genes are responsible for the construction of
    our enzymes and other proteins.
  • These genes are essential in order to form new
    cells and their specific functions.
  • Other genes are accountable for regulating the
    pace of development.

7
  • How are genes expressed?
  • Simple Dominant-Recessive Inheritance
  • Alleles human characteristics that are
    influenced by one pair of genes (one from the
    mother, one from the father).
  • 1) Dominant-recessive a pattern of inheritance
    in which one allele dominates another so that its
    phenotype is only expressed
  • 2) Dominant a powerful gene expressed
    phenotypically masking the effect of a less
    powerful gene (i.e., a gene for normal vision)
  • 3) Recessive a less powerful gene not expressed
    phenotypically when paired with a dominant allele
    (i.e., a gene for nearsightedness)

8
  • Codominance
  • Codominance The phenotype produced is a
    compromise between the two genes.
  • Sex linked Inheritance
  • Genes that are determined by genes located on the
    sex chromosomes (i.e., red/green color blindness)

9
  • Genetic Imprinting
  • A process in which particular gene pairs are
    biochemically marked so that only one parents
    allele is expressed, regardless of its
    composition.
  • Polygenic Inheritance
  • Human characteristics that are influenced by many
    pairs of alleles (i.e., height, weight,
    intelligence, skin color, temperamental
    attributes, susceptibility to cancer).

10
Chromosomal and Genetic Abnormalities
  • Congenital defects are those that are present at
    birth, although many are not detectable when the
    child is born.
  • Chromosomal Abnormalities
  • Abnormalities of Sex Chromosomes
  • Involve the 23rd pair sex chromosomes.
  • Males may be born with an extra X or Y
    chromosome.
  • About 1 in every 1,000 individual has an X
    chromosome that is fragile and may have separated
    into two or more pieces, known as the Fragile-X
    syndrome.

11
  • Autosomal Abnormalities
  • 22 pairs of chromosomes that are similar in males
    and females
  • The most common occurs when an abnormal
    sperm/ovum carrying an extra autosome combines
    with a normal gamete to form a zygote that has 47
    chromosomes (i.e., Down syndrome, or trisomy-21).
  • Causes of Chromosomal Abnormalities
  • Most chromosomal abnormalities result from the
    uneven segregation of chromosomes during the
    meiosis of male and female germ cells.
  • Aging-ova hypothesis is another cause of
    chromosomal abnormalities found in the offspring
    of older mothers.

12
  • Genetic Abnormalities
  • Mutations changes in chemical structure of one
    or more genes that produce a new phenotype.
  • Genetic abnormalities may occur from mutations.
  • Mutations may be induced by
  • toxic industrial waste
  • radiation
  • agricultural chemicals that enter the food supply
  • additives and preservatives in processed foods

13
Applications Genetic Counseling, Prenatal
Detection, and Treatment of Hereditary Disorders
  • Genetic Counseling
  • Genetic counseling is a service that helps
    prospective parents to assess the likelihood that
    their children will be free of hereditary
    defects.
  • Counselors usually begin by obtaining a complete
    report of family history.

14
  • Prenatal Detection
  • The overall rate of chromosomal abnormalities
    dramatically increases after the age of 35. A
    prenatal screening known as amniocentesis is a
    method performed by extracting amniotic fluid
    from a pregnant woman that can be tested for
    chromosomal abnormalities and other genetic
    defects.

15
  • Disadvantage
  • Amniocentesis is not easily performed before the
    11th 14th week of pregnancy.
  • Alternative procedures
  • Chorionic villus sampling (CVS) collects tissue
    and can be performed during the 8th or 9th week
    of pregnancy
  • Ultrasound scanning the womb with sound waves
    most useful after the 14th week of pregnancy

16
  • Treating Hereditary Disorders
  • New medical and surgical techniques, performed on
    fetuses have made it possible to treat some
    hereditary disorders
  • Delivering drugs or hormones to the unborn
    organism by performing bone marrow transplants
  • Surgically repairing womb genetically transmitted
    defects of the heart, neural tube, urinary tract,
    and respiratory system.
  • Germline gene therapy

17
Hereditary Influences on Behavior
  • Behavioral Genetics is the scientific study of
    how genotype interacts with the environment in
    order to determine behavioral attributes such as
    intelligence, personality, and mental health.
  • Methods of Studying Heredity Influences
  • Heritability is the amount of variability in a
    trait that is attributable to hereditary factors.
  • Selective breeding experiment
  • Family studies
  • Estimating the Contribution of Gene and
    Environment
  • Gene Influences
  • Nonshared Environmental Influences (NSE)
  • Shared Environmental Influences (SE)

18
  • Heredity Influences in Intellectual Performance
  • Plomin et al (1997)
  • Wilson (1978)
  • Heredity Contributions to Personality
  • Twin data may be used to estimate genetic
    contributions
  • There is a heavy influence by the environment
  • (i.e., Nonshared Environmental influences (Rowe,
    1994))
  • For example, parents who often treat sons
    differently than daughters, or first-born
    children differently than later-borns.

19
  • Heredity Contributions to Behavior Disorders and
    Mental Illness
  • There is strong indication that schizophrenia is
    genetically influenced.
  • Schizophrenia is a serious mental illness
    characterized by severe disturbances in logical
    thinking, emotional expression, and social
    behavior.
  • Heredity may also contribute to abnormal
    behaviors such as alcoholism, criminality,
    depression, hyperactivity, manic-depressive
    psychosis, and a number of neurotic disorders.

20
Heredity and Environment as Developmental
Co-conspirators
  • The Canalization Principle
  • There are multiple pathways along which an
    individual might develop.
  • Nature and nurture combine to determine these
    pathways.
  • Either genes or the environment may limit the
    influence on development by other factors.

21
  • The Range-of-Reaction Principle
  • Range of reaction is when an individual genotype
    establishes a range of possible responses to
    different kinds of life experiences.
  • Gottesman (1963)
  • Genotype/Environment Correlations
  • Passive Genotype/Environment Correlations
  • Evocative Genotype/Environment Correlations
  • Active Genotype/Environment Correlations
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