1. Genetic Disorders

2. How do you get a genetic disease?
Gene disorders are inherited as a single gene on a chromosome.

3. How do you get a genetic disease?
Most gene disorders are recessive.
Thus, in order to express the disorder, the individual must be homozygous recessive.
heterozygous homozygous homozygous
dominant recessive
normal normal albino

4. How do you get a genetic disease?
Science hypothesizes that gene disorders arose from mutations that disabled specific proteins, or increase production harmfully

5. Autosomal diseases
Autosomal genetic diseases occur when the gene defect is on one of the first 22 pairs of chromosomes (called the autosomal chromosomes)

6. Fill It In …
What does “autosomal” mean?

7. Autosomal diseases
Huntington’s disease is inherited as an autosomal dominant gene.
Huntington’s disease breaks down certain areas of the brain.
In addition to being dominant, Huntington’s is also unique because symptoms begin appearing in the person’s late forties.

8. Autosomal diseases
Sickle-cell anemia is inherited as a codominant autosomal gene.
Sickle-cell anemia leads to misshapen red blood cells, which lead to poor circulation and pain.

9. Autosomal diseases
Sickle cell is unique because heterozygous individuals are not affected by sickle-cell AND are able to resist malaria.
Currently, sickle-cell is primarily in African populations.

10. Sickle-Cell Disease

11. Autosomal diseases
Cystic fibrosis is inherited as a recessive autosomal gene.
Cystic fibrosis leads to increased mucus production in the lungs and digestive tract, which may be fatal.
Currently, this disease is primarily in Caucasian populations.

12. Autosomal diseases Alyssa Gold
Tay-Sach’s is inherited as a recessive autosomal gene.
Tay-Sach’s degenerates (breaks down) the central nervous system, leading to premature death.
Currently Tay-Sach’s is primarily in Jewish and Pennsylvania Dutch populations.
Alyssa Gold
May 30, March 17, 2001

13. Autosomal diseases
Phenylketonuria (PKU) is inherited as a recessive autosomal gene.
PKU leads to the inability to break down the amino acid phenylalanine when ingested.
The phenylalanine builds up in the brain and leads to decreased mental function.

14. Autosomal diseases Living with PKU
PKU is unique because, if detected early, it can be entirely controlled by diet.
Individuals can simply not consume products containing phenylalanine (such as milk & diet sodas).

15. Autosomal diseases
However, any damage done before detection is irreversible.
In hospitals, children are tested at birth.

16. How do you get a genetic disease?
Sex-linked genetic diseases occur when the gene defect is on the last pair (23rd) of chromosomes (called the sex chromosomes)

17. How do you get a genetic disease?
Because males inherit only a single X chromosome (they are XY) and the X carriers the majority of sex-linked genes, males are MORE LIKELY to express sex-linked disorders and cannot be carriers of these traits.

18. Sex-linked diseases
Hemophilia is inherited as a recessive sex-linked gene.
Hemophilia leads to low production of blood clotting factors which leads to excessive bruising and bleeding.

19. Sex-linked diseases
Red-green color blindness is inherited as a recessive sex-linked gene.
People with red-green color blindness are unable to distinguish red from green colors (both colors often appear a muddy brown).

20. Fill It In … List genetic diseases that are … Dominant: Codominant:
Recessive:

21. Fill It In …
Contrast “autosomal” with “sex-linked” using a T-chart or Venn below. Include specific diseases.

22. How do you get a genetic disease?
Chromosomal disorders are inherited due to problems with the entire chromosome (which may contain hundreds of genes!)
Thus, an individual with even one chromosomal defect will most likely express the disorder.

23. How do you get a genetic disease?
Science hypothesizes that chromosomal disorders arise from mistakes in meiosis during gamete formation.
For example, a sperm cell my receive 22 instead of 23 chromosomes.

24. How do you get a genetic disease?
This incorrect distribution of chromosomes is called nondisjunction.
Nondisjunction may lead to aneuploidy - an incorrect number of chromosomes in a fertilized zygote.

25. Fill It In … WORD HELP! “non” - ____________
“disjunction” is the state of being disconnected

26. Fill It In … WORD HELP! “a” - ____________ “neu” - ____________
“ploid” means the number of chromosomes present in a cell

27. Chromosomal disorders
An autosomal chromosome aneuploidy refers to having one extra autosome.
For example, Trisomy 21 (three #21 chromosomes), leads to Down’s Syndrome.

28. EX 2 Polygenic Inheritance :

29. Polygenic Disorders
Examples: cancer, schizophrenia, hypertension, diabetes, etc
several genes involved
also environmental influences.

30. Diabetes Does not break down sugar properly= high blood sugar
Type 1- body does not produce insulin
Take insulin
Genetic correlation
Type 2- body does not use the insulin properly
Watch diet and exercise
Mainly environmentally related

31. Cancer Uncontrolled growth of cells
Genetics- may run in family but doesn’t mean you will get cancer
MANY environmental factors can increase cancer rates
Diet- veggies, fruits= antioxidants
Exercise
Smoking
Sun

32. Chromosomal disorders
Characteristics of Down’s Syndrome include some level of mental retardation, heart defects, flat facial features, and an enlarged tongue.

34. Chromosomal disorders
A sex chromosome aneuploidy refers to having one extra or one too few sex chromosomes.

35. Chromosomal disorders
Turner’s Syndrome is the result of inheriting a single X chromosome (genotype XO).
These individuals are female but lack secondary sex characteristics, are infertile, and have some lack of mental function.

36. Chromosomal disorders
Klinefelter’s Syndrome is the result of inheriting an extra X chromosome in males (genotype XXY).
These individuals are male but lack secondary sex characteristics, are infertile, and have some lack of mental function.

37. Check Yourself!
What is the difference between a gene disorder and a chromosomal disorder?
What is the difference between an autosomal disorder and a sex-linked disorder?
Why is hemophilia considered a sex-linked disease?
What is an aneuploidy?

38. Check Yourself!
What is the difference between a gene disorder and a chromosomal disorder? A GENE DISORDER IS INHERITED ON A SINGLE GENE; A CHROMOSOMAL DISORDER MAY IMPACT 100’S OF GENES
What is the difference between an autosomal disorder and a sex-linked disorder?
Why is hemophilia considered a sex-linked disease?
What is an aneuploidy?

39. Check Yourself!
What is the difference between a gene disorder and a chromosomal disorder? A GENE DISORDER IS INHERITED ON A SINGLE GENE; A CHROMOSOMAL DISORDER MAY IMPACT 100’S OF GENES
What is the difference between an autosomal disorder and a sex-linked disorder? AUTOSOMAL DISORDER OCCURS ON ONE OF THE FIRST 22 CHROMOSOMES; A SEX-LINKED DISORDER OCCURS ON A SEX-CHROMOSOME
Why is hemophilia considered a sex-linked disease?
What is an aneuploidy?

40. Check Yourself!
What is the difference between a gene disorder and a chromosomal disorder? A GENE DISORDER IS INHERITED ON A SINGLE GENE; A CHROMOSOMAL DISORDER MAY IMPACT 100’S OF GENES
What is the difference between an autosomal disorder and a sex-linked disorder? AUTOSOMAL DISORDER OCCURS ON ONE OF THE FIRST 22 CHROMOSOMES; A SEX-LINKED DISORDER OCCURS ON A SEX-CHROMOSOME
Why is hemophilia considered a sex-linked disease? IT OCCURS ON THE X CHROMOSOME
What is an aneuploidy?

41. Check Yourself!
What is the difference between a gene disorder and a chromosomal disorder? A GENE DISORDER IS INHERITED ON A SINGLE GENE; A CHROMOSOMAL DISORDER MAY IMPACT 100’S OF GENES
What is the difference between an autosomal disorder and a sex-linked disorder? AUTOSOMAL DISORDER OCCURS ON ONE OF THE FIRST 22 CHROMOSOMES; A SEX-LINKED DISORDER OCCURS ON A SEX-CHROMOSOME
Why is hemophilia considered a sex-linked disease? IT OCCURS ON THE X CHROMOSOME
What is an aneuploidy? AN INCORRECT NUMBER OF CHROMOSOMES IN A FERTILIZED ZYGOTE

42. Can we tell if a baby has a genetic disease?
A genetic counselor can help prospective parents determine the likelihood of passing some harmful genetic traits to their offspring and may suggest further testing procedures.
Conselors may also interpret diagnostic procedures done by the doctor for parents.

43. Can we tell if a baby has a genetic disease?
Sonograms/ultrasounds use sound waves to produce an image of the developing fetus.
This may be used to detect physical abnormalities (such as cleft palate)

44. Can we tell if a baby has a genetic disease?
Blood tests of the pregnant mother may screen for certain proteins to assess the risk level of certain genetic disorders (such as Down’s Syndrome)

45. Can we tell if a baby has a genetic disease?
Amniocentesis removes amniotic fluid containing fetal cells.
The cells are then cultured until mitosis occurs and the chromosomes are visible.

46. Can we tell if a baby has a genetic disease?
A karyotype (a picture of the chromosomes) js made using the visible chromosomes.
The karyotype allows doctors to detect chromosomal abnormalities but does NOT detect gene abnormalities.

47. Fill It In … What genetic disorder is present in this karyotype?
How do you know?
What is the sex of this person?

48. Can we tell if a baby has a genetic disease?
Chorionic villi sampling (CVS) removes actual tissue from the placenta (which is composed of embryonic cells) in order to create a karyotype.
This may be done earlier in the pregnancy, but is far more invasive and thus riskier.

49. Human Genome Project
The Human Genome Project has allowed science to develop certain genetic markers.
A genetic marker detects the presence of certain gene variations on the chromosomes.

50. Human Genome Project
The genes may either be a direct cause of a disorder or may simply indicate a predisposition for a trait.
Doctors or genetic counselors may use genetic markers to screen parents and determine if the parents may be carriers for genetic disorders.

51. Normal Female

52. Normal Male

53. Klinefelter’s Syndrome
XXY = male; unusually small testes, sterile. Breast enlargement and other feminine body characteristics. Normal intelligence.

54. Jacobs Syndrome XYY = male - Tall with heavy acne - Speech & reading
problems
Aggressive tendency???
- Fertile

55. Triple X Syndrome
- XXX = female
- Fertile with normal intelligence

56. Turner Syndrome the ONLY viable monosomy Do NOT undergo puberty
XO = female ; sterile

64. Check Yourself!
Name 4 pre-natal tests that may detect genetic disorders.
What is a karyotype?
Why aren’t individual genes visible on a karyotype?

65. Check Yourself!
Name 4 pre-natal tests that may detect genetic disorders. SONOGRAM/ULTRASOUND, BLOOD TEST, AMNIOCENTESIS, & CHORIONIC VILLI SAMPLING
What is a karyotype?
Why aren’t individual genes visible on a karyotype?

66. Check Yourself!
Name 4 pre-natal tests that may detect genetic disorders. SONOGRAM/ULTRASOUND, BLOOD TEST, AMNIOCENTESIS, & CHORIONIC VILLI SAMPLING
What is a karyotype? A PICTURE OF THE CHROMOSOMES
Why aren’t individual genes visible on a karyotype?

67. Check Yourself!
Name 4 pre-natal tests that may detect genetic disorders. SONOGRAM/ULTRASOUND, BLOOD TEST, AMNIOCENTESIS, & CHORIONIC VILLI SAMPLING
What is a karyotype? A PICTURE OF THE CHROMOSOMES
Why aren’t individual genes visible on a karyotype? ONLY CHROMOSOMES ARE VISIBLE, NOT THE SPECIFIC GENES

68. Can you prevent and/or treat genetic disorders?
Currently, there is no “cure” for genetic disorders because the disorder stems from your DNA.
However, the symptoms of genetic disorders can be treated and experimental trials for replacing defective genes are underway.

69. Can you prevent and/or treat genetic disorders?
Gene therapies are being developed using information from the Human Genome Project.
These therapies seek to use engineered cell invaders (such as a virus) in order to actually replace the defective gene in target cells with a functioning gene.

70. Environmental factors
Environmental factors may play a large role in the expression or progression of certain genetic problems.
Environmental factors that interact with genes can be controlled to help prevent the eventual expression of known genetic predispositions.

71. Environmental factors
Appropriate diet can stop the progression of PKU.
Diet may also limit the risk for genetic predispositions such as heart disease, alcoholism, and certain cancers.

72. Environmental factors
Environmental toxins such as UV radiation and tobacco products can directly change our genes.
Harmful behaviors (such as smoking) and positive behaviors (such as using sun screen) increase or reduce the likelihood of genetic mutations from these toxins.
The mutations may lead to cancers if protective genes are disrupted.

73. Fill It In … What aspect of PKU is … Genetic (Nature)?
Environmental (Nurture)?

74. Check Yourself! What is gene therapy?
Identify two environmental toxins that may affect genes.

75. Check Yourself!
What is gene therapy? USING ENGINEERED CELL INVADERS TO REPLACE DEFECTIVE GENES WITH FUNCTIONING GENES
Identify two environmental toxins that may affect genes.

76. Check Yourself!
What is gene therapy? USING ENGINEERED CELL INVADERS TO REPLACE DEFECTIVE GENES WITH FUNCTIONING GENES
Identify two environmental toxins that may affect genes.
RADIATION & TOBACCO PRODUCTS