Genetic Diseases

Question 1

Obliterated pulp chamber

Answer 1

Dentinogenesis

Question 2

Soap bubble lucencies are characteristics of ______

Answer 2

Cherubism

Question 3

______ is the most common form of skin cancer

Answer 3

Basal cell carcinoma

Question 4

• Multiple, early-onset basal cell carcinomas
• Multiple odontogenic keratocysts of the jaws
• Skeletal anomalies (eg, bifid ribs)
• Enlarged calvarium
• Calcified falx cerebri
• Mild hypertelorism
• Palmar/plantar pits

Answer 4

Nevoid Basal Cell Carcinoma Syndrome

Question 5

Are hereditary and congenital diseases the same thing?

Answer 5

No

Question 6

= genetically transmitted from parent to child

Answer 6

Hereditary

Question 7

_____= synonym for hereditary

Answer 7

Familial

Question 8

= present at birth–Has nothing to do with transmitting genes from parent to child.

Answer 8

Congenital

Question 9

A ______ is an organized structure of DNA and protein that consists of a single piece of coiled DNA containing many genes, regulatory elements and other nucleotide sequences.

Answer 9

chromosome

Question 10

______ formed when a cell needs to duplicate genetic material

Answer 10

Chromosomes

Question 11

• An image of the metaphase chromosomes
• Reveals the karyotype
• Detects large abnormalities in chromosomes (duplications, deletions, translocations)
• Cannot detect single gene mutations

Answer 11

Karyogram

Question 12

How many chromosomes are in the human karyotype?

Answer 12

46 chromosomes

Question 13

An individual has two or more cell populations with a different chromosomal makeup

Answer 13

Chromosomal mosaicism

Question 14

The genetic makeup

Answer 14

Genotype

Question 15

The physical manifestation of a disease

Answer 15

Phenotype

Question 16

_______= there is one copy of a gene (

Answer 16

Hemizygous

Question 17

______ number: 23 (germ cells: oocytes and spermatocytes)

Answer 17

Haploid

Question 18

______ number: 46 (all somatic cells)

Answer 18

Diploid

Question 19

______: A multiple of the haploid number, greater than two (e.g. 69, 92)

Answer 19

Polyploid

Question 20

______: A karyotype that is not an exact multiple of the haploid number (e.g. 45 or 47)

Answer 20

Aneuploid

Question 21

• Female has a double dose of genetic material on the X chromosome
• Random inactivation of the X chromosome =
• Inactivated X chromosome presents as the Barr body
• Female is a mosaic with respect to the X chromosome

Answer 21

Lyonization

Question 22

•In the _____, there are two alleles for genes on the X chromosome–X-linked disease is mild or non-existent in the

Answer 22

female

Question 23

•In the ____, there is one allele for genes on the X chromosome–X-linked disease is all or none in the

Answer 23

male

Question 24

• Failure of a homologous chromosome pair to separate during meiosis
• One gamete receives an extra chromosometrisomy
• The other gamete is missing a chromosomemonosomy

Answer 24

Nondisjunction

Question 25

Females are less severely affected by sex-linked diseases than males due to:
A. Lyonization
B. Non-dysjunction
C. Mosaicism
D. Germ line mutations

Answer 25

A. Lyonization

Question 26

A ______ is a permanent change in the normal base pair sequence

Answer 26

mutation

Question 27

• A permanent change in the normal base pair sequence

* Can’t be seen on the karyogram

Answer 27

Mutations

Question 28

______ mutation–a single base pair change causes the substitution of one amino acid for another in the protein

Answer 28

•Mis-sense mutation

Question 29

______ mutation-results in a stop codon that truncates the protein

Answer 29

•Nonsense mutation

Question 30

_______ mutation-addition or loss of a nucleotide / nucleotides -changes the reading frame, producing an entirely different amino acid sequence nonfunctional protein
-most damaging

Answer 30

•Frame shift mutation

Question 31

•A single base pair change causes the substitution of one amino acid for another in the protein–May be no phenotypic effect–Or, the phenotypic effect may be life-threatening:e.g. Sickle cell anemia –a single amino acid substitution of valine for glutamic acid

Answer 31

Missense mutations

Question 32

•A single base pair change causes the substitution of one amino acid for resulting in a STOP codon that truncates the protein

Answer 32

Nonsense mutations

Question 33

•Addition or loss of a nucleotide or nucleotides changes the reading frame from the site of the mutation
produces an entirely different amino acid sequence
results in a nonfunctional protein
•Potentially more harmful than a mis-sense mutation

Answer 33

Frameshift mutation

Question 34

______ mutation
–Present in germ cells (the oocyte and spermatocyte)
–Therefore, present in every cell in the body forever
–Passed on to future generations

Answer 34

•Germ line mutation

Question 35

______ mutation
–Post-zygotic mutation
–The number of cells bearing the mutation depends on how far into embryogenesis the mutation occurs
–Not passed on to future generations

Answer 35

•Somatic cell mutation

Question 36

Can you see chromosome abnormalities on karyograms?

Answer 36

Yes

Question 37

Can you see gene mutations on karyograms?

Answer 37

No

Question 38

• Phenotype: epicanthal folds, low-set ears, macroglossia, broad nasal bridge, simian crease
• Increased maternal age
• Nondisjunction

Answer 38

Down syndrome

Question 39

Trisomy 21 is _____

Answer 39

Down syndrome

Question 40

Do younger or older women have a greater risk of having a child with down syndrome?

Answer 40

Older women

Question 41

Clinical aspects of ______
•Congenital heart disease: valvular and septal defects40%
•Acute leukemia: 10x -20x increased risk•Infection: Increased risk for infection
•Dementia : Alzheimer-like dementia by age 40

Answer 41

Down syndrome

Question 42

• Genotype –45, X
• Monosomy for the X chromosome
• AKA Gonadal dysgenesis (sterile)
• Webbed neck
• Cubitus valgus

Answer 42

Turner Syndrome

Question 43

• Affects only males
• 47, XXY genotype
• Common–1:700
• Phenotype: narrow shoulders, broad hips, variable gynecomastia, normal mental status, sterile

Answer 43

Klinefelter Syndrome

Question 44

•Additive effect of multiple genes of small effect–Environmental, non-genetic influences
•Multifactorial inheritance fall on a continuous distributionphenotype
•Threshold effect:
–Disorder becomes manifest only when the liability due to genes and environment is exceeded.
•E.g. Alzheimer disease, Colon cancer, Breast cancer, Ovarian cancer, Hypothyroidism, Cleft lip and palate
–Also height, weight,blood pressure, hair color

Answer 44

Multifactorial (Polygenic) Inheritance

Question 45

–A single copy of the mutant gene produces the disease

Answer 45

Dominant:

Question 46

–Disease isn’t present with a single copy of the mutant gene Two gene copies required

Answer 46

Recessive:

Question 47

________= the proportion of those carrying a genotype that express the phenotype–Phenotype can be modified by variations in penetrance and expressivity–All-or-none: either genotype = phenotype or genotype =/ phenotype)

Answer 47

Penetrance

Question 48

_______ penetrance–Some carry the mutant allele and are phenotypically normal

Answer 48

Incomplete penetrance

Question 49

________ = a trait is seen in all individuals carrying the mutant gene, but is expressed differently among individuals–If a gene is penetrant, it may be expressed to varying degrees–Variation in phenotype among individuals carrying a particular genotype

Answer 49

Variable expressivity

Question 50

_____ gene defects –Affect both sexes equally

Answer 50

•Autosomal gene defects

Question 51

_____ gene defects
–Affect males far more frequently than females
–Males cannot compensate for a defective x-linked gene with a normal counterpart of that gene on the other X chromosome

Answer 51

Sex-linked gene defects

Question 52

______ proteins
–Mutations in genes that encode non-enzyme proteins exhibit autosomal dominant inheritance
–Structural proteins •e.g. collagen
–Membrane receptor proteins•e.g. LDL receptor

Answer 52

Non-enzyme proteins

Question 53

_____ proteins
–Mutations in genes that encode enzyme proteins do not exhibit autosomal dominant inheritance
–50% enzyme loss can usually be compensated for and heterozygotes are usually normal

Answer 53

Enzyme proteins

Question 54

Examples of \_\_\_\_\_\_\_\_ Diseases
•Neurofibromatosis (von Recklinghausen’s disease of skin)
•Marfan syndrome
•Ehlers-Danlos syndromes
•Nevoid basal cell carcinoma syndrome
•Dentinogenesis imperfecta
•Amelogenesis imperfecta (some forms)

Answer 54

Autosomal Dominant

Question 55

• Von Recklinghausen’s disease of skin
• Autosomal dominant
• Cutaneous neurofibromas
• Café-au-lait pigmentation
• Malignant transformation

Answer 55

Neurofibromatosis

Question 56

–NF1 gene (neurofibromin) on chromosome 17q11.2
–Cutaneous neurofibromas
–Cutaneous café au lait macules
–Lisch nodules of iris

Answer 56

Neurofibromatosis Type I (von Recklinghausen Disease of skin)

Question 57

•Autosomal dominant inheritance
•Structural protein defect–mutation in genes that code for fibrillindefect in elastic fibers
•Involves skeleton, eyes and cardiovascular system
•Marfanoid habitus: characteristic body build
–Unusually tall with exceptionally long extremities
–Long, tapering fingers and toes
•Arachnodactly: spider-like digits

Answer 57

Marfan syndrome

Question 58

_____ forms the Scaffolding Network of Elastic Fibers

Answer 58

Fibrillin

Question 59

• Ectopia lentis–lens displacement with impaired vision -suspensory ligaments of lens of eye
• Mitral valve prolapse–myxomatous degeneration of the mitral valve
• Cystic medionecrosis of aorta–dilation
• Aortic valve incompetence
• Aortic dissection–common cause of death

Answer 59

Marfan Syndrome

Question 60

• A group of inherited diseases –AD, AR, XR
• Defects in collagen synthesis and structure
• Skin, ligaments, joints•Hyperextensible skin
• Hypermobile joints
• Bleeding into the skin (ecchymoses)
• Poor wound healing

Answer 60

Ehlers-Danlos Syndromes

Question 61

• Two copies of the allele are required for the trait to be expressed
• Carriers do not express the disease
• Skips generations
• Males and females are equally affected
• If both parents carry one copy of the recessive allele, one in four offspring, on average, will express the trait (25%)
• Frequently involves enzyme proteins

Answer 61

Autosomal Recessive Inheritance

Question 62

Can autosomal dominant or autosomal recessive skip generations?

Answer 62

AR

Question 63

Examples of _____ diseases
•Phenylketonuria (PKU)
•Cystic fibrosis (mucoviscidosis)
•Sickle cell anemia

Answer 63

Autosomal Recessive

Question 64

• It is an example of an “invisible” biochemical lesion
• An autosomal recessive disorder of phenylalanine metabolism –a developmental disease
• Caused by a mutation in the enzyme that converts phenylalanine to tyrosine (phenylalanine hydroxylase)
• Phenylalanine is toxic to developing brain and causes profound, irreversible mental retardation (cognitive disorder)

Answer 64

Phenylketonuria

Question 65

All sex-linked diseases are ____-linked

Answer 65

X-linked

Question 66

_____ inheritance:
•Mutant genes are on the X chromosome
•Females must inherit two mutated copies to be affected
•All males who inherit the mutation will be affected (only one X chromosome)
•Transmitted by heterozygous females to their sons who manifest the disease
•Female carriers are usually protected because of random inactivation of one X chromosome (Lyonization)
•All or none in male
•Mild or non-existent in female

Answer 66

X-linked inheritance

Question 67

Examples of _____ diseases:
•Classic hemophilia (blood clotting factor VIII deficiency)
•Bruton X-linked agammaglobulinemia (XLA)
•Duchenne muscular dystrophy
•X-linked hypophosphatemia –hypophosphatemic vitamin D-resistant rickets
•Ectodermal dysplasia

Answer 67

X-linked diseases

Question 68

•Blood clotting factor VIII gene is on the X chromosome
•Heterozygous female phenotypically normal. Protected by presence of one normal gene
–Makes 50% factor VIII
–Laboratory abnormality
•Male son hemizygous for mutated gene on X chromosome
–Makes 0% factor VIII -has hemophilia

Answer 68

Classic hemophilia

Question 69

•Defect in humoral immunity
•Failure of B cell maturation to plasma cells
No plasma cells
No antibodies
No germinal centers in lymphoid tissue
Recurrent bacterial infections
•X-linked inheritance–Affects only males
•Lyonization protects females who are carriers

Answer 69

Bruton X-linked Agammaglobulinemia

Question 70

• Not a single disorder, but a group of syndromes all deriving from abnormalities of the ectodermal structures
• Inherited, mostly X-Linked
• Sparse, fine hair
• Oligodontia
• Reduced number of sweat glands
• Nail abnormalities

Answer 70

Ectodermal Dysplasia

Question 71

•X-linked: males are affected
•Clinical signs of rickets
•Unresponsive to Vitamin D
•Renal tubular problem:
–Can’t resorb phosphate, which is excreted in the urine
•Hypophosphatemia: low serum phosphate
•Long pulp horns extending to incisal edge of teeth
•Pulpal disease: Periapical pathosis of deciduous teeth

Answer 71

X-Linked Hypophosphatemia Hypophosphatemic Vitamin D Resistant Rickets