MIDTERM LEC 1: MENDELIAN GENETICS

Question 1

___________ - inheritance of a trait or characteristic that is controlled by a SINGLE GENE aka_____________

Answer 1

SINGLE-GENE INHERITANCE; MENDELIAN INHERITANCE

Question 2

SINGLE-GENE TRAITS is also known as

Answer 2

MONOFACTORIAL TRAITS or MENDELIAN

Question 3

CHARACTERISTICS OF SINGLE-GENE TRAITS

Answer 3

1. Relationship with the affected relative
2. Tests can sometimes predict the risk of developing symptomes
3. More common in some populations than others
4. It may be fixable

Question 4

example of single-gene traits

Answer 4

widow’s peak, dimple, earlobes, albinism

Question 5

Definition of terms
- alternative form of gene

Answer 5

ALLELE

Question 6

Definition of terms
- allele that masks another, has an effect when present in just 1 copy (CAPITAL LETTER)

Answer 6

DOMINANT ALLELE

Question 7

Definition of terms
- masked, must be present on both chromosomes of a pair to be expressed (small letter)

Answer 7

RECESSIVE ALLELE

Question 8

Definition of terms
- 2 identical alleles (true - breeding)

Answer 8

HOMOZYGOUS

Question 9

Definition of terms
- 2 different alleles (non-true breeding/hybrid)

Answer 9

HETEROZYGOUS

Question 10

Definition of terms
- underlying instructions (alleles present)

Answer 10

GENOTYPE

Question 11

Definition of terms
- visible trait, outward expression of an allele combination

Answer 11

PHENOTYPE

Question 12

Definition of terms (what type of trait)
- 1 trait that masks another

Answer 12

DOMINANT TRAIT

Question 13

Definition of terms (dominant or recessive trait)
- masked trait

Answer 13

RECESSIVE TRAIT

Question 14

An organism’s appearance does not always reveal it’s alleles

TRUE or FALSE?

Answer 14

TRUE

Question 15

Definition of terms
- phenotype, most common expression of a particular allele combination in a population

Wild or mutant type

Answer 15

WILD TYPE

Question 16

Definition of terms
- phenotype, variant of a gene’s expression that arises when the gene undergoes CHANGE

Answer 16

MUTANT TYPE

Question 17

Example of mutant type in Humans

Answer 17

Albino

Question 18

Example of wild type in Humans

Answer 18

Caucasoid
Mongoloid
Negroid

Question 19

MENDELS EXPERIMENT
In ________, Mendel crossed and cataloged traits in 24,034 plants, through several generations. He term units of heredity as “ELEMENTEN”.

A. 1857-1863
B. 1866
C. 1901

Answer 19

1857-1863

Question 20

Mendel published “EXPERIMENT ON PLANT HYBRIDIZATION on” _______

A. 1857-1863
B. 1866
C. 1901

Answer 20

1866

Question 21

HUGO DE VRIES (Holland), CARL CORRENS (Germany , and ERICH VON TSCHERMAK (Austria) used Mendel’s theory making him know into the field

A. 1857-1863
B. 1866
C. 1901

Answer 21

1901

Question 22

Mendel term the unit of heredity as

Answer 22

ELEMENTEN

Question 23

The term ELEMENTEN was renamed by ________ as “genes” (Greek for “give birth to”)

Answer 23

WILLIAM BATESON (1909)

Question 24

Genes is Greek for

Answer 24

Give birth to

Question 25

Why did Gregor Johann Mendel use pea plants in his experiment?

Answer 25

• EASY TO GROW
• DEVELOP QUICKLY
• HAVE MANY TRAITS THAT TAKE ONE OF TWO EASILY DISTINGUISHABLE FORMS

Question 26

In analyzing genetic crosses _________ is the first generation

Answer 26

Parental Generation or P1

Question 27

In analyzing genetic crosses
_____________________ is the second generation

Answer 27

First Filial Generation or F1

Question 28

In analyzing genetic crosses
____________ is the next generation

Answer 28

Second Filial Generation or F2

Question 29

Punnett square was named after ___________ who 1st devised this apporach

Answer 29

Reginald C. Punnett

Question 30

A tool used to predict the possible genotypes & phenotypes of offspring of resulting from a cross between 2 individuals

• represents how genes in gametes join if they are on different chromosomes

Answer 30

PUNNETT SQUARE

Question 31

Mendel’s observation in his experiments:

• producing the same phenotype
• have the same trait as parent
  Ex: A true - breeding purple plant crossed itself will always produce offspring that are purple as well

Answer 31

TRUE - BREEDING

Question 32

Mendel’s observation in his experiments:

• follows 1 trait & the self-crossed plants are HYBRIDS
• true-breeding plant with 2 forms of a single gene trait are crossed

Answer 32

MONOHYBRID CROSS

Question 33

• hides one expression of a trait, which appears when hybrids are self-crossed

Punnett Square or Monohybrid Cross

Answer 33

Monohybrid Cross

Question 34

In monohybrid cross, hybrids can hide one expression of a trait, which reappears when hybrids are self-crossed

How did this happen?

Answer 34

GAMETES DISTRIBUTE “ELEMENTEN”.
Paired set of ELEMENTEN separates gametes form. When gametes join at fertilization, the ELEMENTEN combine anew.

Question 35

Mendel’s first law, distribution of alleles of a gene into separate gametes during meiosis

Answer 35

LAW OF SEGREGATION

Question 36

Chromosomes of parent 1 and 2 replicate in _________
A. Anaphase
B. Metaphase
C. INTERPHASE
D. Monophase

Answer 36

INTERPHASE

Question 37

In ______ alleles segregates into gametes

Meiosis or Mitosis

Answer 37

MEIOSIS

Question 38

Used to determine the GENOTYPE of an individual showing a DOMINANT PHENOTYPE.
Ex: The pea plant is tall ( tall is dominant), is it heterozygous (Tt) or Homozygous (TT) ?

Punnett square or Monohybrid Cross or Test Cross

Answer 38

TEST CROSS (BACK CROSS)

Question 39

• Pattern by which a GENETIC TRAIT/DISORDER IS PASSED FROM 1 GENERATION TO THE NEXT WITHIN A FAMILY

Answer 39

MODE OF INHERITANCE

Question 40

MODE OF INHERITANCE
A way that a trait is passed depends on whether:

Answer 40

A. The gene that determines is an autosome or sex chromosomes and,
B. Whether the allele is recessive or dominant

Question 41

MODE OF INHERITANCE includes

Answer 41

1. AUTOSOMAL DOMINANT INHERITANCE
2. AUTOSOMAL RECESSIVE INHERITANCE
3. SEX - INHERITANCE
   a. Y - linked inheritance
   b. X - linked dominant inheritance
   c. X - linked recessive inheritance

Question 42

• trait/disorder is caused by a DOMINANT ALLELE LOCATED ON 1 OF THE AUTOSOMAL CHROMOSOMES
• a single copy of the dominant allele will exhibit the trait/disorder

Answer 42

AUTOSOMAL DOMINANT INHERITANCE

Question 43

Criteria in AUTOSOMAL DOMINANT INHERITANCE

Answer 43

1. Males and females can be affected. (Male-to-male transmission can occur
2. Males and females transmit the trait with equal frequency
3. Successive generations are affected
4. Transmission stops after a generation in which no one inherits the mutation

Question 44

For many autosomal dominant traits/disorders, affected individuals are HETEROZYGOUS. The HOMOZYGOUS dominant phenotype is either lethal or very rare

True or false

Answer 44

True

Question 45

• trait/disorder is caused by a RECESSIVE ALLELE located on 1 of the autosomal chromosomes
• 2 copies of the recessive allele (homozygous) to exhibit the trait or disorder

Answer 45

AUTOSOMAL RECESSIVE INHERITANCE

Question 46

Criteria for AUTOSOMAL RECESSIVE INHERITANCE

Answer 46

1. Males and females can be affected
2. Affected females and males can transmit the gene, unless it causes death before reproductive age
3. The trait can skip generations
4. Parents of an affected individual are heterozygous or have the trait.

Ex: albinism

Question 47

AUTOSOMAL RECESSIVE INHERITANCE

• affected individuals are HOMOZYGOUS RECESSIVE. Carriers are heterozygous and asymptomatic

Ex: Albino

True or false?

Answer 47

True

Question 48

• Pattern of inheritance of genetic traits/disorders that
  are located on the sex chromosomes

Answer 48

SEX - LINKED INHERITANCE

Question 49

SEX - LINKED INHERITANCE
- Involves genes located on the Y CHROMOSOMES & traits/disorders are rare because it has few genes
- Passed from male-to-male(father-to-sons)
- No affected females

Answer 49

Y-LINKED INHERITANCE

Question 50

EXAMPLE OF Y-LINKED INHERITANCE
- inability to conceive

A. MALE INFERTILITY
B. Y-LINKED CONGENITAL HYPOPLASIA
C. RETINITIS PIGMENTOSA 2 (RP2)

Answer 50

MALE INFERTILITY

Question 51

EXAMPLE OF Y-LINKED INHERITANCE
- impaired development of the adrenal glands

A. MALE INFERTILITY
B. Y-LINKED CONGENITAL HYPOPLASIA
C. RETINITIS PIGMENTOSA 2 (RP2)

Answer 51

Y-LINKED CONGENITAL HYPOPLASIA

Question 52

EXAMPLE OF Y-LINKED INHERITANCE
- progressive vision loss due to the degeneration of photoreceptor cells in the retina

A. MALE INFERTILITY
B. Y-LINKED CONGENITAL HYPOPLASIA
C. RETINITIS PIGMENTOSA 2 (RP2)

Answer 52

RETINITIS PIGMENTOSA 2 (RP2)

Question 53

SEX - LINKED INHERITANCE
- Recessive allele is located on the X CHROMOSOME
- Always expressed in MALES (inherited from heterozygote/ homozygote mother)
- Expressed in females if the CAUSATIVE ALLELES IS PRESENT IN 2 COPIES (inherited from affected father & affected heterozygote mother)
- Females are usually CARRIERS (heterozygotes) & asymptomatic)

Answer 53

X-LINKED RECESSIVE INHERITANCE

Question 54

EXAMPLE OF X-LINKED RECESSIVE DISORDERS
- rough, brown, scaly skin, an enzyme deficiency blocks removal of cholesterol from skin cells

A. ICHTHYOSIS
B. COLORBLINDNESS
C. HEMOPHILIA

Answer 54

ICHTHYOSIS

Question 55

EXAMPLE OF X-LINKED RECESSIVE DISORDERS
- affects an individual’s ability to perceive or distinguish certain colors

A. ICHTHYOSIS
B. COLORBLINDNESS
C. HEMOPHILIA

Answer 55

COLORBLINDNESS

Question 56

EXAMPLE OF X-LINKED RECESSIVE DISORDERS
- blood - clotting disorder

A. ICHTHYOSIS
B. COLORBLINDNESS
C. HEMOPHILIA

Answer 56

HEMOPHILIA

Question 57

SEX - LINKED INHERITANCE
- Dominant allele located on the X chromosome
- Expressed in FEMALES IN 1 COPY and they are more likely to be affected
- Much more severe effects in males
- Passed from MALE TO ALL DAUGHTERS, but to no sons

Answer 57

X-LINKED DOMINANT INHERITANCE

Question 58

X-LINKED DOMINANT DISORDERS
- neurological and developmental disorder

A. RETT SYNDROME
B. INCONTINENTIA PIGMENTI
C. CONGENITAL HYPERTRICHOSIS

Answer 58

RETT SYNDROME

Question 59

X-LINKED DOMINANT DISORDERS
- primarily affects the skin, hair, teeth, and nervous system

A. RETT SYNDROME
B. INCONTINENTIA PIGMENTI
C. CONGENITAL HYPERTRICHOSIS

Answer 59

INCONTINENTIA PIGMENTI

Question 60

X-LINKED DOMINANT DISORDERS
- werewolf syndrome, characterized by excessive hair growth over the body

A. RETT SYNDROME
B. INCONTINENTIA PIGMENTI
C. CONGENITAL HYPERTRICHOSIS

Answer 60

CONGENITAL HYPERTRICHOSIS

Question 61

INHERITANCE OF MORE THAN ONE GENE

Mendel’s 2nd law: States that for 2 genes on different chromosomes, the inheritance of 1 gene does not influence the chance of inheriting the other gene

Answer 61

LAW OF INDEPENDENT ASSORTMENT

Question 62

INHERITANCE OF MORE THAN ONE GENE

• 2 genes and traits are followed

A. MONOHYBRID CROSS
B. DIHYBRID CROSS
C. TEST CROSS

Answer 62

DIHYBRID CROSS

Question 63

• Charts that display family relationship and depicts which relatives have specific phenotypes and sometimes, genotypes
• May also include molecular data, test results, and information on variants of multiple genes

Answer 63

PEDIGREES

Question 64

PEDIGREE ANALYSIS
 Skips a generation through carriers
 Both males and females are affected

A. Pedigree for an autosomal recessive trait/disorder
B. Pedigree for an autosomal dominant trait/disorder
C. Pedigree for a Y-linked trait/disorder
D. Pedigree for a X-linked recessive trait/disorder
E. Pedigree for a X-linked dominant trait/disorder

Answer 64

Pedigree for an autosomal recessive trait/disorder

Question 65

PEDIGREE ANALYSIS
 Does not skip a generation
 Both males and females are affected

A. Pedigree for an autosomal recessive trait/disorder
B. Pedigree for an autosomal dominant trait/disorder
C. Pedigree for a Y-linked trait/disorder
D. Pedigree for a X-linked recessive trait/disorder
E. Pedigree for a X-linked dominant trait/disorder

Answer 65

Pedigree for an autosomal dominant trait/disorder

Question 66

PEDIGREE ANALYSIS
 All males are affected

A. Pedigree for an autosomal recessive trait/disorder
B. Pedigree for an autosomal dominant trait/disorder
C. Pedigree for a Y-linked trait/disorder
D. Pedigree for a X-linked recessive trait/disorder
E. Pedigree for a X-linked dominant trait/disorder

Answer 66

Pedigree for a Y-linked trait/disorder

Question 67

PEDIGREE ANALYSIS
 Females are usually carriers (heterozygotes)
 Always expressed in males

A. Pedigree for an autosomal recessive trait/disorder
B. Pedigree for an autosomal dominant trait/disorder
C. Pedigree for a Y-linked trait/disorder
D. Pedigree for a X-linked recessive trait/disorder
E. Pedigree for a X-linked dominant trait/disorder

Answer 67

Pedigree for a X-linked recessive trait/disorder

Question 68

PEDIGREE ANALYSIS
 Expressed both in males and females
 Passed from male to all daughters, but to no sons

A. Pedigree for an autosomal recessive trait/disorder
B. Pedigree for an autosomal dominant trait/disorder
C. Pedigree for a Y-linked trait/disorder
D. Pedigree for a X-linked recessive trait/disorder
E. Pedigree for a X-linked dominant trait/disorder

Answer 68

Pedigree for a X-linked dominant trait/disorder