LESSON 2

Question 1

branch of biology that deals with heredity and variation of organisms.

Answer 1

Genetics

Question 2

Carry the genetic information or hereditary information (genes)
○ Arrangement of nucleotides in DNA
■ DNA -> RNA -> Protein (Central
Dogma)

Answer 2

Chromosomes

Question 3

contain DNA that codes for the same genes.

Answer 3

Homologous chromosomes

Question 4

T or F: in Homologous chromosome, both chromosomes have all the same genes in the same locations (represented with colored strips), but different “versions” of those genes (represented by different shades of each color).

Answer 4

True

Question 5

a unit of heredity; a section of DNA sequence encoding a single protein

Answer 5

Gene

Question 6

the entire set of genes in an organism

Answer 6

Genome

Question 7

two genes that occupy the same position on homologous chromosomes and that cover the same trait (like flavors a trait)

Answer 7

Alleles

Question 8

a fixed location on a strand of DNA where a gene or one of its alleles is located.

Answer 8

Locus

Question 9

the genetic makeup of an organisms

Answer 9

Genotype

Question 10

the physical appearance of an organism (Genotype + environment)

Answer 10

Phenotype

Question 11

having identical genes (one from each parent) for a particular characteristic. ○ Example: Purple flower (PP) or White flower (ww)

Answer 11

Homolozygous

Question 12

having two different genes for a particular characteristic.

○ Example: Purple flower (Pp) or White flower (Ww)

Answer 12

Heterozygous

Question 13

a trait in which a gene is carried on a sex chromosome

Answer 13

Sex-linked trait

Question 14

traits controlled by genes on one of 22 pairs of autosomes

Answer 14

Autosomal trait

Question 15

the allele of a gene that masks or suppresses the expression of an alternate allele; the trait appears in the heterozygous condition.
○ When a dominant allele is present, the dominant will be manifested and masked the recessive allele

Answer 15

Dominant allele

Question 16

an allele that is masked by a dominant allele; does not appear in the heterozygous condition, only in homozygous.

Answer 16

Recessive allele

Question 17

a genetic cross involving a single pair of genes (one trait); parents differ by a single trait.

Answer 17

Monohybrid cross

Question 18

a genetic cross between two different genes that differ in two observed traits

Answer 18

Dihybrid cross

Question 19

P

Answer 19

Parental generation

Question 20

F1

Answer 20

First filial generation; offspring from a genetic cross.

Question 21

F2

Answer 21

Second filial generation of a genetic cross
○ Usually, a particular trait is manifested here in second filial generation after a genetic cross of homozygous alleles, which was not shown in the first filial generation

Question 22

Mendelian gene/trait

Answer 22

Single gene disease

Question 23

is the most common expression of a particular allele combination in a population. The wild type allele may be recessive or dominant.

Answer 23

Wind type phenotype

Question 24

is a variant of a gene’s expression that arises when the gene undergoes a change, or mutation.

Answer 24

Mutant phenotype

Question 25

Known as an illness that typically begins in early adulthood, causing uncontrollable movements and changes in behavior and thinking (cognition), with death 15 to 20 years later.

Answer 25

Huntington disease

Question 26

Is a dominant, which means that each child of an affected individual need inherit only one copy of the mutant gene to develop the disease.
● However, 10 percent of people who have HD are under age 20. They have juvenile ________

Answer 26

Huntington disease (caused by an HD Gene which produces huntington protein)

Question 27

T or F: Even if only one allele is passed, if it is a dominant allele, the disease can be carried through generations

Answer 27

True

Question 28

Traits of two parents “blend” together and inherited by the offspring

Answer 28

Blending theory of inheritance

Question 29

According to _______ , traits do not blend together but rather traits are inherited separately

Answer 29

Mendel

Question 30

One of his experiments involved crossing a purple flowers with white flowers (Monohybrid Cross)

Answer 30

Mendel’s experiment

Question 31

● Also known as the Gene Idea
● Inheritance involves the passing of discrete units of inheritance, or genes, from parent to offspring.

Answer 31

Particulate theory of inheritance by Mendel

Question 32

● Proposed by Walter Sutton and proved by Thomas Morgan using fruit fly
● Genes are present within chromosomes inside the cell
● Genes and chromosomes are in pairs in diploid cells

Answer 32

Chromosome theory of inheritance

Question 33

Patterns of inheritance

Answer 33

Principle of dominance, segregation and independent assortment

Question 34

● One allele masks another, one allele was dominant over the other in the F1 generation.
● Whenever a dominant allele (even if only one), is present, the dominant trait will be manifested and masked the expression of recessive allele

Answer 34

Principle of dominance

Question 35

When gametes are formed, the pairs of hereditary factors (genes) become separated, so that each sex cell (egg/sperm) receives only one kind of gene.

Answer 35

Principle of segregation

Question 36

● Genes located on different chromosomes will be inherited independently of each other.
● Both genes from your father and mother are not inherited at the same time
● Example:
○ There are 7 traits in total from your mother and
father
○ Not all of the traits will be inherited by your child
all together at once
○ There will be combinations of different traits
from your mother and father (height from mother and eye color from father)

Answer 36

Principle of independent assortment

Question 37

Mendel noted that short plants crossed to other short plants were “true-breeding,” always producing the same phenotype, in this case short plants.
● The crosses of tall plants to each other were more confusing. Some tall plants were true-breeding, but others crossed with each other yielded short plants in about one-quarter of the next generation. In some plants, tallness appeared to mask shortness.
● One trait that masks another is dominant; the masked trait is recessive.

Answer 37

On first principle law

Question 38

Some dominantly inherited diseases are said to be due to a “gain-of-function”, because they result from the action of an abnormal protein that interferes with the function of the normal protein.
● Can be best described by the Huntington Disease

Answer 38

On the Dominance Principle

Question 39

results from a gain-of-function in which the dominant mutant alleles encodes an abnormally long protein that prevents the normal protein from functioning in certain brain cells.

Answer 39

Huntington disease

Question 40

A single gene on chromosome 15,______, confers eye color by controlling melanin synthesis.

Answer 40

OCA2

Question 41

But inheritance of eye color is more complicated than this. Near the OCA2 gene on chromosome 15 is a second gene, ________, that controls expression of the OCA2 gene. A recessive allele of _______ abolishes control over OCA2, the blue eyes result. A person must inherit two copies of the recessive allele in ________ to have blue eyes.

Answer 41

HERC2

Question 42

● This is the case for sickle cell disease.
● Carriers can develop a life-threatening breakdown of
muscle if exposed to the combination of environmental heat, intense physical activity, and dehydration. Several college athletes died from these symptoms, prompting sport authorities to begin testing athletes for sickle cell disease carrier status.
● This is called sickle cell trait.

Answer 42

ON HETEROZYGOSITY IN A DOMINANT TRAIT

Question 43

You have both the sickle-shaped RBC
and normal-shaped RBC

Answer 43

Heterozygous

Question 44

An individual with two different recessive alleles for the same gene is termed a

Answer 44

Compound heterozygous

Question 45

Child has a recessive allele from each parent with the variant located at a different position within the same gene

Answer 45

Compound heterozygotr

Question 46

As molecular genomic techniques became available in the _______ & ________ , it became possible to explain a range of disorders in heterozygotes carrying one copy of one of the classic mutations for phenylketonuria.

Answer 46

1980s and 1990s

Question 47

● Because ___________ was the first genetic disorder for which mass post-natal genetic screening was available, beginning in the early 1960s, atypical cases were detected almost immediately.
● Molecular analysis of the genome was not yet possible, but protein sequencing revealed cases caused by compound heterozygosity.

Answer 47

phenylketonuria

Question 48

A metabolic disorder involving deficiency of enzymes that metabolize phenylalanine
○ If not metabolized, it may cause mental retardation
● It should be detected at young age
● Part of newborn screening test

Answer 48

Phenylketonuria

Question 49

In addition to its classic infantile form, ________ disease may present in juvenile or adult-onset forms, often as the result of compound heterozygosity between two alleles, one that causes the classic infantile disease in homozygotes and another that allows some residual HEXA enzyme activity.

Answer 49

Tay Sachs

Question 50

an individual with one allele for hemoglobin S and one allele for hemoglobin C would still develop the disease, despite being heterozygous for both genes.

Answer 50

sickle cell anemia

Question 51

result from inheritance of the ____________ gene in a compound heterozygous manner with other mutant beta globin genes.

Answer 51

sickle cell syndrome

Question 52

said to arise from a “loss-of-function” because it usually prevents the production or activity of the normal protein

Answer 52

ON THE RECESSIVENESS PRINCIPLE

Question 53

The basis of an inborn error of metabolism is easy to picture. These diseases are typically recessive because the half-normal amount of the enzyme that a carrier produces is usually sufficient to maintain health.

tend to be more severe, and produce symptoms earlier.

Most autosomal _______ conditions appear unexpectedly in families, because they are transmitted silently, through heterozygotes (carriers).

Marriage between relatives introduces consanguinity, which means “shared blood”—a figurative description, because genes are not passed in blood. Alleles inherited from shared ancestors are said to be “identical by descent.”

Answer 53

ON THE RECESSIVENESS PRINCIPLE

Question 54

Males and females affected, with equal frequency

Successive generations affected until no one inherits the mutation

Affected individual has an affected parent, unless he or she has a de novo mutation

De novo mutation

Answer 54

Autosomal dominant

Question 55

Males and females affected, with equal frequency

Can skip generations

The trait is not manifested unless the alleles are homozygous

Affected individual has parents who are affected or are carriers (heterozygotes)

Answer 55

Autosomal recessive

Question 56

If inherited mutant alleles from both parents, a _______ allele will manifest

Answer 56

recessive

Question 57

An individual with two different alleles is __________—what Mendel called “non-true-breeding” or “hybrid.”

Answer 57

heterozygous

Question 58

Mendel’s first law

Answer 58

Law of segregation

Question 59

reflects the actions of chromosomes and the genes they carry during meiosis. Because a gene is a long sequence of DNA, it can vary in many ways.

Answer 59

Law of segregation

Question 60

Mendel’s 2nd law

Answer 60

law of independent assortment

Question 61

for two genes on different chromosomes, the inheritance of one gene does not influence the chance of inheriting the other gene. The two genes are said to “independently assort” because they are packaged into gametes at random.

Two genes that are far apart on the same chromosome (see discussion on linkage) also appear to independently assort, because so many crossovers take place between them that it is as if they are part of separate chromosomes

Answer 61

law of independent assortment

Question 62

Principle 1 - Test cross/Pedigree analysis Law 1 (Law of Segregation) - Punett square; Single test cross/monohybrid
Law 2 (Law of Independent Assortment)- Dihybrid Cross

Answer 62

True

Question 63

A useful tool to do genetic crosses
Looks like a windowpane
Used to determine the probability of outcome of offspring

Answer 63

Punnett square

Question 64

a lethal genetic disease affecting Caucasians.
● Caused by mutant recessive gene carried by 1 in 20 people of European descent
○ To be manifested = Homozygous recessive allele

Answer 64

Cystic fibrosis

Question 65

disease affects transport in tissues – mucus is accumulated in lungs, causing infections.

Answer 65

Cystic fibrosis

Question 66

A fatal genetic disorder that causes the progressive breakdown of nerve cells in the brain

Answer 66

HD

Question 67

Mating that involve parents that differ in two genes (two independent traits)

Answer 67

Dihybrid cross

Question 68

When you have an individual with an unknown genotype, you do a

Answer 68

test cross.

Question 69

Cross with a homozygous recessive individual

Answer 69

Test cross

Question 70

genes close on a chromosome are packaged into the same gametes and are said to be

Answer 70

linked or linkage

Question 71

● _______ in genetics refers to the transmission of genes on the same chromosome.
● _______ genes do not assort independently and do not produce Mendelian ratios for crosses tracking two or more genes.

Answer 71

Linkage

Question 72

○ He observed that the Drosophila’s fly does not
follow Mendelian inheritance
○ He identified more than 50 genes on Drosophila’s 4 pairs of chromosomes.
○ He discovered that many seemed to be “linked” together

Answer 72

Thomas Morgan’s Research

Question 73

map based on the frequencies of recombination between markers during crossover of homologous chromosome. A map of the genes on a chromosome based on linkage analysis. map does not show the physical distances between genes but rather their relative position, as determined by how after two Gene loci are inherited together.

Answer 73

Linkage map

Question 74

Linkage maps were first developed by, a student of Thomas Hunt Morgan.

Answer 74

Alfred Sturtevant

Question 75

LD blocks, called ________, could be used to track genes in populations

Answer 75

haplotypes

Question 76

a combination of alleles at multiple linked loci that are transmitted together.

Answer 76

Haplotype

Question 77

The X-linked recessive trait (recessive allele), the blood clotting disease __________ is also known as Christmas disease and factor IX (“FIX”) deficiency.

Answer 77

hemophilia B

Question 78

● Rare neurodevelopmental disorder
● Progressive, not degenerative
● Typical child with this syndrome cannot speak, use her
hands, walk, eat, or breath easily.
● Longevity well into adulthood
● No FDA approved treatments.

Answer 78

‘Retr syndrome

Question 79

affects a structure or function of the body that is present in only males or only females. The gene for such a trait may be autosomal (eg. lactation)

Answer 79

Sex-limited trait

Question 80

due to genes on autosomes, and the expression of these traits are limited so that normally only one sex is affected.

Answer 80

Sex-limited trait

Question 81

An example of sex-limited trait, is a sudden rise in blood pressure late in pregnancy. It kills 50,000 women worldwide each year. A study of 1.7 million pregnancies in Norway found that if a man’s first wife had preeclampsia, his second wife had double the risk of developing it

Answer 81

Preeclampsia

Question 82

are autosomal traits that are influenced by sex. If a male has one recessive allele, he will show that trait, but it will take two recessive alleles for the female to show that same trait. One such gene is baldness

Answer 82

Sex-influenced trait

Question 83

A genotype (allele combination) that causes death is, by strict definition,

Answer 83

Lethal

Question 84

is lethal by age 3 or 4

Answer 84

Tay sachs

Question 85

achondroplastic dwarfism

Answer 85

Lethal

Question 86

Type of relationship between alleles, with a heterozygote phenotype intermediate between the two homozygote phenotypes.

Enzyme deficiencies in which a threshold level is necessary for health illustrate both complete and incomplete dominance.

Answer 86

Incomplete dominance

Question 87

An example of incomplete dominance that can be observed in carriers on both the molecular and whole-body levels.

Answer 87

FAMILIAL HYPERCHOLESTEROLEMIA (FH)

Question 88

Different alleles that are both expressed in heterozygote are

Answer 88

Co-dominant

Question 89

Mendel’s laws can appear not to operate when one gene masks or otherwise affects the phenotype of another.

Answer 89

Epistasis

Question 90

It results from an interaction between a gene called H and the I gene that confers ABO blood type.

Answer 90

Bombay phenotype under epistasis

Question 91

A single-gene disease with many symptoms, or a gene that controls several functions or has more than one effect

Answer 91

Pleiotropy

Question 92

The most common form of this autosomal dominant condition is a defect in an elastic connective tissue protein called fibrillin.

Answer 92

Marfan syndrome

Question 93

Mutations in different genes that produce the same phenotype lie behind________________. It can occur when genes encode enzymes or other proteins that are part of the same biochemical pathway, or when proteins affect the same body part

Answer 93

genetic heterogeneity.

Question 94

Abnormal collagen causes fragile bones.

Answer 94

Osteogenesis

Question 95

● An environmentally caused trait that appears to be inherited is a phenocopy.
● Such a trait can either produce symptoms that resemble those of a known single-gene disease or mimic inheritance patterns by affecting certain relatives.

Answer 95

Phenocopies

Question 96

● Homeotic genes regulate organ development
● Homeobox genes code for transcription factors
● Hox genes determine the identities of each body segment
● Homeobox genes in humans

Answer 96

True

Question 97

refers to the inheritance of a trait governed by more than one genes.
● Generally, three or more genes govern the inheritance of polygenic traits. Multiple independent genes have an additive or similar effect on a single quantitative trait.

Answer 97

POLYGENIC TRAITS