Patterns of Inheritance

Question 1

what is locus

Answer 1

specific location of a gene or DNA sequence on a chromosome

Question 2

homozygous

Answer 2

carrying identical alleles for 1 or more genes

Question 3

heterozygous

Answer 3

carrying 2 different alleles for 1 or more genes

Question 4

what is heterogeneity and examples

Answer 4

many different genes that lead to the same phenotype
ex: hearing loss
blood clotthing disorders
blindness

Question 5

the address of a gene on a chromosome

Answer 5

locus

Question 6

short arm of chromosome

Answer 6

p

Question 7

long arm of chromosome

Answer 7

q

Question 8

what is a region on chromosome

Answer 8

each arm is subdivided into numbered regions
begin from centromere

Question 9

what is a band on chromosome

Answer 9

in each region identified by numbers

Question 10

how do you read 1q2.4

Answer 10

chromosome 1, long arm q, region 2, band 4

Question 11

same chromosomes are

Answer 11

homologous

Question 12

homozygous

Answer 12

means you inherited two identical versions of a particular gene

Question 13

heterozygous

Answer 13

alleles are different

Question 14

people who have recessive traits (blue eyes, red hair, etc.) are always ___ for that gene

Answer 14

homozygous

Question 15

refers to a degree of correspondence or similarity

Answer 15

homologous

Question 16

refers to an organism in which both copies of a given gene have the same allele.

Answer 16

homozygous

Question 17

Different gene from each parent on each chromosome

Answer 17

heterozygous

Question 18

ploidy

Answer 18

number

Question 19

what is a diploid cell

Answer 19

Double the number of chromosomes found in a mature germ cell, which is a haploid cell (23 chromosomes)
Human somatic cells are diploid cells with 23 pairs of chromosomes (46 individual chromosomes)
44 somatic and two germ chromosomes (XX or XY)

Question 20

germ cells

Answer 20

egg and sperm
haploid cells with half the number of chromosomes as the somatic cells

Question 21

where do we see aneuploidy

Answer 21

in somatic cellsw

Question 22

what is aneuploidy

Answer 22

abnormal number or shape

Question 23

how does aneuploidy occur

Answer 23

during cell division when chromosomes don’t separate equally bw 2 daughter cells

Question 24

when do we see a chromosomal abnormality that results in genetic disorders

Answer 24

due to missing or extra chromosomes

Question 25

what are 3 results that can be seen with aneuploidy

Answer 25

Monosomic condition (only one copy of a chromosome is present instead of two; 2n - 1)
Trisomic condition (one extra copy of a chromosome; 2n + 1)
Nullisomic condition (no chromosome of that chromosome pair is present; 2n -2) - generally a lethal condition

Question 26

what is a monosomic condition

Answer 26

only one copy of chromosome present instead of two
2n-1

Question 27

what is trisomic condition

Answer 27

one extra copy of chromosome
2n+1

Question 28

what is nullisomic condition

Answer 28

no chromosome of that chromosome pair present
2n-2
usually lethal

Question 29

what are the most common aneuploidy

Answer 29

trisomy 21, 18, 13

Question 30

what is a knockout mouse and what is it used for

Answer 30

genetically engineered mouse with specific gene(s) artificially deleted or inactivated from its genome
Knock out mice have been used to study many human diseases including cancer and hearing loss

Question 31

what is cellular homeostasis

Answer 31

tendency of an organism/cell to regulate its internal conditions, such as the chemical composition of its body fluids, so as to maintain health and functioning, regardless of external conditions

Question 32

what is a phenocopy

Answer 32

environmentally caused trait that mimics a genetically determined trait
mimics a genetically disorder but is not genetically transferred

Question 33

what are examples of phenocopy

Answer 33

Thalidomide exposure
a phenocopy of phocomelia

Hair loss from chemotherapy
phenocopy of the genetic disorder alopecia

Question 34

what is pleiotropy

Answer 34

diverse effects of one gene or gene pair on several organ systems and functions resulting in multiple phenotypic effects in the body

Question 35

what is marfan’s syndrome

Answer 35

autosomal dom genetic disorder of connective tissue
ex of pleiotropy

Question 36

symptoms of marfan’s

Answer 36

tall, thin, long fingers, heart problems, dislocated lenses of the eyes, speech disorders

Question 37

how do we classify genetic disorders

Answer 37

chromosomal abnormalities (number, structure)
by single gene defect (autosomal dominant, recessive, x linked dom and recessive and y linked)
mitochondrial genetic defect
multifactorial/polygenic defects
environmental influences

Question 38

how are human chromosomes grouped

Answer 38

size/centromere location

Question 39

size of chromosomes goes

Answer 39

largest to smallest

Question 40

subcentric/submetacentric

Answer 40

chrom p & q arms lengths are unequal

Question 41

metacentric

Answer 41

2 arms of chrom roughly equal in length

Question 42

acrocentric

Answer 42

p arm so short it is hard to observe
these are 13, 14, 21, 22, and Y

Question 43

what chrom are acrocentric

Answer 43

13, 14, 21, 22, Y

Question 44

telocentric

Answer 44

centromere @ end of chrom
not in humans

Question 45

holocentric

Answer 45

entire length of chrom is centromere
in nematodes (worms) not humans

Question 46

when should chromosomal studies be performed

Answer 46

individuals iwth multiple malformations or unknown overall diagnosis

Question 47

an individual with only ____ anomalies is unlikely to have a chromosomal abnoramlity

Answer 47

2

Question 48

chromosomal abnormalities have adverse effects on _____ parts/structures of the body

Answer 48

many

Question 49

who would be a candidate for chromosomal abnormalities

Answer 49

pre or post natal onset growth deficiencies and intellectual disabilities

Question 50

Would individuals with normal growth patterns, psychomotor development, and intelligence be candidates for chromosomal abnormalities

Answer 50

nO

Question 51

what is mendelian/monogenetic inheritance

Answer 51

inheritance of conditions caused by mutation to a SINGLE gene

Question 52

what is the first law of mendelian called

Answer 52

law of segregation

Question 53

what is the general phenotype of people with chrom abnorm?

Answer 53

more than 2 systems involved and intellectual disabilities and abnormal growth patters

Question 54

what proteins coded by genes are involved in function in the ear and HL

Answer 54

Cochlear fluid homeostasis
Ionic channels
Stereocilia morphology and function
Synaptic transmission (inner ear to CN8)
Gene regulation

Question 55

one gene in a gene pair is mutated

Answer 55

autosomal dominant

Question 56

who can pass on a AD gene

Answer 56

either mom or dad, whoever has the phenotype

Question 57

vertical transmission

Answer 57

AD

Question 58

What is meant by vertical transmission

Answer 58

each generation has a mutation

Question 59

which trait is the easiest to detect

Answer 59

AD

Question 60

affected individuals of AD are

Answer 60

heterozygotes

Question 61

what are characteristics of AD

Answer 61

Vertical transmission
50% risk to offspring per pregnancy
Unaffected individuals cannot transmit the disease
Males and females equally affected
Variable expressivity and penetrance

Question 62

why is AD 50% chance?

Answer 62

father and mom can only pass down one gene out of two , so they have a 50% chance so there is only 4 genes and 1
each of the 4 offspring had a 50% of getting the disease

Question 63

what is meant by 50% risk in AD?

Answer 63

50% risk of passing it on to EACH person

Question 64

what is meant by expressivity

Answer 64

severity of the condition in that affected individual

Question 65

what is penetrance

Answer 65

frequency of occurance
usually a percentage

Question 66

either you show it or you do not

Answer 66

penetrance

Question 67

will show but in varying forms of severity

Answer 67

expressivity

Question 68

What are characteristics of AD traits

Answer 68

Only one copy of the gene is needed to produce the phenotype; affected individuals are heterozygotes

Chance of occurrence per pregnancy is ½ (50%)

Vertical family pattern

Persons with the trait have a parent with the trait unless they represent a spontaneous mutation

If the line is broken it stays broken

Incomplete penetrance

Variable expressivity

Male : female = 1:1

Question 69

what is an example of a variable expression of phenotype

Answer 69

waardenburg syndrome

Question 70

Two identical copies of the gene are required

Answer 70

autosomal recessive

Question 71

25% chance of occurrence per pregnancy

Answer 71

AR

Question 72

which inheritance do we see carriers

Answer 72

AR

Question 73

where is consanguinity common

Answer 73

AR

Question 74

what pattern do we see in AR

Answer 74

horizontal

Question 75

what is the Founder effect?

Answer 75

they have the same ancestor and mate within their community and a lot of the individuals carry the recessive trait

Shared genetic ancestry/limited gene pool resulting in genetic conditions seen far more commonly in certain ethnic groups

Question 76

give an example of a founder’s effect

Answer 76

Tay Sach’s disesase, a lethal neurodegenerative disease see approx 1:31 for the general population vs Ashkenazi Jews

Question 77

what are characteristics of ARtraits

Answer 77

Two copies of the gene are required – homozygous offspring

Chance of recurrence ¼ (25%)

Carrier (heterozygous) parents

Horizontal family pattern

Either the male or female partner can transmit the trait

Male : Female 1:1

Question 78

what is an obligate carrier

Answer 78

both parents have to be carriers in order for the offspring to inherit the trait

Question 79

Mates related to each other by blood

Answer 79

consanguinity

Question 80

what is a pseudo dominance

Answer 80

A situation in which inheritance of an autosomal recessive trait mimics an autosomal dominant pattern; one recessive allele could cause expression of the trait
only in x linked inheritance of male because a male has an x and a y so if they get one bad x, there is no other x so it acts like a dominant trait

Question 81

where would we see pseudo dominance

Answer 81

in the case of x linked recessive inheritance in male offspring
hemophilia and color blindness

Question 82

when do we see x linked recessive

Answer 82

if the females are carriers with no sign of disease

Question 83

when would we see x linked dominant

Answer 83

if females manifest some signs of the disorder

Question 84

Traits controlled by genes on the X chromosome are defined as dominant or recessive by

Answer 84

the phenotype of the females

Question 85

who is more affecteed by x linked disorders

Answer 85

males

Question 86

affected males of x linked can only have

Answer 86

carrier daughters if recessive

Question 87

when will males transmit x linked trait to daughters

Answer 87

if it is dominant

Question 88

is there male to male transmission in x linked traits and why

Answer 88

NO they can only give a y

Question 89

Men are _____ for all genes on the X chromosome

Answer 89

hemizygous

Question 90

why are men hemizygous for all genes on x

Answer 90

because they have different chromosomes
neither hetero or homo for x chromosome

Question 91

why does a gene error on x cause a disease in men

Answer 91

Because there is no corresponding paired X chromosome with a good gene to balance the bad gene making males affected - psuedo-dominance

Question 92

why are females. only carriers in x linked recessive

Answer 92

corresponding paired X chromosome with a good gene to balance the bad gene, makes females only carriers

Question 93

how many copies of a gene is needed to produce the phenotype in AD

Answer 93

one

Question 94

affected individuals in AD are

Answer 94

heterozygotes

Question 95

what is the chance of occurrence per pregnancy in AD

Answer 95

50%

Question 96

what is expressivity in AD

Answer 96

variable

Question 97

what is expressivity? what is penetrance?

Answer 97

Exp: Series of signs and symptoms that can occur in different people with the same genetic condition
Determines how much the trait affects or how many features of the trait appear in the person

Pene: Complete or incomplete
Proportion of people with a specific genotype who manifest the phenotype

Question 98

what is an example of AR

Answer 98

cystic fibrosis

Question 99

what is non complementary AR mating

Answer 99

both parents have the same alleles and same recessive form (deafness for ex) so all of their children will have that trait (like deafness)
each offspring has 100% chance of being affected

Question 100

what is hemizygous? give an example

Answer 100

only one copy of a gene rather than the usual two
males because they have XY

Question 101

what is multifactorial

Answer 101

traits resulting from the interplay of multiple environmental factors with multiple genes
most commonly associated with sporadic gene mutations

Question 102

what is an example of multifactorial inheritance

Answer 102

oculo auricular vertebral spectrum disorder

Question 103

what is an obligate carrier?

Answer 103

parents of children with the recessive disorder phenotype
parents are normal but carry one mutant gene with offspring that show the phenotype

Question 104

what is a carrier

Answer 104

anyone else in a family who has one mutant gene

Question 105

How is an obligate carrier and carrier represented in a pedigree

Answer 105

either filled in half or with a dot in the middle

Question 106

what does heterozygotes for an autosomal trait mean

Answer 106

they are carriers but do not express the phenotype of the disorder

Question 107

what is another name for mitochondrial transmission

Answer 107

the eve gene

Question 108

why are mitochondrial traits inherited from mothers only

Answer 108

Because sperms shed their cytoplasm during fertilization they do not contribute mitochondria to the offspring only the mothers do

Question 109

who are at risk of mitochondrial disorders

Answer 109

all children of mothers affected are affected
100% transmission

Question 110

will children of fathers with a mitochondrial trait inherit it

Answer 110

no

Question 111

what are examples of mitochondrial disorders

Answer 111

predisposition to deafness from increased susceptibility to aminoglycoside ototoxicity

Question 112

can aminoglycoside be inherited

Answer 112

YES

Question 113

What are the two main traits of mitochondrial disorders

Answer 113

only passed on from the mom (eve gene)
every offspring, both genders, has 100% chance of being affected

Question 114

what is genomic imprinting

Answer 114

process which a phenotype is different depending on which parent transmits the allele

Question 115

give examples of genomic imprinting

Answer 115

prader willi syndrome (paternal)
angelman syndrome (maternal)

Question 116

what is prader willi syndrome

Answer 116

a genomic imprinting syndrome
from deletion of chrom 15 inherited from DAD
intellectual disabilities, obesity and uncontrollable eating, orthopedic issues in later life, doesn’t enter puberty and cannot reproduce

Question 117

what is angelman syndrome

Answer 117

a genomic imprinting syndrome
from deletion of chrom 15 inherited fromMOM
intellectual disability, developmental delay, uncontrollable and excessive laughing, gait ataxia, seizures

Question 118

what is anticipation

Answer 118

worsening of symptoms of a genetic disease from one generation to the next

Question 119

what is allelic expansion

Answer 119

an increase in gene size

Question 120

what causes allelic expansion

Answer 120

increase in the number of trinucleotide base sequences

Question 121

Increasing bases to increase the gene size

Answer 121

allelic expansion

Question 122

give an example of allelic expansion

Answer 122

myotonic dystrophy

Question 123

what is myotonic dystrophy

Answer 123

muscle disease featuring an inability to relax muscles at will
autosomal dominant
vertical transmission scene with differing severity (generation 10 would be more severe than generation 1)

Question 124

clinical signs of myotonic dystrophy

Answer 124

drooping eyelids
facial weakness
mild to severe muscle weakness

Question 125

what is huntingdon’s disease

Answer 125

autosomal dominant
seen in ash jewish community the most
50% chance of inheritance

Question 126

clinical signs of huntingdon’s disease

Answer 126

adult onset
loss of muscle coordination and control
deterioration of intellectual function
generally early death

Question 127

what is fragile x syndrome

Answer 127

x linked dom pattern (varying expressivity)
tip of x chromosome has a fragile site

Question 128

are both males and females affected by fragile x

Answer 128

yes, but males have more severe symptoms than females

Question 129

clinical signs of fragile x

Answer 129

intellectual disability
delayed development of S/L
may have ADHD
long jaw, big head, large ears

Question 130

what is the most common form of inherited intellectual disability in boys

Answer 130

fragile x

Question 131

what is a silent mutation

Answer 131

a mutation but still get the end result we want (same protein)

Question 132

what is nonsense mutation

Answer 132

causes it to make a stop protein and truncated proteins

Question 133

what is a non conservative mutation

Answer 133

Have a mutation and end with a different protein product that is too different and cannot have the same function the protein was supposed to do
Could be conditional lethal

Question 134

what is conservative mutation

Answer 134

Have a mutation and end with a different protein product but still gets the job done
Usually no phenotypic change

Question 135

what are examples of point mutations

Answer 135

silent, nonsense missense

Question 136

what are missense mutations

Answer 136

conservative and nonconservative

Question 137

what is the difference between pleiotropy and chromosomal disorders

Answer 137

Pleiotropy is the diverse effects of one gene or gene pair on several organ systems and functions resulting in multiple phenotypic effects in the body
whereas C.D. are multiple genes or chromosomes that affect multiple systems and have adverse effects on many systems/structures and most people have intellectual disabilities and abnormal growth patterns