Genetics

Question 1

What percent go the human genome in genes?

Answer 1

2-3%

Question 2

Genotyope

Answer 2

Genes you have

Question 3

Phenotype

Answer 3

the manifestation of the genotype

Question 4

What damage can occur during DNA replication

Answer 4

DNA strands can ,break, chemical cross linking or mismatched bases

Question 5

What is a chromosome made up of

Answer 5

DNA that is wrapped round proteins called histones and packaged into a chromosome.

Question 6

Where is the information held in DNA

Answer 6

it’s held in the sequence of bases which are held on a sugar phosphate backbone

Question 7

What occurs during cell cycle

Answer 7

G0 is the rest phase where the cell is a cell, G1 is where it begins to grow, S is where it synthesises another strand of DNA (DNA replication), G2 is another growth phase and M is where Mitosis occurs.

Question 8

What occurs during DNA replication?

Answer 8

DNA is unzipped, on one strand DNA replicates in a straight line from its own 5’ to 3’, on the other strand it has to replicate in fragments

Question 9

What occurs if the DNA repair mechanisms break?

Answer 9

it can cause disease

Question 10

Mitosis

Answer 10

one parent diploid cell becomes two identical diploid daughter cells

Question 11

Meiosis

Answer 11

One diploid parent cell becomes four haploid daughter cells

Question 12

What is different about meiosis than mitosis

Answer 12

• crossing over occurs
• occurs in gamete formation
• diploid cell becomes four haploid cells

Question 13

How is RNA different than DNA?

Answer 13

• single stranded
• ribose in backbone not deoxyribose
• uracil is used instead of thymine

Question 14

Amount of protein produced is determined by

Answer 14

rate of transcription, rate of splicing mRNA, half life of mRNA, rate of processing polypeptide

Question 15

briefly describe how is a gene turned into a protein

Answer 15

DNA is transcribed and spliced into mature mRNA and then it is translated into a protein

Question 16

Promotor

Answer 16

identify translation start sites on mRNA

Question 17

Start codon

Answer 17

regions of DNA where translation starts

Question 18

stop codon

Answer 18

signal the end of polypeptide chain during translation

Question 19

Stop codon bases

Answer 19

UAG, UAA, UGA

Question 20

Start codon bases

Answer 20

AUG

Question 21

Polymorphism

Answer 21

any variation in the human genome that has a population frequency of 1% or any variation in the human genome that does not cause disease

Question 22

Mutation

Answer 22

A change that causes a genetic disorder or any heritable change in the human genome

Question 23

How is a chromosome identified?

Answer 23

by its banding pattern, length and position of centromere

Question 24

How many chromosomes do we have

Answer 24

46

Question 25

What does the karyotype include?

Answer 25

number of chromosomes and sex chromosome complement

Question 26

What do the lighter parts of the chromosome suggest?

Answer 26

they have more genes and are more transcriptionally active

Question 27

Why do chromosomes look stripy?

Answer 27

they are looked at during metaphase

Question 28

What does balanced chromosomal rearrangement mean?

Answer 28

all chromosomal material is present

Question 29

What does unbalanced chromosomal rearrangement mean?

Answer 29

extra or missing chromosomal material, usually either 1 or 3 copies of some of the genome which can lead to disease

Question 30

Aneuploidy

Answer 30

extra or missing chromosome

Question 31

Translocation

Answer 31

rearrangement of chromosomes

Question 32

Insertions and deletions

Answer 32

missing or duplicate material

Question 33

Microdeletions

Answer 33

small parts of genetic material that are too small to be seen down a microscope

Question 34

Name the parts of a chromosome

Answer 34

Telomere (top) Short arm (top arm) centromere (middle) long arm (bottom arm) telomere (bottom arm)

Question 35

Acrocentric

Answer 35

the short arm of the chromosome doesn’t matter

Question 36

What does having missing bits of a chromosome lead to

Answer 36

human disease

Question 37

Trisomy 21

Answer 37

downsyndrome, caused by extra chromosome on chromosome 21 (47XY + 21)

Question 38

Robertsonian Translocation

Answer 38

two acrocentric chromosomes stuck end to end

Question 39

What does robertsonian translocation do?

Answer 39

increases risk of trisomy 21 in pregnancy.

Question 40

why is X chromosome aneuploidy better tolerated?

Answer 40

because of x inactivation

Question 41

reciprocal translocation productive risks

Answer 41

miscarriage (large segments), dysmorphic delayed Childs (small segments)

Question 42

What does FISH allow you to do?

Answer 42

choose one chromosome segment and light it up with fluorescent dye

Question 43

When is FISH useful

Answer 43

as some defects in chromosomes are so small that FISH has to be used, used widely in molecular analysis of cancers

Question 44

What is array CGH

Answer 44

first line chromosome testing kit, it is genome wide and finds lots of polymorphisms but it’s technique is ‘DNA based’ and so reflects on underlying chromosomes.

Question 45

Where does mutation come from

Answer 45

new mutations can happen in gametogenesis

Question 46

Mosaicism

Answer 46

when a person has multiple genetically different cells

Question 47

Somatic Mosaicism

Answer 47

genetic variation within the body of an individual

Question 48

Why is every cell a mosaicism

Answer 48

because all cells suffer mutations as they divide

Question 49

What can chromosome change lead to ?

Answer 49

activation of an oncogene (a gene that has the potential to cause cancer) or deletion of a tumour suppressor

Question 50

HER2 gene

Answer 50

growth gene, found in breast cancer

Question 51

Why is it important to identify chromosome change?

Answer 51

specific chromosome change can indicate treatment in cancer

Question 52

ACGH

Answer 52

is used to analyse DNA, used for deletions, duplications for imbalance.

Question 53

PCR

Answer 53

allows us to select one small piece of human genome from a patient and amplify it

Question 54

disadvantage of PCR

Answer 54

can only sequence a bit of DNA at a time

Question 55

Whats better than PCR?

Answer 55

Next generation sequencing

Question 56

What does NGS allow

Answer 56

large scale sequencing, can sequence all exons or whole genome cheaply

Question 57

Mutation

Answer 57

a genetic variation that causes disease

Question 58

Polymorphism

Answer 58

a genetic variation that is prevalent in the population and not disease causing

Question 59

promotor mutation

Answer 59

no or reduced transcription, no or reduced protein

Question 60

what does altering splice consensus lead to

Answer 60

mRNA decay, abnormal or absent proteins

Question 61

What does a base change that leads to a new stop codon lead to?

Answer 61

mRNA decay, short or absent proteins

Question 62

What happens if a base change alters the amino acid sequence?

Answer 62

Different or non functioning protein

Question 63

Missense

Answer 63

a base is replaced

Question 64

Insertion

Answer 64

a base is inserted

Question 65

Deletion (out of frame)

Answer 65

an amino acid is deleted, completely non functioning

Question 66

deletion (in frame)

Answer 66

shorter than normal protein but still functioning

Question 67

triplet expansion

Answer 67

one, three base codon repeats itself leaving you with multiple copies of amino acid

Question 68

What his considered a normal sequence?

Answer 68

The most common sequence in USA

Question 69

Wild Type

Answer 69

most common sequence

Question 70

c.

Answer 70

change in mRNA sequence

Question 71

p.

Answer 71

change in peptide sequence

Question 72

Del

Answer 72

deletion

Question 73

Ter/ *

Answer 73

stop and for peptide may be a nonsense

Question 74

Ins

Answer 74

insertion

Question 75

Val

Answer 75

Missense

Question 76

Fs

Answer 76

frameshift

Question 77

what do promoter and splice site sequence change do?

Answer 77

stop transcription or cause abnormal splicing

Question 78

What does a base change causing an amino acid change do?

Answer 78

change in protein sequence, not every base change causes disease, this may or may not reduce protein function, some missense mutations make proteins work faster.

Question 79

Trinucleotide repeat expansion

Answer 79

replicate of trinulcleotide

Question 80

Advantages and disadvantages of next generation sequencing

Answer 80

advantages, higher sensitivity and cheaper disadvantages , don’t know what the genetic change actually is, it may be a disease causing mutation, a polymorphism or a variant of unknown significance

Question 81

How to tell if it’s a polymorphism or disease causing mutation

Answer 81

does it match expected inheritance, is it in the right gene, has it been reported before and what does it do to the protein.

Question 82

How many chromosomes do you have in each cell?

Answer 82

22 pairs of chromosomes and the sex chromosomes

Question 83

difference between mosaicism and somatic mosaicism

Answer 83

somatic mosaicism can be present in gonadal cells

Question 84

What things may a variant may be?

Answer 84

a disease causing variant, a variant of uncertain significance and polymorphism

Question 85

What’s the variant classification

Answer 85

Class 1 is definitely a polymorphism, class 2 is probably s polymorphism, class 3 is unclassifiable, class 4 probably pathogenic and class 5 is definitely pathogenic

Question 86

Penetrance

Answer 86

the likelihood of having a disease if you have a gene mutation

Question 87

Mendelian disorders

Answer 87

a disease that is predominantly caused by a change in a single gene

Question 88

What characteristic of a cancer cell is central allowing it to acquire further new characteristics?

Answer 88

Genomic instability