Module 2 - Genetic techniques

Question 1

How can knowing about the DNA sequence/structure help us?

Answer 1

Used for

• producing drugs, vaccines
• identifying if you have a genetic disease
• helping to cure genetic disease
• forensics
• genetic screening and DNA testing
• genetic counselling
• Research

Question 2

PCR

Answer 2

Polymerase Chain Reaction

Question 3

PCR Allows specific region of DNA to be —————- exponentially from minute quantity templates

Answer 3

Amplified

Question 4

PCR Offers alternative approach to —- ——- for the production of many copies of identical sequence of DNA

Answer 4

Gene cloning

Question 5

IN PCR starting material may be genomic —, —, ————– ————- DNA, ——– DNA or ————- —————

Answer 5

DNA
RNA
Archival specimen
Cloned
Forensic samples

Question 6

enzymes which can make DNA from dNTPs provided a template or primer is available to start the process

Answer 6

Polymerase

Question 7

First step in PCR

Answer 7

denaturation of double strand of DNA

Question 8

Second step in PCR

Answer 8

annealing of primers

Question 9

Third step in PCR

Answer 9

elongation of strands

Question 10

cDNA

Answer 10

Copy of DNA

Question 11

Denaturation of dsDNA - typically temp used is ————— for human genomic DNA.

Answer 11

93-95 degrees C

Question 12

Annealing - temp ————-, depending on melting temperature of the expected duplex.

Answer 12

40-70 degrees C

Question 13

DNA Synthesis - generally ———–: use the optimum temperature for the polymerase being used.

Answer 13

70-75 degrees C

Question 14

Product size = Length of ————–/—————/left ————– + Length of ———–/———————–/right —————- + —————- to be amplified

Answer 14

Forward, upstream, primer
Reverse, downstream, primer
Region

Question 15

PCR:
DNA is ————–
————Attach to each strand
A new DNA strand is ——————– ————- primers on each template strand

Answer 15

denatured
Primers
Synthesised
Behind

Question 16

Continued rounds of —————–swiftly produce large numbers of identical fragments

Answer 16

Amplification

Question 17

Applications of PCR: D———— and S————- of genetic diseases and cancer

Answer 17

Diagnosis; Screening

Question 18

Applications of PCR: Rapid detection of slowly growing ————————-

Answer 18

Microorganisms

Question 19

Applications of PCR: — typing in T———————–

Answer 19

HLA; transplantation

Question 20

Applications of PCR: Analysis of DNA in A———– M————-

Answer 20

Archival material

Question 21

Applications of PCR: DNA F——————— in forensic science

Answer 21

Fingerprinting

Question 22

Applications of PCR: Preparation of nucleic acid P————-

Answer 22

Probes

Question 23

Applications of PCR: ———— screening, mapping and subcloning

Answer 23

Clone

Question 24

detection of mRNA expression levels

Answer 24

RT-PCR

Question 25

RT-PCR traditionally involves —– steps

Answer 25

two

Question 26

Step 1. the —— reaction and ———– amplification. RNA is first reverse transcribed into ——— using a reverse ———————

Answer 26

RT; PCR; cDNA; transcriptase

Question 27

Step 2. the resulting —– is used as templates for subsequent ————- using ———— specific for one or more genes.

Answer 27

cDNA; PCR amplification; primers

Question 28

Genetic Techniques 1

Answer 28

Diagnostic PCR- template DNA

Question 29

Genetic Techniques 2

Answer 29

RT-PCR – template RNA, can be diagnostic

Question 30

Genetic Techniques 3

Answer 30

DNA sequencing

Question 31

Process of manipulating genes, usually outside the organisms normal reproductive process.

Answer 31

Genetic engineering

Question 32

Genetic engineering Usually involves ———–, ——————– and —————— of DNA into cells or model organisms usually to express a —————

Answer 32

isolation; manipulation; reintroduction; protein

Question 33

Genetic Engineering Techniques: 3 examples

Answer 33

Recombinant DNA,
cloning
gene therapy

Question 34

What two things are genetic engineering techniques used for?

Answer 34

production of drugs, vaccines, treatment strategies

research e.g. investigating mechanisms of disease

Question 35

Recombinant DNA technology: Basic procedure 1: DNA ———– from cells or tissues

Answer 35

purified

Question 36

Recombinant DNA technology: Basic procedure 2: ———— —————- used to generate specific DNA fragments, recognise and cut DNA at specific sequence

Answer 36

Restriction enzymes

Question 37

Recombinant DNA technology: Basic procedure 3: Fragments join to other DNA molecules which act as ————- (carrier molecules), —————- + DNA fragment= ————— DNA molecule

Answer 37

vectors; vector; recombinant

Question 38

Recombinant DNA technology: Basic procedure 4: Recombinant DNA molecule transferred to ——- ———

Answer 38

host cell

Question 39

Recombinant DNA technology: Basic procedure 5: Within host cell recombinant ————— producing dozens of identical copies

Answer 39

replicates

Question 40

Recombinant DNA -As host replicates, recombinant molecule passed to all ————– creating population of cells each carrying cloned DNA sequence

Answer 40

progeny

Question 41

Recombinant DNA technology: Basic procedure 7: Cloned DNA can be recovered from host cells, ———– and —————

Answer 41

purified; analysed

Question 42

Recombinant DNA technology: Basic procedure 8: Cloned DNA in host cells is ——————, its mRNA —————-, gene product ————- and used or sold

Answer 42

transcribed; translated; isolated

Question 43

First genetically engineered drug =

Answer 43

human insulin (1982)

Question 44

First genetically engineered vaccine =

Answer 44

hepatitis B (1986)

Question 45

the creation of an exact genetic replica of a small segment of DNA, a cell or a whole organism

Answer 45

Reproductive cloning

Question 46

stem cells

Answer 46

Therapeutic cloning

Question 47

Cloning = —————- ————- cell + egg cell with ————— removed

Answer 47

Somatic body; Nucleus

Question 48

Nucleus of somatic body cell fused with denucelated egg cell

Answer 48

cloning

Question 49

reproductive cloning - —————- mother

Answer 49

surrogate

Question 50

Therapeutic cloning —> ———— ——————–

Answer 50

Tissue culture

Question 51

Dolly the sheep - Cloned in —– - Died in ————

Answer 51

1997; 2003

Question 52

a technique for correcting defective genes responsible for disease development

Answer 52

Gene Therapy

Question 53

In most cases of gene therapy, a “normal” gene is ————- into the genome to ————- an “abnormal” disease causing gene.

Answer 53

inserted; replace

Question 54

There are two major techniques in gene therapy

Answer 54

Gene Augmentation Therapy

Targeted Modulation of gene expression

Question 55

The introduction of DNA into a cell with a view to augmenting gene function, e.g. recessive diseases.

Answer 55

Gene Augmentation Therapy

Question 56

could also be used to deliver genes encoding proteins that would be responsible for stimulating the immune system to treat cancer or infections

Answer 56

Gene Augmentation Therapy

Question 57

Methods for turning off genes using for example ribozymes and anti-sense oligonucleotides, e.g., infectious disease and cancers (later lecture).

Answer 57

Targeted Modulation of gene expression

Question 58

A ———– needed to deliver the therapeutic gene to the patients target cells

Answer 58

vector

Question 59

Gene therapy: Most common vector is ——-

Answer 59

virus

Question 60

First human gene therapy experiment when?

Answer 60

1990

Question 61

Gene therapy is not really successful in humans due to the lack of efficient ———- ————- for gene delivery.

Answer 61

vector systems

Question 62

DNA delivered to cells can be ———– and in the case of cystic fibrosis restore —————

Answer 62

expressed; function

Question 63

Gene therapy: Shift in emphasis to ———- and ——– rather than ‘genetic diseases

Answer 63

Cancer; HIV

Question 64

DNA testing 1: collect a persons ————— ———

Answer 64

total DNA

Question 65

DNA testing 2: DNA cut into small pieces with ————– that are chemical scissors

Answer 65

enzymes

Question 66

DNA testing 3: DNA fragments put on ——

Answer 66

gel

Question 67

DNA testing 4: fragments separated according to ———– using an ———– ———–

Answer 67

size; electrical current

Question 68

DNA testing 5: Separated fragments transferred to ———— —————– and mixed with DNA ———– that picks up the regions of DNA interest

Answer 68

nylon membrane; probe

Question 69

Provides information and support to an individual or family about genetic disorders

Answer 69

Genetic Counselling

Question 70

Who uses Genetic Counselling?

Answer 70

A child is born with several abnormalities
There is a history in the family of a medical condition
A woman has a history of several miscarriages
Woman aged over 35 yrs and pregnant
Anyone who has uncertainties about genetic risks

Question 71

the examination of a person’s chromosomes, DNA or the biochemical product of a gene (protein)

Answer 71

Genetic Testing

Question 72

Tissues tested in genetic testing:

Answer 72

blood; skin; saliva; hair follicles; amniotic; CVS; placental

Question 73

CVS test done in pregnancy around —— weeks

Answer 73

11-12

Question 74

Amniocentesis done in pregnancy around ——– weeks

Answer 74

15-19

Question 75

CVS = ————– tissue withdrawn

Answer 75

chorionic

Question 76

Amneocentesis = ————- ————– withdrawn

Answer 76

amniotic fluid

Question 77

3 types of Genetic Tests Used

Answer 77

Cytogenic testing - examine chromosomes
DNA testing – DNA extracted from cells of a variety of body fluids or tissues
Proteins – usually tested for in blood

Question 78

Research: Genetic techniques used all the time to ——————- —————-

Answer 78

investigate diseases

Question 79

Research: Identify ———- and ————- —————-

Answer 79

therapeutic; diagnostic markers

Question 80

Research: Understand ———— ————- involved in development of diseases

Answer 80

molecular mechanisms

Question 81

Research: Identify genes that are ——————- and cause disease

Answer 81

abnormal