techniques

Question 1

what does PCR Do

Answer 1

amplifies specific sequence of DNA

Question 2

qualities of PCR

Answer 2

specific

very sensitive

Question 3

uses of PCR

Answer 3

detection of viral and bacterial DNA in a tissue sample
determine the size of a sequence between 2 primers
production of DNA genetic tools or DNA sequencing

Question 4

process of PCR

Answer 4

identify specific sequence (around 20bp)
make specific reverse and forward primers
heat to 96 - denature - single stranded
annealing - cool to 60 - primers added
extension - add dNTPs - 72 optimum temp for DNA polymerase

repeat and separate using electrophoresis

Question 5

what does qPCR do

Answer 5

quantifies a specific DNA sequence in a sample

Question 6

qualities of qPCR

Answer 6

very sensitive

accurate and reliable

Question 7

uses of qPCR

Answer 7

comparing amounts of DNA
quantifying a viral load
compare amounts of mRNA (qRT-PCR)

Question 8

process of qPCR

Answer 8

if RNA - convert to cDNA
carry out PCR process to amplify
measure DNA by fluorescent labels which fluoresce when bound to DNA
plot fluorescence against number of PCR cycles

Question 9

analysis of qPCR

Answer 9

absolute quantification

relative quantification

Question 10

absolute quantification

Answer 10

analysis of qPCR
measures level of gene expression in 1 sample
compares Ct value of sample of interest with standard curve

Question 11

relative quantification

Answer 11

measures relative change in gene expression between 2 samples

Question 12

calculating relative quantification

Answer 12

carry out qPCR on the 2 samples and for the reference gene
calculate the difference in Ct values between either sample and ref gene
divide delta Cts by each other to give comparison

Question 13

importance of reference gene in relative quantification

Answer 13

ref gene will be expressed at the same level for each sample so allows comparison of unknown gene

Question 14

standard curve for absolute quantification

Answer 14

plot Ct values against log(DNA concentration)

Question 15

quality of RNA sequencing

Answer 15

un-biased

Question 16

what does RNA sequencing do

Answer 16

quantifies how much of each mRNA you have from each gene in a sample

Question 17

uses for RNA seq

Answer 17

compares gene regulation or expression in a particular disease or in response to a particular stimulus

Question 18

example of RNA seq

Answer 18

comparison of mRNA expression under hypoxic conditiions compared to normoxia

Question 19

process of RNA seq

Answer 19

quantifies RNA
converts RNA to cDNA
carries out parallel sequencing to identify each molecule

Question 20

genome sequencing

Answer 20

parallel DNA sequencing but on a bigger scale

Question 21

uses of genome sequencing

Answer 21

allows identfiaction of spontaenous mutations

Question 22

purpose of DNA sequencing

Answer 22

determines the base sequence of a stretch of DNA (around 750 bp)

Question 23

uses of DNA sequencing

Answer 23

detection of mutations
identification of pathogens
identification of specific genes

Question 24

process of DNA sequencing

Answer 24

carry out PCR to amplify
also add fluorescent-labelled terminator dNTPs
DNA fragments extend up to added terminator bases (lots of different sizes)
electrophoresis to separate fragments by size
as fragments pass through, terminator sequence fluorescs (different colour = differnt base)

Question 25

what does GWAS do

Answer 25

uses SNPs to link genetic variation to disease

Question 26

uses of GWAS

Answer 26

helps understand pathways involved in complex diseases

allows assessment of an individuals disease risk

Question 27

what does trio-analysis do

Answer 27

identifies disease-causing spontaneous mutations

Question 28

how does trio-analysis work

Answer 28

screen the parents
screen the child
if the child has any genes that arent in parents genomes - it is a spontenous mutation

Question 29

use of trio-analysis

Answer 29

identifies mutations causing rare genetic diseases

Question 30

knock-out models

Answer 30

inactivation/disruption of a specific target gene

commonly use mice

Question 31

use of knock out

Answer 31

assess function of a gene

create a disease-model

Question 32

what is CRISPR

Answer 32

genome editing technique

allows user-targeted disruption or alteration of mammalian genome

Question 33

uses of CRISPR

Answer 33

creating knock-outs

therapeutic repair of mutant genes

Question 34

what does a western blot do

Answer 34

uses a specific antibody to detect and quantify a particular protein in a sample

Question 35

uses of western blotting

Answer 35

detect changes in protein level

detect disease specific expression

Question 36

what does a genetic screen do

Answer 36

randomly mutate genes (at a low level) in various model oragnisms
see if function is affected

Question 37

uses of genetic screens

Answer 37

identify genes important for a particular physiological or developmental process

Question 38

what is statistcal analysis of RNA sequencing looking for (compare to known gene database)

Answer 38

looking for over-representation of genes in known pathways

Question 39

annotated gene database

Answer 39

every gene in human genome has pathways, associated genes and proteins involved written next to them