WRAP 4/5/6/7 Qs Flashcards Preview

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Flashcards in WRAP 4/5/6/7 Qs Deck (33)
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1
Q

You are attempting to develop a molecule to inhibit the tyrosine kinase activity of the BCR-ABL protein. In order to identify lead compounds for further development, you decide to screen a library of 1000 compounds.

What assay would be the most suitable?

Proliferation assay of a human cell line expressing BCR-ABL
Myeloid cell proliferation in BCR-ABL transgenic mouse
In vitro kinase assay with purified BCR-ABL protein
Phase 1 clinical trial
Proliferation assay of a wild-type human cell line

A

In vitro kinase assay with purified BCR-ABL protein

2
Q

Alzheimer’s disease is characterised by several changes in the brain. One of these is the formation of amyloid plaques, which are thought to contribute to neuronal death. The 5xFAD mouse model has been engineered to make an abundance of amyloid plaques.

Which studies could be usefully performed using this mouse?
Efficacy of plaque-clearing antibodies
Evaluation of environmental risk factors for plaque formation
Plaque-induced neuronal function
Epigenetic causes of plaque formation

A

Efficacy of plaque-clearing antibodies

Plaque-induced neuronal function

3
Q

You wish to create a mouse model to study the effect of a specific substitution mutation in a gene. The mutation is thought to be oncogenic and contribute to the formation of liver tumours.

What model would be the most suitable?

Knock-out mouse
Knock-in mouse

A

Knock-in mouse

4
Q

You are studying the regulation of cell division and want to know which genes are required for mitosis. You decide to use yeast as a model organism for your study.

Which technique would be the most suitable?
RNA sequencing of dividing cells
PCR candidate genes
Randomly mutate genes
Genome sequencing
Western blotting
A

randomly mutate genes

5
Q

You wish to study the recruitment of inflammatory cells to wounds and wish to film the path of their migration from when they exit the circulation to when they reach the wound.

Which model organism would be the most suitable?
Yeast
Worm
Fruit fly
Zebrafish
Mouse
A

zebra fish

6
Q

You wish to study the contribution of inflammatory cells to scarring during wound healing. You have wild-type mice and also a colony of PU.1 knockout mice. As a consequence of the knockout, PU.1 -/- mice are unable to produce any inflammatory cells (e.g. macrophages and neutrophils) and interestingly, they do not scar.

How could you begin to investigate which proteins made by inflammatory cells maybe involved in scar formation?
Compare gene expression in wound tissue between the two mice
Compare gene expression in fibroblasts between the two mice
Sequence the DNA of both mice
Make knockouts of candidate genes
Immunofluorescent staining

A

Compare gene expression in wound tissue between the two mice

7
Q
  1. You wish to target a double stranded DNA sequence using CRISPR technology. You are using Cas9 from S.pyogenes which recognises the PAM sequence of NGG (where N is any base). The top strand of the sequence is:

5’ GATTCCTATTACCATGAATTATGGGTATTCGGTGCAGATTACGA 3’

How many potential target sequences are there?

A

5

  • -> think about its complementary stand too
  • -> has to end in GG

5’ GATTCCTATTACCATGAATTATGGGTATTCGGTGCAGATTACGA 3’
3’ CTTAGGATAATGGTACTTAATACCCATAAGCCACGTCTAATGCT 5’

8
Q

. When designing your guide sequence you use an online tool to assess the candidate targets.

Which of the following properties of a guide sequence would preclude its use?

A
Hairpin formation
Similar off-target sequences
It is on the –ve strand of DNA
It is on the X chromosome
It is intronic
9
Q

You are recruiting participants for a randomised controlled trial to test the efficacy of a new drug in treating her-2 positive breast cancer.

Which of the following does the Declaration of Helsinki state you should do?

Gain informed consent
Not put the patient at risk
Allow the patient to withdraw
Publish your findings
Use competent staff
A

all of these

10
Q

You are recruiting participants for a randomised controlled trial to test the efficacy of a new drug in treating her-2 positive breast cancer.

How do you minimise risk?

A
  • test on animals first

- phase 1 on healthy people testing side effects and drug dosage

11
Q

The Tuskegee trial contravened several points in the Declaration of Helsinki.

Which guidelines were flouted?

A

-Safety of human subjects takes precedence over all over considerations

  • ethics committee
  • informed consent
  • vulnerable pop
  • hazards are predictable
12
Q

The current drug for her-2 positive breast cancer is very expensive and is not available to all patients in the UK. The new drug is cheaper.

Which of the following does the Declaration of Helsinki state you should use as a control to compare the new drug with?

A

the current therapy

13
Q

You are performing your research project to determine whether background noise affects concentration. You do not want the participants to know that this is what you are studying as you think it may confound your results.

How do you ensure informed consent is obtained?

  • It is not required – there is no harm
  • You can’t – the study is unethical
  • Debrief the participants
  • Ask for consent to ‘Any –Purpose Research’ (APR)
  • Turn a blind-eye
A

it is not required- no harm

14
Q

The Milgram experiment

How do you ensure informed consent is obtained?

A

debrief

15
Q

Part of Wakefield’s hypothesis was that measles virus in the gut led to colitis and ultimately, regressive autism. One of his research team performed sensitive screening for the virus in patient gut biopsies.

How might he have done this?

A

PCR

16
Q

This test showed that despite suitable controls, measles could not be detected.

In light of this, according to Karl Popper, what should Wakefield have done?

Performed a different assay
Accepted his hypothesis
Modified his hypothesis
Rejected his hypothesis
Falsified his hypothesis
A

falsified his hypothesis

17
Q

The Wakefield Lancet paper claimed that the patients studied were consecutive admissions to the Royal Free Hospital. In fact, several were referred by sympathetic groups/doctors.

What is the name given to this design flaw?
Un-blinding
Allocation concealment
Measurement error
Selection bias
Intention-to-treat
A

selection bias

18
Q

A clinician takes a blood sample to diagnose a particular genetic condition.

Do they to obtain written informed consent from the patient?

A

no

19
Q

You are a researcher interested in this condition.

Can you ask for the remaining sample and use it?

A

yes

20
Q

You devise a diagnostic test for gout that has a sensitivity of 73%
Interpret this value

A

73% of people with gout will be detected with this test

21
Q

You devise a diagnostic test for gout that has a sensitivity of 73%
What is the false negative rate?

A

27%

22
Q

sensitivity

A

ture positive/ false negative + true positive

23
Q

specificity

A

true negative/ false negatives + true negatives

24
Q

You devise a diagnostic test for gout that has a specificity of 84%
Interpret this value

A

84% people without gout will be diagnosed as not having gout

25
Q

You devise a diagnostic test for gout that has a specificity of 84%
What is the false positive rate?

A

16%

26
Q

A 50-year-old woman has routine mammography screening. She tests positive, is alarmed, and wants to know whether this means she has breast cancer. You have the following information:
The prevalence of breast cancer is 1%
If a woman has breast cancer, the probability that she tests positive is 90%
If a woman does not have breast cancer, the probability that she nevertheless tests positive is 9%.

What are her chances of having breast cancer?
A.	9 in 10
B.	9 in 11
C.	1 in 9
D.	1 in 11
E.	1 in 100
A

1 in 11

look at powerpoint

27
Q

You are working on a project to develop new antibiotics. You undertake a screen of bacteria present in soil samples to identify secreted molecules with anti-microbial activity.

What would your assay be? (1)

A

test secreted molecules for their ability to kill microbes

28
Q

You are working on a project to develop new antibiotics. You undertake a screen of bacteria present in soil samples to identify secreted molecules with anti-microbial activity.

Name two advantages of using this screening approach over rational drug design. (2)

A

You will be identifying active compounds at the outset and will not have to trust that a design strategy will work

Nature has already made large numbers of active molecules – so you don’t have to

29
Q

You are attempting to evolve a 100 nucleotide single stranded DNA aptamer that binds with high affinity to a specific receptor.
You screen an initial library of 109 RNA molecules and select those with the highest binding affinity for the purified receptor.
You then amplify these molecules with PCR before repeating the selection procedure.

What is the rationale behind the PCR step? (1)

A

To introduce mutations (variations) in the sequence to modify affinity

30
Q

You take your daily trip to a local shop to take advantage of their bargain meal deal. You have forgotten your re-usable bag and the shop assistant provides you with a ‘biodegradable carrier bag’.
How would you design an experiment to determine whether the plastic bag was truly biodegradable? (4)

A

Bury the bag in your garden (1)
Bury it next to a ‘normal’ plastic bag – negative control (1)
Also bury a known biodegradable bag – positive control (1)
After a set period of time, dig up the bags and compare the test bag to the two controls (1)

31
Q

You are a honey producer who reads that bees may navigate using electro-magnetic fields. You have noticed that your bees are not coming back to the hives in normal numbers in an area where a new mobile phone mast has been installed. You suspect this mast is interfering with the electromagnetic field, disrupting your bees’ navigation.
Describe an epidemiological approach to research the effect of electro-magnetic fields on bee navigation. (2)

A

Quantify bee navigation in a variety of hives either close to or away from telephone masts. Compare to see if there is a difference.

32
Q

You are a honey producer who reads that bees may navigate using electro-magnetic fields. You have noticed that your bees are not coming back to the hives in normal numbers in an area where a new mobile phone mast has been installed. You suspect this mast is interfering with the electromagnetic field, disrupting your bees’ navigation.
Name a potential limitation of this study design. (1)

A

There may be a confounding variable – noise, changes in other flora/fauna as a result of telephone masts.

33
Q

What kind of study design mitigates the effects of confounding variables? (1)

A

Randomised control trial