20 gene expression

Question 1

the genetic code is:

Answer 1

• non-overlapping
• universal
• degenerate

Question 2

define non-overlapping

Answer 2

each base belongs to one codon/triplet only

Question 3

define universal

Answer 3

the same 3 bases code for the same amino acid in all organisms

Question 4

define degenerate

Answer 4

more than one codon codes for an amino acid

Question 5

define degenerate

Answer 5

more than one codon codes for an amino acid

Question 6

what is cell differentiation?

Answer 6

where cells become specialised

Question 7

what do stem cells do?

Answer 7

differentiate into different specialised cells and divide by mitosis

Question 8

what are the 4 types of stem cell?

Answer 8

totipotent
pluripotent
multipotent
unipotent

Question 9

what does a totipotent stem cell do?

Answer 9

divide by mitosis and produce any type of body cells

Question 10

why can totipotent stem cells produce any type of body cell?

Answer 10

because they only translate part of their DNA, producing specific proteins that lead to cell specialisation

Question 11

what does a pluripotent stem cell do?

Answer 11

divide indefinitely by mitosis and begin to differentiate into the majority of specialised cells

Question 12

which other stem cell can only translate part of its DNA?

Answer 12

pluripotent

Question 13

what does a multipotent stem cell do?

Answer 13

differentiate into some different cell types

Question 14

give an example of what a multipotent stem cell can differentiate into

Answer 14

red and white blood cells

Question 15

what does a unipotent stem cell do?

Answer 15

differentiate into only one type of cell

Question 16

give an example of a unipotent stem cell

Answer 16

unipotent stem cells in the heart differentiate into cardiomyocytes

Question 17

what are multipotent and unipotent stem cells vital for?

Answer 17

growth and repair of damaged tissues

Question 18

what is the developmental stage for totipotent stem cells?

Answer 18

zygote and early embryo

Question 19

what is the developmental stage for pluripotent stem cells?

Answer 19

embryonic and fetal

Question 20

what is the developmental stage for multipotent stem cells?

Answer 20

adult

Question 21

what is the developmental stage for unipotent stem cells?

Answer 21

used in the formation of single types of cells

Question 22

give 5 positives of stem cells for medical research

Answer 22

1. research into producing organs for transplant
2. research into how cells become specialised
3. research into cancer
4. producing tissues for skin grafts
5. to cure diseases like parkinsons disease

Question 23

what is a negative of stem cells in medical research?

Answer 23

stem cells may divide out of control leading to the formation of a tumour

Question 24

what are iPS?

Answer 24

induced pluripotent stem cells
(lab grown)

Question 25

give 3 ethical concerns about stem cells

Answer 25

1. embryos are seen to have human status to some people
2. animal testing
3. consent for donated cell usage

Question 26

what is a promoter region?

Answer 26

one or more base sequences found next to a region that controls the expression of that gene

Question 27

what is a transcription factor?

Answer 27

proteins that, when activated, bind to the promoter region of a gene stimulating RNA polymerase to begin transcription

Question 28

what is a terminator region?

Answer 28

where RNA polymerase detaches

Question 29

how does oestrogen activate transcription?

Answer 29

1. diffuses through phospholipid bilayer (lipid soluble)
2. diffuses through nuclear envelope
3. binds to oestrogen receptor
4. changes 3 structure of receptor
5. causes the release of transcription factor
6. TF binds to promoter region of DNA
7. stimulating RNA polymerase and increases transcription

Question 30

what can control translation?

Answer 30

RNAi

Question 31

what are the 2 short regulatory RNA molecules called that reduce the production of a specific polypeptide?

Answer 31

micro RNA
small interfering RNA

Question 32

how does RNAi inhibit gene expression

Answer 32

1. single strand of miRNA/siRNA binds to enzyme in cytoplasm to form RISC
2. miRNA/siRNA has a complementary base sequence to part of specific mRNA
3. RISC binds to mRNA
4. either: hydrolyses mRNA or prevents ribosome from attaching to mRNA

Question 33

what has happened if a translation is still being produced in the presence of miRNA or siRNA?

Answer 33

not all mRNA destroyed

Question 34

what is epigenetics?

Answer 34

inheritable changes in gene expression without changes to DNA base sequence

Question 35

how can inheritable changes inhibit transcription?

Answer 35

• increased methylation of DNA
• decreased acetylation of histones

Question 36

explain how increased methylation can inhibit transcription

Answer 36

1. attach to C5 cytosine base
2. prevents TF from binding

Question 37

what is the enzyme that helps with the methylation of DNA?

Answer 37

methyltransferase

Question 38

explain how decreased acetylation can inhibit transcription

Answer 38

1. less acetylene groups on histones make histones tightly packed
2. DNA tightly packed
3. promoter region hidden so TF can’t bind

Question 39

what are the two types of tumours?

Answer 39

benign and malignant

Question 40

what is the difference between benign and malignant tumours?

Answer 40

benign- slow growing, capsulated and do not metastasise
malignant- fast growing, not capsulated and do metastisise

Question 41

which genes control gene expression?

Answer 41

proto onco genes
tumour suppressor genes

Question 42

how do proto onco genes control gene expression?

Answer 42

stimulates cell division
by coding for proteins that increase cell division

Question 43

how do tumour suppressor genes control gene expression?

Answer 43

slows cell division
by coding for proteins that decrease cell division

Question 44

what can happen to a proto onco gene that can cause a tumour?

Answer 44

mutation/undermethylation

Question 45

what happens if a proto onco gene is mutated or undermethylated?

Answer 45

creates ‘onco gene’
that is permanently switched on
leading to an overstimulation of cell division
resulting in a tumour

Question 46

what can happen to a tumour suppressor gene that can cause a tumour?

Answer 46

mutation/overmethylation

Question 47

what happens if a tumour suppressor gene is mutated or overmethylated?

Answer 47

gene inactivated
so stops inhibiting cell division
which makes the rate of cell division increase
causing a tumour

Question 48

how can breast cancer be hormone stimulated?

Answer 48

cancer cells in the breast have ER receptors which oestrogen stimulates them to divide