Nage

Question 1

How are the prime is used in a numbering of nucleic acid‘s?

Answer 1

1’ = attached to base

5’ attached to phosphate

Question 2

Draw the structure of ribose and deoxyribose noting the differences

Answer 2

Pentode sugar in both w O at top
1 is H
2 is H in deoxyribose
2 is OH in ribose
3 is OH
4 is H and C(OH,H,H)

Question 3

What is the structural differences between thymine and uracil?

Answer 3

Both have carbonyl groups

Only thymine contains methyl group (absent in uracil, only H pres)

Question 4

How can you identify a cytosine from other bases

Answer 4

Cytosine Is the only base to contain an amino group

Question 5

How can you identify a pyrimidine base

Answer 5

This base does not contain any amino groups or carbonyl groups or methyl groups

Amino = cytosine
Carbonyl = thymine and uracil
Methyl = thymine

Question 6

What is a nucleoside

Answer 6

Only base and sugar

Question 7

What is the name of the nucleoside for each of the following bases:
A
G
C
U
T

Answer 7

(Deoxy)adenosine 
(Deoxy)guanosine
(Deoxy)cytidine
(Deoxy)uridine 
(Deoxy)thymidine

Question 8

What is the 3/5’ end?

Answer 8

Phosphate group (head) =5
Ribose =3

Question 9

What links the chain of nucleotides

Answer 9

Phosphodiester links

Question 10

What do you phosphodiester links link?

Answer 10

OH group of ribose

O- of phosphate

Question 11

How did Watson and Crick discover double helix structure

Answer 11

Analysis of x-ray diffraction patterns

Question 12

Which way do the negative charges of DNA orient

Answer 12

They point outwards therefore DNA is negative

Question 13

How many hydrogen bonds between the bases

Answer 13

Three between G and C (more stable)

2 between A and T

Question 14

How do you melt and re-anneal DNA

Answer 14

Melt
High temperature or low salt environment

Re-anneal
Low temperature or high salt environment

Question 15

What is the other word for melting and re-annealing DNA

Answer 15

Denaturing

Hybridising

Question 16

What is different between the Genome of E.coli and human

Answer 16

E. coli
4.6 x 10^6 bp
Single circular double stranded molecule

Human
3 x 10^9 bp
Divided to chromosomes each containing linear DNA

Question 17

How many chromosomes in diploid human cells

Answer 17

22 normal pairs and one pair of sex chromosomes

Question 18

What is special about abnormal karyotypes

Answer 18

Can be extra or reduced number of individual or pairs of chromosomes e.g. trisomy 21 or translocations

Question 19

How many base pairs of DNA is contained in a nucleosome

Answer 19

~200bp DNA (LINKER PLUS CORE DNA)

Question 20

How do nucleosomes shorten DNA

Answer 20

7 fold condensation of DNA

Question 21

DNA chain packing leads to what after 7-fold condensation of DNA?

Answer 21

Further 40 fold condensation

Question 22

What are the levels of DNA organisation

Answer 22

Short region of DNA double helix (2 nm)
Beads on a string form of chromatin
30 nm chromatin fibre of packed nucleosomes
Chromatin fibre folded into loops
Entire chromosome

Question 23

What is DNA Primase

Answer 23

Enzyme involved in DNA replication
Catalyses the synthesis of a short RNA segment called a primer complimentary to a ssDNA (single-stranded DNA)

= type of RNA polymerase

Question 24

How is the DNA double helix opened?

Answer 24

DNA Helicase uses energy from ATP

💔 hydrogen bonds and unwind DNA helix

Question 25

What do DNA polymerases do?

Answer 25

Add nucleotides to 3’ end of growing chain

Question 26

What things are required for Protein synthesis

Answer 26

Template strand
Oligonucleotide primer
Supply of dNTPs

Question 27

What is the template strand also known as

Answer 27

Antisense

Question 28

What is the sense strand

Answer 28

New strand being synthesised

Question 29

What is an oligonucleotide primer

Answer 29

Short chain of nucleotides already joined, onto which new nucleotides can be added

Question 30

What are deoxynucleotide triphosphates (dNTPs)?

Answer 30

Nucleoside triphosphates containing deoxyribose
= building blocks of DNA
Lose 2x phosphate groups when incorporated into DNA during replication

Question 31

New nuclear tides are added to which end of the chain

Answer 31

3’ end

On three hydroxyl groups causing synthesis in the 5 to 3 direction

Question 32

During the enzyme reaction when nucleotides are joined together to form the chain how is energy released ?

Answer 32

Energy released by triphosphate hydrolysis

Question 33

What are chain terminators ?

Answer 33

Nucleoside analogs

Replace nucleosides yet have no hydroxyl group on the 3’, preventing addition of further bases

Question 34

List examples of chain terminators

Answer 34

The following are nucleoside analogs:
Dideoxycytidine (HIV)
Azidothymidine (HIV)
Acyclovir (Herpes)

Question 35

Where does your replication start

Answer 35

Origins of replication

This site is called a replication fork

Question 36

Describe the asymmetry in DNA replication

Answer 36

Due to antiparallel strand orientation
Leading strand synthesised continuously 5 to 3
Lagging strand synthesised in short Okazaki fragments also 5 to3

Question 37

How is DNA primase involved in the start of replication

Answer 37

DNA primase synthesises a short RNA fragment which is transient and allows replication to start at a replication origin
DNA polymerase can then add bases

Question 38

How are Okazaki fragments formed

List steps

Answer 38

New RNA primer is required per fragment made by Primase
DNA Polymerase adds nucleotides to RNA primer to finish DNA fragment
Old RNA primer is erased and replaced by DNA
DNA ligase joins new Okazaki fragment to growing chain

Question 39

What removes the old RNA primer used when forming Okazaki fragments and causes it to be erased and replaced by DNA?

Answer 39

Ribonuclease removes RNA primer using 5’ to 3’ exonuclease activity
Repair DNA polymerase replaces RNA with DNA
DNA ligase joins fragments using ATP to make continuous strand

Question 40

What is the sliding clamp

Answer 40

A ring around DNA to prevent polymerase falling off

Question 41

What do single strand DNA binding proteins

Answer 41

Prevent any localised secondary structures forming due to hydrogen bonding

Question 42

What is the proofreading mechanism used during DNA replication to prevent dangerous mutations and any errors

Answer 42

DNA polymerase checks previous nucleotide when adding a new nucleotide for correct base pairing

If incorrect DNA polymerase’s exonuclease activity will remove it, new correct replacement is added

Question 43

How is replication in E. coli different to humans

Answer 43

E. coli have bidirectional replication from OriC
Creates two replication folks that move simultaneously in opposite directions

Chromosomes have many replication origins each evenly spaced, giving bidirectional replication along the Strand until forks meet

Question 44

Describe the M phase

Answer 44

Mitosis
One hour of cell division
Chromatids separate to daughter cells

Question 45

Describe the G1 phase

Answer 45

Gap phase 1
10 hours without synthesis of DNA
RNA and proteins synthesised
DNA present as single linear double helix

Question 46

Describe the S-phase

Answer 46

Synthesis

Nine hours and DNA synthesised

Question 47

Describe the G2 phase

Answer 47

Gap phase 2
Four hours and between synthesis and mitosis
Makes proteins and grows
Each chromatid has two identical sister chromatids

Question 48

At which stage of the cell cycle does the nucleus disintegrate
At which stage of the cell cycle does the nucleus reform

Answer 48

Metaphase

Reforms at interphase

Question 49

How many base pairs in the human genome

Answer 49

6x10^9

Question 50

What are housekeeping genes

Answer 50

Genes that are present in all cells, they are important for normal cell function & viability

Question 51

What is the initial product of gene expression

Answer 51

ssRNA

Question 52

List the three steps involved in DNA transcription

Answer 52

1. DNA strands unwind
2. Ribonucleotides base pair w bases on antisense (template) strand
3. Bases joined by phosphodiester bonds, with the RNA chain growing one base @ time in the 5 to 3 direction

Question 53

What is the template or antisense strand

Answer 53

The Strand upon which the RNA sequence is created

Question 54

What are transcription factors

Answer 54

Special gene regulatory proteins

Question 55

List the types of RNA involved in each of the following polymerase roles:
RNA Polymerase I
RNA Polymerase II
RNA Polymerase III

Answer 55

rRNA
Used to produce the large ribosomal subunit

mRNA
Used to produce the protein-encoding RNAs & the microRNA

tRNA / 5S RNA
Used to produce each of the tRNAs & the small ribosomal RNA subunit

Question 56

What does the DNA sequence TATA specify

Answer 56

The initiation point for transcription after which RNA polymerase II will begin transcription

Question 57

The initiation step is required to build a transcription complex before RNA synthesis occurs, where does the complex assemble

Answer 57

Complex assembles at gene promoter, level of transcription is regulated by activity of transcription factors

Question 58

What are the steps involved in formation of the basal transcription complex

Answer 58

1. TF IID (TATA binding protein) binds to minor groove,
   Beginning to unwind DNA to allow more contact with DNA bases; asymmetric unwinding ensures unidirectional transcription
2. TF IIA & TF IIB bind next
3. RNA Pol II binds to TF IIB w the TF IIF attached
4. TF II E,H,J attach to RNA Pol II
   H promotes further unwinding

Question 59

How can transcription factors modulate transcription

Answer 59

TFs bend DNA on binding, interacting with each other and the basal transcription complex to modulate transcription

Question 60

How can transcription factors remodel chromatin

Answer 60

Recruit proteins with enzymatic activities to modify histones

Question 61

What determines transcription factor expression

Answer 61

Cell lineage

Altered by external signals e.g. hormones, growth factors, stress

Question 62

What do mutated or abnormal transcription factors lead to

Answer 62

Implications in cancer and disease

Question 63

How many RNA Polymerases does E. Coli have

Answer 63

Only have one type of RNA polymerase with all subunits
2 a , 2 B

Promoter = TATAAA

Question 64

What is involved in splicing

Answer 64

Introns are removed

Modified nucleotide cap at 5’ end added and Poly-A tail at 3’ end

Question 65

How can you distinguish introns from exons

Answer 65

Introns begin w GU & end w AG

Exons also end AG

Exon|Intron = AGGU

Question 66

Where is the splice donor site

Answer 66

End 2 bases of the exon and GU of intron

Question 67

What is the splice acceptor site

Answer 67

15 pyrimidine bases
Any base
Then CAG

(Pyr15NCAG)

Question 68

What are snRNPs

Answer 68

Small ribonuclear proteins
Prod. from snRNA
Numbered and form spliceosome

Eg. U1, U5, U2, U4, U6

Question 69

Explain the steps involved in the formation of the spliceosome

Answer 69

1. U1 binds to splice donor site
2. U5 binds to splice acceptor site
3. U2,4,6 bind to middle of intron

Splicing complex forms from U1,2,4,5,6 to cleave splice donor sequence

Question 70

What steps will happen after the formation of the spliceosome?

Answer 70

1. Interval btwn Exon|Intron (AGGU) is cleaved
2. An “A” residue in intron used as branchpoint to which UG bonds
3. Branch results in phosphodiester bond btwn 5’ phosphate on G and 2’ OH of A (UGA)
4. Phosphodiester bond btwn G (on Pyr15NCAG) and Exon cleaved

😁Lariat structure formed from Intron !
Exons=joined by RNA Ligase forming continuous sequence

Question 71

What post transcriptional mRNA modification occurs?

Answer 71

CAP struct added 5’ end of mRNA

Poly-A tail to 3’

Question 72

How does 5’ capping occur?

Answer 72

Post transcription:
5’ end of mRNA has a nucleotide w a triphosphate on its 5’ CArbon

The terminal phosphoanhydride bond is cleaved to form a diphosphate
The final two phosphates of GTP are removed to form GMP which then attaches to the diphosphate to form a 5-5 phosphate linkage
Finally, the 7 carbon in guanine is methylated
= 7-methylguanylate cap

Question 73

What are the functions of a 5’ cap?

Answer 73

• prevents exonuclease degradation

- allows recognition by ribosomes

Question 74

How do viruses alter euk cells to allow for only the viral mRNA to be translated in host cells

Answer 74

Viruses lead to enzymes being produced that remove caps