Nucleic Acids

Question 1

Functions of Nucleic acids:

Answer 1

• Function primarily as informational molecules
• For the storage and retrieval of information regarding the primary sequence of polypeptides.

Question 2

Two types of Nucleic Acids:

Answer 2

(1) Deoxyribonucleic acid (DNA)
(2) Ribonucleic acid (RNA)

Question 3

Each nucleotide contains: [3]

Answer 3

1. A 5-carbon pentose sugar
2. A nitrogenous base
3. One or more phosphate groups.

Question 4

Pentose sugars:
What is it?
What is it for DNA and RNA?

Answer 4

it is a 5 carbon sugar.

The sugar in DNA is deoxyribose.
The sugar in RNA is ribose

Question 5

Pentose sugars:
What is it?
What is it for DNA and RNA?

Answer 5

it is a 5-carbon sugar.

The sugar in DNA is deoxyribose.
The sugar in RNA is ribose

Question 6

Phosphate groups:

Function?
charge given to Nucleic Acid?

Answer 6

links the sugar on one nucleotide onto the phosphate of the next nucleotide to make a polynucleotide.
Gives a negative charge to the nucleic acid.

Question 7

Four bases of DNA?

Answer 7

Thymine
Adenine
Cytosine
Guanine

Question 8

Four bases of RNA?

Answer 8

Uracil
Adenine
Cytosine
Guanine

Question 9

Two types of bases in DNA and RNA?

Answer 9

1. Purine bases (two ring-shaped molecules joined
   together)
2. Pyrimidine bases (a single ring)

Question 10

What are the Purine bases?

In both DNA and RNA? (True/False)

Answer 10

Adenine (A) and Guanine (G)
True - Present in both DNA/ RNA

Question 11

What are Pyrimidine bases?

What is in DNA? What is in RNA?

Answer 11

*Cytosine –C
*Uracil – U
*Thymine – T

DNA - C and T
RNA - C and U

Question 12

Composition of a Nucleoside?

In RNA/ DNA?

Answer 12

Purine or pyrimidine base covalently attached to a sugar molecule

RNA – Ribonucleoside
DNA – Deoxyribonucleoside

Question 13

What is a Nucleotide?

In RNA/ DNA?

Answer 13

Nucleoside (B+S) is covalently joined to a phosphate group.

RNA – Ribonucleotide
DNA – Deoxyribonucleotide

Question 14

What is a polynucleotide?

Answer 14

Made up of many different nucleotides covalently joining with one another by 3’-5’ phosphodiester bonds.

Question 15

Why do polynucleotides have “polarity”?

Answer 15

Because each chain has a 5’phosphate end 3’hydroxyl end.

Question 16

What are the characteristic features of DNA double Helix? [2]

Answer 16

Two DNA strands are **wound around each other **to form the double helix (Two strands are twisted together around a common axis - right handed)

Run in opposite directions – **Anti-parallel **(one running from 5’ to 3’ and the other from 3’ to 5’)

Question 17

1. Chargaff’s rule?
2. Why is this rule like this?

Answer 17

1. COMPLEMENTARY BASE PAIRING

• Adenine and Thymine always join together
• Cytosine and Guanine always join together

2. This is because there is exactly enough room for one purine and one pyrimidine base between the two polynucleotide strands of DNA.

Question 18

Where can we find DNA in a cell?

Answer 18

DNA is present in the nucleus and mitochondria (mitochondrial DNA).

Question 19

1. Three types of DNA structures?
2. What is the most common one?
3. When can we get the two uncommon ones?

Answer 19

1. • B type
   • A type
   • Z type
2. B type is the most common naturally occurring form
3. Under certain in vitro conditions, A-DNA and Z-DNA double helices can form

Question 20

What is the B type DNA structure? [3 key points]

Answer 20

• right-handed helix
• 10 base pairs per turn.
• The intertwined strands make two grooves of different widths, referred to as the major groove and the minor groove.

Question 21

Significance of the Major Groove and the Minor Groove?

Answer 21

May facilitate binding with specific regulatory proteins..

Question 22

What can you say about the content of GC in DNA? [5 key points]

Answer 22

A=T
G=C
but AT≠GC

Generally GC~50%, but extremely variable
Distribution of GC is not uniform in genomes

Question 23

CONSEQUENCES OF GC CONTENT?

Answer 23

• GC slightly denser: Higher GC DNA moves further in a gradient
• more stable DNA.

Question 24

Forces that help to form the DNA double helix?
[5 forces] [!! Important to list in order of significance !!]

Answer 24

1. Rigid phosphate backbone
2. Base stacking interactions between bases (Van der Waals interactions)
3. Hydrophobic interactions (highly negative phosphate backbone vs. non-polar bases facing interior)
4. Hydrogen bonding (not the most energetically significant component)
5. Ionic interactions - salt stabilizes the duplex form of DNA shielding of the phosphate backbone

(Remember Because Helps Hold Information)

Question 25

Denaturation of DNA - What is the “Melting temperature of DNA”?

Answer 25

The Temperature at which 1⁄2 the DNA sample is denatured is called the melting temperature (Tm)

Question 26

Describe the Denaturation & Renaturation of DNA?

1. How can we separate DNA strands?
2. How can we renature DNA?
3. What can we say about the re-association of DNA?

Answer 26

1. The two strands of the double helix separate reversibly at high temperatures,
2. If the temperature is lowered, the strands renature (reanneal),
3. The rate of re-association is inversely proportional to the complexity of the DNA.

Question 27

What are the key characteristics determining the application of “denaturation of DNA”?

Answer 27

Critical importance in any technique that relies on complementary base pairing

Question 28

4 examples of denaturation of DNA?

Answer 28

1. PCR
2. Southern blots
3. Northern blots
4. DNA-DNA hybridization

Question 29

Differentiate between Southern and Northern blots.

Answer 29

SB - separates DNA
NB - Separates RNA

Question 30

What are the factors affecting the “melting temperature of DNA”? [5 main factors]

Answer 30

1. G-C content of the sample
2. Presence of intercalating agents (anything that disrupts H-bonds or base stacking)
3. Salt concentration
4. pH
5. Length
6. Denaturants

Question 31

What is Chromatin?

Answer 31

Chromatin is the chromosomal material in the nuclei of eukaryotic cells.

Question 32

4 main components of Chromatin?

Answer 32

1. dsDNA
2. Histones; most abundant chromatin proteins
3. Non-histone proteins ( most are acidic)
4. RNA (small quantity)

Question 33

Histones?

1. What are they?
2. What is their main function?

Answer 33

1. A set of small basic proteins
2. They bind with DNA and stabilize DNA structure.
   Also, participate in gene regulation

Question 34

What are the features of Histone proteins that allow them to perform their function? [2 points]

Answer 34

1. Basic amino acids (positively charged) abundant in
   histone proteins are Histidine, lysine, and Arginine.
2. Form ionic bonds with negatively charged
   phosphate groups.

Question 35

What are the 4 levels of genome Packing?

Answer 35

Level I - the B form of the double helix
Level II - The nucleosome (beads-on-a-string structure) Level III – Chromatin fiber
Level IV - Radial loop domain

Question 36

Describe the Level 2 DNA Packing - the Nucleosome.
[5 key points]

Answer 36

1. A complex of DNA and histone proteins
2. Eight core histone proteins aggregate to form the histone core (octamer complex) of the nucleosome.
3. Nucleosome - DNA wrapped two times around the octamer core/octamer complex.
4. The DNA fragment is negatively supercoiled in the left-handed direction.
5. Nucleosomes are linked together by “linker ‘ DNA.

Question 37

Describe Level 3 of DNA Packing - Chromatin Fibre.
[2 key features]

Answer 37

• It involves the coiling of nucleosomes into
  chromatin fiber.
• This level of condensation involves the interaction of another histone protein.

Question 38

Describe Level 4 of DNA Packing - Radial Loop Domain.
[2 key features]

Answer 38

• Involves a new structure called the chromosome scaffold.
• Scaffold - made up of several protein components including lamins and topoisomerases.
• 30 nm chromatin fiber is anchored to the chromosome scaffold and is organized into Radial Loop Domains.

Question 39

Biomedical Importance of DNA [7 key reasons]

Answer 39

1. Storage of genetic information
2. Understand the Molecular Basis of Disease
3. Disease diagnosis
4. Molecular targets of therapy
5. Genetic Engineering
6. Pharmacogenomics
7. Medico-legal/ DNA Fingerprinting

Question 40

RNA structure: levels of organization?

Answer 40

3 levels of organization:

Primary, Secondary, Tertiary

Question 41

Bonds in the different levels of RNA?

Answer 41

Primary:
- Covalent bonds

Secondary/Tertiary Non-covalent bonds
- H-bonds (base-pairing)
- Base stacking

Question 42

Classes of RNA? [4 points]

Answer 42

• Messenger RNA (mRNA)
• Transfer RNA (tRNA)
• Ribosomal RNA (rRNA)
• Small RNA

Question 43

Features of mRNA? [5 features]

Answer 43

1. Single-stranded.
2. Serves as a template for protein synthesis.
3. Synthesized in the nucleus and passes to the cytoplasm.
4. Higher molecular weight compared to other types of RNA.
5. Short half-life.

Question 44

Features of tRNA?

Answer 44

1. Smallest RNA.
2. Contains intra-strand/intra-chain base pairing.
3. serves as an “adaptor” molecule that carries its specific amino acid
4. At least 20 tRNA molecules in every cell, at least one corresponding to each of the 20 amino acids.
5. Involved in the translation process.
6. contain a high percentage of unusual bases (eg. dihydrouracil)

Question 45

Features of rRNA?

Answer 45

1. Contributes to the structure and function of ribosomes.
2. Necessary for ribosomal assembly and binding of mRNA to ribosomes.
3. Performs peptidyl transferase activity (ribozymes)

Question 46

RNA functions? [4 points]

Answer 46

• Storage/transfer of genetic information
• Structural
• Catalytic
• Regulatory

Question 47

storage/ transfer function of RNA?

Answer 47

1. Genomes [in viruses]
2. mRNA

Question 48

the structural function of RNA?

Answer 48

rRNA, which is the major structural component of ribosomes.

Question 49

The catalytic activity of RNA?

Answer 49

*rRNA haspeptidyltransferaseactivity

• Also, many small RNAs are enzymes. “ribozymes”

(Enzymatic activity responsible for peptide bond formation between amino acids in growing peptide chain)

Question 50

Regulatory Function of RNA?

Answer 50

• miRNA forms imperfect RNA-RNA duplexes (multiple mRNA targets)
• siRNA usually forms perfect RNA-RNA hybrids (specific mRNA targets)
• both inhibit gene expression (gene-silencing effects)
  *Potential therapeutic agents for cancers and infections.

Question 51

Biomedical importance of RNA?

Answer 51

*Storage of genetic information in pathogens
* understand the pathophysiology and the genetic basis of diseases
- E.g. gene *RNA therapeutics; anti-cancer therapy
expression studies
*Prevention of disease; mRNA vaccines (Pfizer/Moderna)
*For the diagnosis of diseases; reverse- transcriptase(RT)-PCR, Northern blotting

Question 52

What is the Genome?

Answer 52

• total genetic information carried by a cell/organism.

Question 53

What is a Gene?

Answer 53

• A unit of heredity.
• It is a region of DNA that is responsible for a
  particular characteristic.
• Only about 10% human DNA contain genes.
• Every gene in humans/animals has a specific sequence.

Question 54

What is a Gene Sequence?

Answer 54

The order of the nucleotide arrangement. Ex: ACCGTATC

Question 55

Three types of Genetic Variants?

Answer 55

1. Nuclear sequence-level variants
2. Nuclear structural variants (1 kb and larger in size)
3. Mitochondrial variants

Question 56

Examples of “Nuclear sequence-level variants” in Genetic Variants.

Answer 56

• Single nucleotide variants
• Small insertions
• Small deletions

Question 57

Examples of “Nuclear structural variants” in Genetic Variants.

Answer 57

• large insertions,
• Large deletions
• copy-number variants
• Inversions
• Translocations

Question 58

Types of epigenetic modifications?

Answer 58

*DNA methylation
*Histone modifications
- Methylation
- Acetylation
- Phosphorylation
*RNA-mediated modifications (e.g. gene silencing effects of miRNAs and siRNAs)

Question 58

Types of epigenetic modifications?

Answer 58

*DNA methylation
*Histone modifications
- Methylation
- Acetylation
- Phosphorylation
*RNA-mediated modifications (e.g. gene silencing effects of miRNAs and siRNAs)

Question 59

What are Epigenetic Modifications?

Answer 59

• Does not involve alteration of DNA coding sequence
• Reversible
• Inherited/ transgenerational (maybe lost over several generations)
• Involves:
  – Enzymes: DNA Methyltransferase
  – Small RNAs; microRNA/ siRNA
• Important in Tumorigenesis/Carconogenesis/Neurodegenerative diseases/ ASD/ Autoimmune diseases.