Ch. 3

Question 1

What are nucleic acids?

Answer 1

• Genetic material
• DNA and RNA

Question 2

What method is used to visualize primary and secondary structures of DNA?

Answer 2

X-ray crystallography

Question 3

What is DNA? What is it used for?

Answer 3

• Genetic material
• Polymers of deoxynucleotides
• Phosphodiester bonds link nucleotides
• Involved in:
  
  • Info storage
  • Gene expression
  • Regulation of genetic info

Question 4

What are the uses of nucleotides in metabolism?

Answer 4

• Drive endergonic reactions (ATP)
• Cell signaling
  
  • Activators (GPCR)
  • Secondary messengers (cAMP and cGMP)
  • Allosteric regulation of enzymes (ATP, ADP, AMP)
  • Phosphorylation of enzymes for regulation
• Functional components of coenzymes
  
  • NAD+/NADH
  • NADP+/NADPH
  • FAD/FADH2
  • Coenzyme A (CoA, CoSH)

Question 5

What is the primary structure of DNA?

Answer 5

• 1 strand of DNA
• Found in all biological molecules
• Unique order of deoxyribonucleotides (gives protein sequences)

Question 6

What is the secondary structure of DNA?

Answer 6

• Both strands of DNA
  
  • 2 complementary strands bind together through complementary base pairing
  • Antiparallel

Question 7

What is the tertiary structure of DNA?

Answer 7

Supercoiled/superhelical

Question 8

What are the 3 types of crystal structures of DNA?

Answer 8

A-DNA (24Å)
- Short and wide
- Right handed
- Dehydrated (doesn’t bind water easily)
- 11 bases/turn

B-DNA (34Å): DNA normally in this form
- Common in cells
- Most stable
- Right handed
- Hydrated
- 10.5 bases/turn

Z-DNA (18Å)
- Saline
- Longest and narrowest
- Left handed
- Next to B form: indicates transcription of the B form will occur
- B and Z can be in the same molecules - sometimes
- Zig zag
- Transient, up to 100 bp

Question 9

What is DNA denaturation vs renaturation?

Answer 9

Denaturation → single stranded
- “Melting”
- Separation into 2 individual strands
- Replication and PCR
- Transcription
- Causes a hyperchromic shift

Renaturation
- “Annealing”
- 2 DNA strands reform a helix

Question 10

What is the coding strand? What is the template strand?

Answer 10

Question 11

Explain base stacking.

Answer 11

• Between adjacent bases in the same strand
• Bases oriented in a plane
• Bases parallel to each other in the same strand of DNA
• Within interior of the helix
• Stability to DNA
  
  • Hydrophobic effect
  • Van der Waals
• G-C: more H bonds, more energetically favorable than A-T

Question 12

What is PCR? What are its steps?

Answer 12

Way to copy specific DNA sequence/gene
1. Double stranded
2. Heated/melted = single strand
3. Cooled to add primers
4. Increase temperature for thermophilic DNA pol and DNA synthesis after primer extension
5. Cool to anneal DNA strands

Question 13

What is DNA supercoiling?

Answer 13

• Supercoil keeps DNA inside cells
• Structure where majority of DNA molecules inside cell fold upon themselves
• Area where double helix crosses itself
• In prokaryotes

Question 14

Explain DNA topology.

Answer 14

• Linking number (Lk) = number of times a strand of DNA winds in the right-handed direction around the helix in an imaginary plane
• Twist (Tw) = measures the winding of DNA strands around each other
  
  • Number of turns of B-DNA
• Writhe (Wr) = measures crossing of the duplex of dNA strands
• Lk = Tw + Wr

Question 15

Compare and contrast DNA and RNA.

Answer 15

• Both store genetic material
• DNA
  
  • Genetic material of most organisms and some viruses
  • Inheritance
  • Gene expression (template for transcription of RNA)
  • Sequences surrounding a gene regulate gene expression
  • More stable than RNA since its sugar is missing the 2’OH
  • Main genetic material
• RNA
  
  • Genetic material of some viruses
  • Gene expression (translation)
  • Determines which proteins are present
  • Life began with it
  • Can act as a ribozyme
  • Unstable due to 2’OH

Question 16

What is a genome?

Answer 16

All the genes that encode proteins
Number of genes increases the more complex the organism is

Question 17

What is a transcriptome?

Answer 17

RNA transcripts

Question 18

What is a proteome?

Answer 18

All the proteins expressed by a genome

Question 19

How is DNA condensed to fit within a cell?

Answer 19

Question 20

How are chromosomes and telomeres formed?

Answer 20

Question 21

What are polymorphisms and what are their applications?

Answer 21

• Changes in DNA that could lead to changes in proteins
• Types of polymorphisms
  
  • Single nucleotide polymorphism (SNP): 1 mutation
  • Short tandem repeats (STR): deletions and insertions in the genome
  • Variable number tandem repeats (VNTR): repeats of a core sequence
• Applications
  
  • Forensic applications: compare DNA sample from crime scene with suspect DNA samples
  • Paternity determination
  • Precision medicine

Question 22

What is plasmid-based gene cloning?

Answer 22

Uses plasmids, restriction enzymes, and ligases to isolate genes and express the protein product

Question 23

What is recombinant technology?

Answer 23

Methods to introduce DNA into bacteria
- Conjugation = transfer of DNA between 2 bacterial cells via direct contact
- Transformation = introduce DNA into bacteria from outside of its cell
- Transduction = viral transfer of DNA to bacteria

Question 24

What is electrophoresis?

Answer 24

Separation of nucleic acids by size
- Smaller molecules go farther than bigger molecules in the same amount of time
- Ex. SDS-PAGE

Question 25

What is transcriptome analysis?

Answer 25

• Why
  
  • To know how much gene expression has occurred at the mRNA level
  • Effect of disease on metabolic processor cellular processes
  • Response of cell to drug or other stimuli
• How
  
  • Gene expression microarrays
  • Next-gen sequencing using RNA sequencing