Exam 1

Question 1

What is the entity used to make DNA using a DNA template called?

Answer 1

DNA polymerase

Question 2

What is the entity used to make RNA using a DNA template called?

Answer 2

RNA polymerase

Question 3

What is the entity responsible for covalently linking amino acids to make proteins called?

Answer 3

Ribosome

Question 4

If the R group of an amino acid is a hydrocarbon, what will the amino acid will be classified as?

Answer 4

Hydrophobic

Question 5

Name the three neutral amino acids with R groups that contain hydroxyls (OH)

Answer 5

Serine, Threonine, Tyrosine

Question 6

If Cysteine is involved in cross-linking in proteins, what would happen to the sulfhydryl groups?

Answer 6

They would be oxidized

Question 7

When a peptide bond is formed, what is formed as a by-product?

Answer 7

Water

Question 8

The enzyme that is used in the laboratory to make cDNA by copying RNA is called:

Answer 8

Reverse Transcriptase

Question 9

If you wanted to follow the incorporation of radioactive phosphate (32P) from a nucleotide into a nucleic acid, at which position would you want to have the labeled phosphate on the free nucleotides?

Answer 9

5’ alpha

Question 10

If you wanted to follow the incorporation of radioactive phosphate (32P) from ATP into glucose to make glucose phosphate, at which position would you want to have the labeled phosphate on the ATP?

Answer 10

5’ gamma

Question 11

Why are zinc fingers important in cellular regulation?

Answer 11

Because they are a structural motif in many DNA-binding proteins

Question 12

Which type of interaction is likely to be the most important determinant of equilibrium constant in the interaction of two biological macromolecules?

Answer 12

Hydrophobic Interactions

Question 13

According to the Law of Mass Action, what happens if the concentration of molecules increases?

Answer 13

The ratio of combined to uncombined entities increases

Question 14

What are hydropathy plots used to predict?

Answer 14

They are used to predict the tertiary structure of proteins and to identfy functional homologs.

Bars above 0 are interior regions of the protein

Bars below 0 are exterior regions of the protein

Question 15

Which domain of a transcription factor interacts with an enhancer?

Answer 15

DNA binding domain

Question 16

What is the role of restriction enzymes?

Answer 16

To cut DNA at specific bp sequence

Question 17

How does the lexA/GAL4 domain swap protein activate transcription?

Answer 17

By binding to the lexA operator in enhancers

Question 18

What are the four major secondary structures?

Answer 18

1. ) alpha helix
2. ) beta-sheet
3. ) beta-turn
4. ) random coil

Question 19

Which type of bonds are used to stablilize beta-sheets?

Answer 19

Hydrogen bonds between C=O and NH

Question 20

Which amino acid is least likely to be found in alpha-helices?

Answer 20

Proline – it cannot form hydrogen bonds due to ring structure

Question 21

What are the Chou-Fasman Rules used for?

Answer 21

Predicting (not determining) secondary structure in proteins

Question 22

What is a reason why you might expect a hydrophobic portion of a protein to be on the outside of a protein rather than the inside?

Answer 22

1. ) If a portion of the protein is involved in an interaction with another macromolecule through hydrophobic interactions (i.e. Quaternary structure – protein-protein interactions)
2. ) If a protein spans a membrane

Question 23

What is Homology Modeling?

Answer 23

Constructing a model of a protein based on its known amino acid sequence and known 3D sequence of a related protein with similar function

Question 24

What are the 4 major types of weak chemical interactions?

Answer 24

1. ) Van Der Waals forces (1 kcal/mole)
2. ) Hydrogen bonds (1-7 kcal/mole)
3. ) Ionic bonds (5-10 kcal/mole)
4. ) Hydrophobic interactions (20-25 kcal/mole)

Question 25

What types of weak chemical interactions are responsible for Recognition and Specificity?

Answer 25

Van Der Waals, Hydrogen bonds, and Ionic bonds

Question 26

What type of weak chemical interaction is the driving force, or the most important consideration in the overall strength of interaction between 2 macromolecules?

Answer 26

Hydrophobic Interaction

Question 27

What are 4 structural features of DNA?

Answer 27

1. ) Plectonemic or Plexonemic
2. ) Anti-parallel Arrangement
3. ) Hydrogen Bonding
4. ) Base Stacking

Question 28

Why is G/C rich DNA more stable than A/T rich DNA?

Answer 28

1. ) Hydrophobic stacking interactions
2. ) There are 3 H-bonds between G/C pairs and only 2 H-bonds between A/T pairs

Question 29

Which form of DNA is the most common?

Answer 29

B-form DNA

Question 30

What are the two forces that destabalize the DNA double helix?

Answer 30

1. ) Heat
2. ) Negative charges on phosphate in backbone

Question 31

How does heat cause denaturation of DNA?

Answer 31

Thermal energy increases the mobility of molecules, tending to unwind the 2 DNA strands

Question 32

How do negative charges on the phosphate in the DNA backbone cause DNA denaturation?

Answer 32

The repulsive forces on the negatively charged phosphates on the DNA backbone tend to push the two DNA strands apart

Question 33

What is hyperchromicity?

Answer 33

The increase in absorbance of a material, such as when double stranded DNA denatures to single stranded DNA.

Question 34

What is Residual hyperchromicity?

Answer 34

The further increase in absorbance that occurs when single stranded DNA is broken up into nucleotides.

Question 35

What is meant by “relative absorbance”?

Answer 35

Ratios that apply to any DNA concentration

Question 36

Why is the Tm of GC-rich DNA higher than the Tm of AT-rich DNA?

Answer 36

Stacking interactions involving G and C are greater than those involving A and T

Question 37

How does salt stabilize the double helix?

Answer 37

The cations (+ charges) sheild the repulsive forces of the negatively charged phosphates (forces that tend to destabilize the helix)

Question 38

What are two factors that affect the Tm of DNA?

Answer 38

1. ) The amount of GC content
2. ) The monovalent cation concentration

Question 39

What are 2 ways to lower stringency?

Answer 39

Raising salt concentration and Decreasing temperature

Question 40

What does “Tm” stand for?

Answer 40

Thermal denaturation midpoint - It is the point at which the DNA is half double-stranded and half single-stranded

also referred to as melting temperature

Question 41

How do you determine the handedness of DNA?

Answer 41

Question 42

What causes torsional stress?

Answer 42

Overwinding or Underwinding in the primary coil

Question 43

What can relieve torsional stress due to overwinding?

Answer 43

Formation of supercoils in the opposite handedness of the primary coiling

Question 44

What can relieve torsional stress due to underwinding?

Answer 44

Formation of supercoils of the same handedness of the primary coiling

Question 45

What drives supercoiling?

Answer 45

Torsional Stress in the primary coil

Question 46

What are Topological Isomers (or Topoisomers)?

Answer 46

DNA molecules of identical sequence but different linking numbers

Question 47

What is a Linking Number?

Answer 47

The total number of times that 2 DNA strands cross over eachother in space

Question 48

What is the “Twist”?

Answer 48

A property of the primary helix – the number of times one srand crosses over the other in the primary helix

Question 49

What is the “Writhe”?

Answer 49

A number that represents the twisting of the axis of the double helix about itself in space (i.e. Supercoiling)

Question 50

What is the “Ideal Linking Number”?

Answer 50

1. ) Lowest Energetic State
2. ) Relaxed
3. ) No Writhe
4. ) Twist = 10 bp/turn

Question 51

When does Negative Torsional Stress occur?

Answer 51

When the linking number is lower than the ideal linking number

Question 52

What is a special sequence requirement in order for cruciforms to be formed?

Answer 52

Inverted Repeats

Question 53

What is a special sequence requirement for the formation of Z-DNA?

Answer 53

Alternation of purines and pyrimadines

Question 54

What are four ways of attaining optimal twist in torsionally stressed molecules?

Answer 54

1. ) Z-DNA
2. ) Supercoils
3. ) Cruciform
4. ) Some bp completely unwound

Question 55

What is the role of Type II Topoisomerases?

Answer 55

They make transient cuts in both strands of DNA and change linking numbers in increments of 2

Can: Introduce negative supercoils (ATP required)

Can: Relax positive or negative supercoils (no ATP required)

Question 56

What is the role of Type I Topoisomerases?

Answer 56

They make transient cuts in one strand of DNA and change linking numbers in increments of 1

can: relax positive or negative supercoils (no ATP required)

Question 57

How does Type II Isomerase “resolve” a positive supercoil?

Answer 57

By converting it to a negative supercoil and reducing the linking number by 2

Question 58

What is a Toroidal Supercoil?

Answer 58

A supercoil that occurs when DNA coils around another object but there is no apparent crossing of the DNA axis over itself as in normal supercoiling.

Left-handed toroidal supercoils are actually right-handed regular supercoils

Question 59

What are the signs for Twist and Writhe in accordance to Right-handed and Left-handed DNA?

Answer 59

Question 60

If a torsionally constrained B-form DNA molecule (without supercoils, cruciforms, unpaired regions or Z-DNA) is found to have a right-handed twist of 8 bp per turn, would the molecule be underwound, overwound or relaxed?

Answer 60

Overwound

Question 61

As RNA polymerase transcribes DNA, what happens to the DNA ahead of the polymerase and the DNA behind the polymerase?

Answer 61

The DNA ahead of the polymerase becomes overwound and the DNA behind the polymerase becomes underwound

Question 62

How can E. coli Gyrase (Topoisomerase II) introduce supercoils in relaxed DNA?

Answer 62

By untwisting the two DNA strands using the energy of ATP

Question 63

What is the difference between Southern Blots, Northern Blots, and Western Blots?

Answer 63

1. ) In Southern Blots, the molecule blotted is DNA
2. ) In Northern Blots, the molecule blotted is RNA
3. ) In Western Blots, proteins are blotted

Question 64

Which amino acids are most likely to be found in alpha-helices?

Answer 64

Glutamate, Alanine, and Leucine

Question 65

Which 2 amino acids are least likely to be found in alpha-helices?

Answer 65

Proline and Glycine

Question 66

What are the three types of domains in transcription factors?

Answer 66

1. ) Dimerization Domains (protein-protein interactions)
2. ) DNA-binding Domains (protein-DNA interactions)
3. ) Activation Domains (protein-protein interactions)

Question 67

How does GAL4 activate transcription?

Answer 67

By binding to UAS (upstream activating sites) in enhancers

Question 68

What does it mean when hybrids have “mismatches”?

Answer 68

“Mismatch” means that there are places where sequences are not perfectly complementary between two hybrids

Question 69

Explain what “hybridiziation with heterologous DNA” means

Answer 69

The process in which DNA-DNA hybrids are made when a strand of DNA from one source hybridizes with a DNA strand from another source

Question 70

What happens when you lower the temperature in a hybridization reaction?

Answer 70

It makes the hybrids more stable, therefore more forgiving of mismatches

Question 71

For what situation would it be necessary to use high stringency conditions?

Answer 71

If you want to isolate a specific gene within a gene family

Question 72

What 3 factors does light absorbance depend on?

Answer 72

1. ) The wavelength of light
2. ) The characteristics of the absorbing molecules
3. ) The concentration of the absorbing molecules