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Cellular transport
Energy and Enzymes
Cellular Respiration I
Cellular Respiration II
DNA replication
100

Which type of transport does not require energy and flows down the gradient?

A. Active Transport
B. Passive Transport
C. Bulk Transport
D. Secondary Active Transport

B. Passive Transport

100

I am trying to make maltose from glucose + glucose, what type of reaction would I need?

A. Anabolism, requires energy
B. Catabolism, releases energy
C. Anabolism, releases energy
D. Catabolism, requires energy

A. Anabolism, requires energy

100

What is the third step in cellular respiration?

A. Electrons transport chain
B. Citric acid cycle
C. Pyruvate oxidation
D. Glycolysis 


B. Citric acid cycle

100

What is the name of the step that happens before the citric acid cycle?

A. Electrons transport chain
B. Citric acid cycle
C. Pyruvate oxidation
D. Glycolysis

C. Pyruvate oxidation

100

The okazaki fragments need to be filled, which enzyme will fill that gap?

A. Helicase
B. Primase
C. Ligase
D. DNA Polymerase

C. Ligase

200

This is a type of passive transport that uses proteins embedded in the membrane to bring things into the cell

A. Facilitated Diffusion
B. Simple Diffusion
C. Primary active transport
D. Na+/K+ pump

A. Facilitated diffusion

200

Type of inhibition when an inhibitor binds to the active site of an enzyme

A. Feedback inhibition
B. Noncompetitive inhibition
C. Competitive inhibition
D. Allosteric




C. Competitive inhibition


200

Just oxidative phosphorylation produces ATP

A. True
B. False

B. False

200

Which of the following pathways creates NAD+ so that the cell can use it to keep glycolysis going? Select all that apply:

A. Citric acid cycle
B. Lactic acid fermentation
C. Pyruvate oxidation
D. Chemiosmosis
E. Alcohol fermentation

B. Lactic acid fermentation
E. Alcohol fermentation

200

DNA polymerase is making a strand that is going 5' to 3' away from the replication fork. Which strand is that?

A. Leading strand
B. Lagging strand
C. Okazaki strand
D. Replication bubble

B. Lagging strand

300

I place a cell in a solution that contains 15% NaCl (solute) & the cell has 10% NaCl, where will the water go? What type of solution is this?

The water will leave the cell because it is a hypertonic solution

300

I eat a thicc bowl of oatmeal, with that I create energy to power my metabolism

A. True
B. False

False - Energy cannot be created

300

Who is the one that was oxidized & who was reduced? LiH3  +  FH  =  LiH  +   FH3

Li was oxidized & F was reduced

300

Do we perform alcohol or lactic acid fermentation?

Lactic acid fermentation

300

Put the following enzymes in order when it comes to the process of DNA replication of the lagging strand.

-DNA Polymerase
-Helicase
-Ligase
-Primase

1. Helicase
2. Primase
3. DNA Polymerase
4. Ligase

400

What type of molecules can pass through the cell membrane easily?

A. Huuuuge charged molecules
B. Small, nonpolar molecules with a negative charge
C. Small, nonpolar molecules with no charge
D. Large, polar molecules with a charge

C. Small, Nonpolar, molecules with no charge

400

I have a reaction that releases energy, its reactants have a lot of potential energy while its products have little potential energy. Also, the change of free energy is negative. What type of reaction is this?

A. Endergonic
B. Exergonic
C. Dehydration
D. Hydrolysis 

B. Exergonic

400

All of these are the following products of the citric acid cycle except for:

A. Acetyl CoA
B. NADH
C. FADH2
D. CO2

A. Acetyl CoA

400

What are the outputs of the citric acid cycle when it goes through one cycle?

2 CO2, 1 ATP 1 FADH2, 3 NADH

400

What is needed for DNA Polymerase 3 to start making a strand? 

a) DNA primer

b) RNA primer

c) RNA primer and DNA primer

d) None of these

b) RNA primer

500

Name all types of active & passive transport

Passive:
Simple diffusion
Osmosis
Facilitated diffusion

Active:
Primary active transport
Secondary active transport

500

Sucrose binds to the enzyme sucrase, the enzyme converts sucrose into fructose & glucose. Based on the following example fructose is (a):

A. substrate

B. reactant

C. product 

D. catalyst  

C. product

500

Give all inputs & outputs from glycolysis, pyruvate oxidation, and just the outputs of a single cycle of citric acid cycle

Glycolysis -
Inputs: Glucose, 2 NAD+, 2 ADP
Outputs: Pyruvate, 2 NADH, 2 Net ATP

Pyruvate oxidation -
Inputs: Pyruvate, NAD+
Outputs: Acetyl CoA, NADH, CO2


500
Anaerobic respiration requires oxidative phosphorylation in order to produce ATP without oxygen. 


a) True

b) False

b) False

500


Explain the function of each enzyme

Helicase
Primase
Ligase
DNA Polymerase 1

DNA Polymerase 3
Single Stranded Binding Proteins



Helicase - Unwinds the double helix

Primase - Makes a short strand of RNA primer

Ligase - Seals the gaps
 
DNA Polymerase 3 - Adds the nucleotides to make a new DNA strand

DNA Polymerase 1 -Replaces RNA primer with DNA

Single Stranded Binding Proteins - Prevents the DNA from reforming the double helix