Pre-AP Biology

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UNIT 2: Cells

Chapter 4: Cells and Energy

I. Chemical Energy and ATP (4.1)

A. The chemical energy used for most cell

processes is carried by ATP

1. All carbon-based molecules in food

store chemical energy in their bonds

a. Carbohydrates and lipids most important

energy sources.

b. Energy comes from food indirectly

2. All cells use energy carried by ATP

a. ATP (adenosine triphosphate) is molecule

that transfers energy from breakdown of

food

b. ATP carries energy cells can use

c. Used for building molecules, moving

materials by active transport, etc.

3. Energy of ATP released when phosphate

group is removed

a. Bond holding third phosphate group is

unstable and very easily broken

b. When loses 3rd phosphate group, ATP become

ADP (adenosine diphosphate)

1). ADP is a lower energy molecule than ATP

2). Can be converted back into ATP with

addition of energy (adding phosphate

group)

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3). The breakdown of ATP to ADP and production

of ATP from ADP can be represented by cycle.

4). This requires complex group of proteins to help.

The most important energy storing

compound is ATP

A P P P ATP

A P P P ADP

+P

Energy

B. Organisms break down carbon-based

molecules to produce ATP

1. Food you eat does not contain ATP

a. Food must first be digested (break

down into smaller molecules)

b. Foods provide different amounts of

energy (calories)

2. Number of ATP molecules depends on type of

molecule broken down (Carbohydrate, Protein,

lipid)

a. Carbohydrates most commonly broken down to

make ATP

b. Break down of glucose yields 36 molecules of

ATP

3. Fats store about 80% of energy in your body

a. When broken down, yield the most ATP

b. A typical triglyceride yields about 146

molecules of ATP

4. Proteins have about as much ATP as

carbohydrates

a. Less likely to be broken down

b. Amino acids needed to build new

proteins

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5. Plants also need ATP

a. Plants do not eat to obtain energy

b. Use energy produced by photosynthesis

(make sugars from sunlight)

C. A few types of organisms do not need sunlight

and photosynthesis as a source of energy

1. Some organisms use chemosnythesis to

produce energy (sugars)

2. Used by organisms in hydrothermal

vents (deep ocean)

II. Overview of Photosynthesis (4.2)

A. Photosynthetic organisms are producers

1. Producers make their own source of

chemical energy

2. Plants use photosynthesis and are producers

a. photosynthesis is process

that captures energy from

sunlight to make sugars that

storechemical energy

b. Uses visible light made up of several colors

(wavelengths) of light.

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1). Plants use molecule in chloroplast called

chlorophyll

2). Two main types of chlorophyll

a. Chlorophyll a and chlorophyll b

b. Absorb mostly red and blue wavelengths.

c. Plants appear

green because

reflect green light (not

absorbed)

B. Photosynthesis in plants occurs in chloroplasts

1. Most of chloroplast are in leaf cells

2. Two main parts of chloroplasts needed for

photosynthesis

a. Grana- stacks of coin-shaped, membrane-

enclosed compartments called thylakoids.

b. Membrane in thylakoids contain

chlorophyll

c. Stroma is the fluid that surrounds grana

C. Photosynthesis occurs in two main stages

1. Light-dependent reactions (capture

energy from sunlight)

a. Occurs within and

across membrane of

thylakoids

b. Water and sunlight

are needed.

c. Light dependent reactions

1). Chlorophyll absorbs energy from

sunlight. (photosystem)

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2). Energy transferred along thylakoid

membrane.

3). H2O molecules broken down.

4). Oxygen molecules produced

3). H2O molecules broken down.

4). Oxygen molecules produced

2. Light independent reactions (uses energy

produced from light-dependent reactions)

a. Occur in the stroma of chloroplasts

b. CO2 needed

1). CO2 added to cycle to build larger

molecules (Calvin cycle)

2). Energy from light dependent reactions is

used

3). Molecule of simple sugar is produced

(usually glucose C6H12O6)

3. Equation for whole photosynthetic process

6CO2 + 6H2O → →→→→C6H12O6 + 6O2

Light, enzymes

CO2

Glucose

Light

dependent

Reactions

Calvin

cycle

O2

ATP

NADPH

ADP

NADP

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Mesophyll

Stomata

Vacuole

Chloroplast

Thylakoid

Stroma

Granum

D. Functions of Photosynthesis

1. Plant produce food for themselves and

other organisms

2. Animals use

oxygen produced by

photosynthesis in

cellular respiration

(released stored

energy)

3. It provides materials

for plant growth and

development (simple

sugars bonded together

to form carbohydrates

like starch and

cellulose)

4. Regulates Earth’s environment (removes

carbon dioxide from Earth’s atmosphere)

Organisms, such as plants,

that make their own food

are called

a. autotrophs.

b. heterotrophs.

c. thylakoids.

d. pigments.

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Organisms that cannot

make their own food and

must obtain energy from

the foods they eat are

called

a. autotrophs.

b. heterotrophs.

c. thylakoids.

d. plants.

Which of the following is an

autotroph?

a. mushroom

b. dog

c. monkey

d. tree

What are the three parts of an ATP

molecule?

a. adenine, thylakoids, stroma

b. stroma, grana, chlorophyll

c. adenine, ribose, phosphate

d. NADH, NADPH, and FADH2

Energy is released from ATP when

a. a phosphate group is added.

b. adenine bonds to ribose.

c. ATP is exposed to sunlight.

d. a phosphate group is removed.

Jan van Helmont concluded that

plants gain most of their mass from

a. water.

b. the soil.

c. carbon dioxide in the air.

d. oxygen in the air.

Ingenhousz showed that plants

produce oxygen bubbles when

exposed to

a. ATP.

b. carbon dioxide.

c. light.

d. a burning candle.

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Photosynthesis uses sunlight to convert water

and carbon dioxide into

a. oxygen.

b. high-energy sugars.

c. ATP and oxygen.

d. oxygen and high-energy sugars.

In the overall equation for photosynthesis, six

molecules of carbon dioxide result in six

molecules of

a. glucose.

b. water.

c. oxygen.

d. ATP.

Plants gather the sun's energy with light-

absorbing molecules called

a. pigments.

b. thylakoids.

c. chloroplasts.

d. glucose.

Plants take in the sun's energy by absorbing

a. high-energy sugars.

b. chlorophyll a.

c. chlorophyll b.

d. sunlight.

Most plants appear green because

chlorophyll

a. does not absorb green light.

b. reflects violet light.

c. absorbs green light.

d. none of these

Where do the light-dependent reactions take

place?

a. in the stroma

b. outside the chloroplasts

c. in the thylakoid membranes

d. only in chlorophyll molecules

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What are the products of the light-

dependent reactions?

a. oxygen gas

b. ATP

c. NADPH

d. all of these

The Calvin cycle is another name for

a. light-independent reactions.

b. light-dependent reactions.

c. photosynthesis.

d. all of these

The Calvin cycle takes place in the

a. stroma.

b. photosystems.

c. thylakoid membranes.

d. chlorophyll molecules.

If carbon dioxide is removed from a plant's environment,

what would you expect to happen to its production of

high-energy sugars?

a. More sugars will be produced.

b. Fewer sugars will be produced.

c. The same number of sugars will be produced but

without carbon dioxide.

d. Carbon dioxide does not affect the production of

high-energy sugars in plants.

Which of the following affects the rate of

photosynthesis?

a. water

b. temperature

c. light intensity

d. all of these

Which of the graphs

represents the effect of

temperature on the rate

of photosynthesis?

a. A

b. B

c. C

d. D

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Which of the graphs in

Figure 8-2 represents

the effect of temperature

on the rate of

photosynthesis?

a. A

b. B

c. C

d. D

Which of the graphs

represents the effect of light

intensity on the rate of

photosynthesis?

a. A

b. B

c. C

d. D

Which wavelength of light is absorbed the most

according to the graph below? (use solid line)

Which wavelength of light is reflected the most?

III. Overview of Cellular Respiration (4.4)

A. Cellular respiration makes ATP by

breaking down sugars and other carbon-

based molecules to make ATP

1. Cellular respiration is

aerobic (requires

oxygen)

2. Takes place in

mitochondria

(cell“powerhouse”)

B. Process starts with Glycolysis (means “glucose

breaking”)

1. 6-carbon glucose broken into two 3-

carbon molecules of pyruvic acid

2. Produces 2 molecules of ATP (makes 4,

but uses 2 ATP = net of 2 ATP)

3. anaerobic process (does not require oxygen)

4. Takes place in cytoplasm

5. Products of glycolysis used in respiration process.

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C. Cellular respiration is like mirror image of

photosynthesis

1. Chemical equation for cellular respiration

is basically the reverse of that for

photosynthesis

2. Structures in chloroplast and

mitochondria are similar

6CO2 + 6H2O → →→→→C6H12O6 + 6O2

C6H12O6 + 6O2 → →→→6CO2 + 6H2O

D. Cellular Respiration takes place in two main

stages

1. Krebs cycle- takes

place in interior space

of mitochondria.

a. 3-carbon molecules produced in glycolysis

are broken down in a cycle of chemical reactions

b. Carbon dioxide is

given off (CO2)

c. Energy produced

is transferred to 2nd

stage (energy in the

form of ATP and

other “charged”

molecules- NADH

and FADH2)

2. Electron Transport Chain-

a. Takes place in inner

membrane

b. Energy transferred to

electron transport chain

Electron Transport Chain Intermembrane space

Matrix

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Electron Tranport Chain:

ATP Synthesis

32 ATP

c. Oxygen enters process and picks up electrons

and hydrogen to make H2O (water)

d. ATP produced (34 to 36 molecules) for a total

of 36 to 38 including glycolysis

e. Many enzymes required for process

2 2 32

E. Overall equation of cellular respiration

C6H12O6 + 6O2 → →→→6CO2 + 6H2O

F. Comparing Photosynthesis and Cellular

Respiration (reactants of photosynthesis are same

as products of cellular respiration)

IV. Fermentation (4.6)

A. Fermentation allows glycolysis to continue

1. Fermentation allows glycolysis to

continue making ATP when oxygen is

unavailable

2. Fermentation is an anaerobic process

a. Occurs when oxygen not

available for cellular

respiration

b. Does not produce ATP

3. NAD+ is recycled to glycolysis

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B. Lactic Acid fermentation- occurs in muscle

cells

1. Glycolysis splits glucose into two

pyruvate molecules

2. Pyruvate and NADH enter fermentation

3. Energy from NADH converts pyruvate into

lactic acid

4. NADH is changed back into NAD+

C. Alcoholic fermentation- similar to lactic acid

fermentation

1. Products of alcoholic

fermentation include

cheese, bread, yogurt

2. Glycolysis splits

glucose and products

enter fermentation

3. Energy from NADH is used to spit pyruvate into

an alcohol and carbon dioxide

4. NADH is changed back into NAD+

5. NAD+ is recycled to glycolysis

Energy and Exercise

Quick Energy

•Cells contain only enough ATP for a few

seconds of intense activity

•Then cells rely on lactic acid fermentation (can

supply for about 90 seconds)

•Lactic acid build-up causes burning in muscles.

Only way to get rid of lactic acid is chemical

pathway that requires oxygen (why you breathe

heavy after heavy excercise.)

Long Term Energy

•Cellular respiration only way to produce

continuous supply of ATP

•Energy stored in muscles and other tissue in

form of carbohydrate glycogen

•Enough glycogen for about 15 to 20 min.

•When glycogen used up, body breaks down

other stored molecules including fats, for

energy.

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A variety of organic

molecules can be

utilized to produce

energy. These

molecules enter the

Krebs cycle different

stages.

Cellular Respiration

Which of the following is the correct sequence of

events in cellular respiration?

a. glycolysis fermentation Krebs cycle

b. Krebs cycle electron transport glycolysis

c. glycolysis Krebs cycle electron transport

d. Krebs cycle glycolysis electron transport

Which of the following is

released during cellular

respiration?

a. oxygen

b. air

c. energy

d. lactic acid

Cellular respiration uses one molecule

of glucose to produce

a. 2 ATP molecules.

b. 34 ATP molecules.

c. 36 ATP molecules.

d. 38 ATP molecules.

What is the correct equation for cellular respiration?

a. 6O2 + C6H12O6 6CO2 + 6H2O + Energy

b. 6O2 + C6H12O6 + Energy 6CO2 + 6H2O

c. 6CO2 + 6H2O 6O2 + C6H12O6 + Energy

d. 6CO2 + 6H2O + Energy 6O2 + C6H12O6

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Cellular respiration

releases energy by

breaking down

a. food molecules.

b. ATP.

c. carbon dioxide.

d. water.

Which of these processes takes place in

the cytoplasm of a cell?

a. glycolysis

b. electron transport

c. Krebs cycle

d. all of the above

Glycolysis provides a cell with a net gain of

a. 2 ATP molecules.

b. 4 ATP molecules.

c. 18 ATP molecules.

d. 36 ATP molecules.

The starting molecule for glycolysis is

a. ADP.

b. pyruvic acid.

c. citric acid.

d. glucose.

Lactic acid fermentation occurs in

a. bread dough.

b. any environment containing oxygen.

c. muscle cells.

d. mitochondria.

The two main types of fermentation are

called

a. alcoholic and aerobic.

b. aerobic and anaerobic.

c. alcoholic and lactic acid.

d. lactic acid and anaerobic.

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One cause of muscle soreness is

a. alcoholic fermentation.

b. glycolysis.

c. lactic acid fermentation.

d. the Krebs cycle.

Milk is converted to yogurt under certain

conditions when the microorganisms in the milk

produce acid. Which of these processes would

you expect to be key in the production of

yogurt?

a. the Krebs cycle

b. photosynthesis

c. alcoholic fermentation

d. lactic acid fermentation

Cellular respiration is called an aerobic

process because it requires

a. light.

b. exercise.

c. oxygen.

d. glucose.

In eukaryotes, electron transport occurs in

the

a. mitochondria.

b. chloroplasts.

c. cell membrane.

d. cytoplasm.

The energy of the electrons passing along the

electron transport chain are used to make

a. lactic acid.

b. citric acid.

c. alcohol.

d. ATP.

Which process does NOT release energy

from glucose?

a. glycolysis

b. photosynthesis

c. fermentation

d. cellular respiration

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Photosynthesis is to chloroplasts as

cellular respiration is to

a. chloroplasts.

b. cytoplasm.

c. mitochondria.

d. nucleus.

Unlike photosynthesis, cellular respiration

occurs in

a. animal cells only.

b. plant cells only.

c. all but plant cells.

d. all eukaryotic cells.

The products of photosynthesis are the

a. products of cellular respiration.

b. reactants of cellular respiration.

c. products of glycolysis.

d. reactants of fermentation.