Bio Ch 5

Question 1

T/F The membrane is made up of phospholipids with hydrophilic heads and hydrophobic tails.

Answer 1

TRUE

Question 2

T/F The hydrophobic tails are oriented outward and the hydrophilic heads are oriented inward.

Answer 2

FALSE

Question 3

Select ALL the types of molecules that can easily enter and exit a semipermeable membrane. Nonpolar vs polar. small vs. large hydrophobic vs philic

Answer 3

Nonpolar, small, phobic

Question 4

Can polar or nonpolar substances easily pass through a semipermeable membrane?

Answer 4

Nonpolar

Question 5

What 3 things determine if a substance will pass through the selectively permeable plasma membrane?

Answer 5

Size, charge, polarity

Question 6

Choose ALL of the following that would pass easily through the cell membrane: glucose, O2, water, ions, CO2, small lipids, nonpolar amino acids, polar amino acids

Answer 6

O2, CO2, Small lipids, nonpolar amino acids

Question 7

Choose ALL of the following that would require a carrier protein or a channel to enter or leave the cell: glucose, O2, water, ions, CO2, small lipids, nonpolar amino acids, polar amino acids

Answer 7

glucose, water, ions, polar amino,

Question 8

Choose two substances which would move across the cell membrane using simple diffusion: glucose, water, O2, small lipid, polar amino acids

Answer 8

O2 and small lipids

Question 9

Choose two substances which would move across the cell membrane using facilitated diffusion: glucose, water, O2, small lipid, polar amino acids

Answer 9

Glucose and polar amino acids

Question 10

Ocean water would be _____ to tap water.

Answer 10

hypertonic

Question 11

Tap water would be _____ to ocean water

Answer 11

Hypotonic

Question 12

Solution A is a 25% glucose solution. Solution B is a 10% glucose solution. This means that Solution A is _____ to Solution B.

Answer 12

hypertonic

Question 13

t/f If a red blood cell was placed in a hypertonic solution, it would shrivel or crenate.

Answer 13

TRUE

Question 14

t/f If a red blood cell was placed in a hypotonic solution, it would shrivel or crenate.

Answer 14

FALSE

Question 15

If a plant cell was placed in an isotonic solution, it would be flaccid and will start to wilt.

Answer 15

TRUE

Question 16

Solution A is a 25% glucose solution. Solution B is a 10% glucose solution. This means that Solution B is _____ to Solution A.

Answer 16

Hypotonic

Question 17

Which substances use active transport? Small/nonpolar or large/polar

Answer 17

large/polar

Question 18

If a cell needs to bring in a very large bacterium, it would use:

Answer 18

phagocytosis

Question 19

T/f If a cell needs to move a large amount of fluid from outside to inside the cell, it would use phagocytosis.

Answer 19

FALSE

Question 20

Which of the following would leave the cell using exocytosis?

Answer 20

large waste products

Question 21

t/f Chemical energy is the kinetic energy of cells

Answer 21

FALSE

Question 22

Potential energy is stored energy.

Answer 22

TRUE

Question 23

Kinetic energy is defined as the energy of actual movement or doing work

Answer 23

TRUE

Question 24

The body going through normal metabolism will generate CO2, H2O, and give off heat. This is an example of the second law of thermodynamics.

Answer 24

TRUE

Question 25

Which of the following is an example of the first law of thermodynamics?
The heat and light given off by a fire as wood burns
The warmth of the hood of a car after being driven
The mitochondria using the potential energy of glucose to generate chemical energy stored in ATP

Answer 25

The mitochondria using the potential energy of glucose to generate chemical energy stored in ATP

Question 26

Which of the following is a measurement of disorder?

Answer 26

entropy

Question 27

Which of the following is an example of the second law of thermodynamics?
The heat and light given off by a fire as wood burns
The warmth of the hood of a car after being driven
The mitochondria using the potential energy of glucose to generate chemical energy stored in ATP

Answer 27

The warmth of the hood of a car after being driven

Question 28

t/f Photosynthesis is an example of an endergonic reaction:

CO2 + H2O + solar energy  C6H12O6 + O2

Answer 28

TRUE

Question 29

Is the formation of ATP from ADP an endergonic or exergonic reaction: ADP + P + energy  ATP

Answer 29

endergonic

Question 30

is hydrolysis catabolism or anabolism

Answer 30

catabolism

Question 31

is ADP + P + energy = ATP anabolism or catablism

Answer 31

Anabolism

Question 32

are endergonic reactions anablic or catabolic

Answer 32

anabolic

Question 33

Is CO2 + H2O + sunlight = glucsoe + O2 anabolic or catablic

Answer 33

Anabolic

Question 34

Is dehydration synthesis anabolic or catabolic

Answer 34

anabolic

Question 35

Is ATP = ADP + P + energy anabolic or catabolic

Answer 35

catabolic

Question 36

Is breaking down a polysaccharide into a monosaccharide anabolic or actabolic

Answer 36

catabolic

Question 37

Is burning wood anabolic or catabolic

Answer 37

catabolic

Question 38

Is photosynthesis anabolic or catabolic

Answer 38

anabolic

Question 39

Is making a protein out of amino acids anabolism or catabolism

Answer 39

anabolism

Question 40

Which of the following are components of ATP?

Answer 40

Adenine, ribose, phosphate

Question 41

The equation, ADP + P + energy  ATP, shows

Answer 41

Dehydration, anabolic, endergonic reaction

Question 42

T/f Every enzyme has certain conditions under which it functions best. Since most enzymes are proteins, they can be denatured.

Answer 42

TRUE

Question 43

t/f The reactant(s) in an enzymatic reaction is called the substrate.

Answer 43

TRUE

Question 44

Select ALL that is TRUE regarding enzymes.
They are substrate specific.
They can be used over and over again.
They cannot change shape.
Some enzymes refer acidic conditions, while others work best in basic conditions.
The substrate is not affected after the reaction is completed

Answer 44

They are substrate specific, They can be used over and over again. Some enzymes refer acidic conditions, while others work best in basic conditions.

Question 45

What is another name for a cell membrane?,

Answer 45

Plasma Membrane

Question 46

What does a cell membrane do?,

Answer 46

It forms a barrier around the cell to separate the cell’s contents from outside the cell.

Question 47

What 4 types of organic compounds make up the cell membrane?,

Answer 47

Phospholipids, Proteins, Carbohydrates, and Colesterol.

Question 48

What is the most abundant organic compound in the cell membrane?,

Answer 48

Phospholipids

Question 49

What is the main function of the plasma membrane?,

Answer 49

Regulating movement of material in and out of the cell.

Question 50

What does selective permeability mean?,

Answer 50

It means the membrane only lets through certain molecules, like small non polar molecules. This is because of the phospholipids that have hydrophilic heads and hydrophobic tails,

Question 51

Which of the following molecules would move easily through the plasma membrane? Sucrose, Cholesterol, Water, Fatty Acids, Na+, Bicarbonate Ion,

Answer 51

Fatty acids and Choleterol

Question 52

Which of the following molecules would NOT move easily through the plasma membrane? Sucrose, Cholesterol, Water, Fatty Acids, Na+, Bicarbonate Ion,

Answer 52

Sucrose, Water, Na+, and Bicarbonate Ion

Question 53

What are the 2 classifications of proteins in the plasma membrane?,

Answer 53

Transmembrane (Integral) and Peripheral.

Question 54

What are Transmembrane (Integral) Proteins?,

Answer 54

Proteins that are embedded into the bilayer and cross from the cytoplasm to outside the cell.

Question 55

What are Peripheral Proteins?,

Answer 55

Proteins that are not embedded into the membrane. but are bound to the cytoplasmic side of the cell membrane.

Question 56

What are the 3 types of membrane proteins?

Answer 56

Transport (Carrier and Channel), Emzymes, and Receptors.

Question 57

What is the function of transport (carrier and channel) membrane proteins?,

Answer 57

Transport Proteins allow molecules to selectively transfer through the plasma membrane.
Carrier: They bind with passenger molecules, change their shape, and release them on the other side. This is for travel of large polar molecules like glucose and amino acids.
Channel: They are small hydrophilic tunnels that allow ions and other small poler molecules to enter and exit the cell.

Question 58

What is the function of an Enzyme?,

Answer 58

To act as a catalyst for chemical reactions.

Question 59

What is the function of a receptor protein?,

Answer 59

They act as communication between the cell and its environment. They bind signalling molecules and relay a message by activating other molecules in the cell. They recieve molecules form outside the cell.

Question 60

What is the function of cholesterol in the plasma membrane?,

Answer 60

It maintains the structure and the fluidity of the cell membrane.

Question 61

What is a glycoprotein?,

Answer 61

A glycoprotein is a protein that is bonded with a carbohydrate. They function as cell to cell recognition, such as white blood cells recognizing infection.

Question 62

What is a glycolipid?,

Answer 62

A glycolipid is a lipid bonded with a carbohydrate. They maintain stability of the cell membrane.

Question 63

What is a concentration gradient?,

Answer 63

The difference in the amount of a particular substance inside and outside of a cell.

Question 64

Does passive transport require ATP?,

Answer 64

No.

Question 65

What directio do molecules move in passive transport?,

Answer 65

“Down the Gradient”, which means from High to Low concentration until equilibrium is reached between the 2 sides of the membrane.

Question 66

What is simple diffusion?,

Answer 66

A type of passive transport where molecules can easily pass through the membrane, down the gradient. These molecules are small nonpolar molecules.

Question 67

What are two examples of molecules that can easily diffuse across membranes?,

Answer 67

O2 and CO2.

Question 68

Why are large molecules, charged molecules, and polar molecules blocked from crossing?,

Answer 68

Because of their size and their inability to interact with the polar and nonpolar parts of the phospholipid bilayer.

Question 69

What is facilitated diffusion?,

Answer 69

A type of passive transport where channel and carrier proteins are used to help the transport of materials across the membrane.

Question 70

What types of molecules are transported across the membrane during facilitated diffusion?,

Answer 70

Small polar molecules, large polar molecules, and ions. H2O, Glucose, and Amino Acids.

Question 71

In facilitated diffusion, what type of molecules do the channels and carriers move?,

Answer 71

Carrier: Large polar molecules
Channel: Small Polar and Ions

Question 72

What is osmosis?,

Answer 72

The movement of water down its concentration gradient across the membrane.

Question 73

What are the special channels called where water travels?,

Answer 73

Aquaporins.

Question 74

Why can’t water pass through the plasma membrane?,

Answer 74

Because of the hydrophobic tails in the middle of the phospholipid bilayer.

Question 75

What is tonicity?,

Answer 75

An outside solution that causes a cell to lose or gain water.

Question 76

What area does water move towards to obtain equal concentrations inside and outside of the cell?,

Answer 76

It moves to a region with more solute particles and less water.

Question 77

What is a hypertonic solution?,

Answer 77

The extracellular solution is MORE cpncentrated than the cytoplasm. Water from the cell goes out of the cell and into the solution.

Question 78

What happens to the cell in a hypertonic solution?,

Answer 78

The cell shrinks. There is a lower amount of sodium chloride inside the cell.

Question 79

What is a hypotonic solution?,

Answer 79

The extracellular solution is LESS concentrated than the cytoplasm. Water from outside the cell goes inside the cell.

Question 80

What happens to the cell in a hypotonic solution?,

Answer 80

The cell swells, lyses, and bursts (hemolysis). There is less NaCl outside the cell and more H2O inside the cell.

Question 81

What is an isotinic solution?,

Answer 81

The extracellular solution is the SAME as the cytoplasm. Equal amounts of water moving in and out of the cell.

Question 82

What happens to the cell in an isotonic solution?,

Answer 82

Nothing, it stays the same.

Question 83

Would a plant prefer to recieve water that is hypotonic, hypertonic, or isotonic?,

Answer 83

Hypotonic, so it can remain turgid (swollen).

Question 84

Would a dog prefer to revieve water that is hypotonic, hypertonic, or isotonic?,

Answer 84

Isotonic.

Question 85

What is active transport?,

Answer 85

Movement of molecules up the gradient, requires energy.

Question 86

What direction do molecules move in active transport?,

Answer 86

From low to high concentration.

Question 87

Does active transport require ATP?,

Answer 87

Yes.

Question 88

What substances use active transport?,

Answer 88

Large polar substances.

Question 89

What is an example of active transport?,

Answer 89

Na+K+ pump.

Question 90

What are sodium-potassium pumps?,

Answer 90

They are transmembrane proteins that use active transport to move sodium and potassium across the membrane.

Question 91

___ is pumped out of the cell in exchange for pumping ___ into the cell.,

Answer 91

Na+, K+.

Question 92

Describe what a Na+K+ pump does in your own words.,

Answer 92

Pumps Na+ out of the cell and K+ into the cell to maintain balance of ions for the cell to continue functioning.

Question 93

Would you expect a higher or lower concentration of sodium inside the cell? Outside?,

Answer 93

Lower inside, higher outside.

Question 94

Would you expect a higher or lower concentration of potassium inside the cell? Outside?,

Answer 94

Higher inside, lower outside.

Question 95

What is bulk transport?,

Answer 95

What cells use to move large molecules or volumes across membranes.

Question 96

What is endocytosis?,

Answer 96

When a cell takes in large amounts of molecules.

Question 97

What types of substances are moved across the membrane during endocytosis?,

Answer 97

Large particles and fluids.

Question 98

Does endocytosis need energy?,

Answer 98

Yes.

Question 99

What are the 3 types of endocytosis?,

Answer 99

Phagocytosis, Pinocytosis, and Receptor-Mediated cytosis.

Question 100

What is phagocytosis?,

Answer 100

Cell “eating”. When a food vacuole takes food from the outside, engulfs it, and breaks it down. Ex) White blood cells digesting bacteria and infection.

Question 101

What is pinocytosis?,

Answer 101

Cell “drinking”. Drinking extra cellular fluid and packaging it into vesicles to be used.

Question 102

What is receptor-mediated endocytosis?,

Answer 102

When specific molecules are taken in. Moving in specific molecules with vesicles containing proteins with receptor sites specific to the molecules being taken in.

Question 103

What types of substances are moved across the membrane during phagocytosis?,

Answer 103

Large molecules like proteins, dead cells, and debri.

Question 104

What types of substances are moved across the membrane during pinocytosis?,

Answer 104

Small droplets of fluid with the dissolved substances (nutrients, ions, and small proteins).

Question 105

What types of substances are moved across the membrane during receptor mediated endocytosis?,

Answer 105

Specific molecules.

Question 106

What is exocytosis?,

Answer 106

Moving large substances or volumes such as wastes OUTSIDE of the cell.

Question 107

How are substances packaged up to be transported out of the cell?,

Answer 107

They are packaged into membrane bound vesicles that move to the cell membrane, fuse with it, and then release their content into the extracellular space.

Question 108

Where do these substances come from?,

Answer 108

They originate from the nuclear envelope and move through the golgi, the rough ER, act and are synthesized, processed, and sorted into vesicles to then be taken out of the cell.

Question 109

What types of substances are transported via exocytosis?,

Answer 109

Bulky molecules like proteins and polysaccharides.

Question 110

What is energy?,

Answer 110

The ability to do work.

Question 111

How do cells use energy?,

Answer 111

They transform energy from one form to another so the cell can perform work. Ex) chemical energy in ATP is converted into movement.

Question 112

What is kinetic energy?,

Answer 112

This is energy that something has while in motion.

Question 113

What is potential energy?,

Answer 113

Stored energy as a result of location or structure.

Question 114

What is chemical energy?,

Answer 114

When potential energy is released. Potential energy stored within chemical bonds.

Question 115

What is the ultimate source of energy on earth?,

Answer 115

The sun.

Question 116

What are the laws of thermodynamics?,

Answer 116

Study of energy from one type to another.

Question 117

What is the 1st law of thermodynamics?,

Answer 117

Energy in the universe is constant, the amount doesn’t change. Energy can’t be created or destroyed, it can only be transformed or transferred.

Question 118

What is the 2nd law of thermodynamics?,

Answer 118

Entropy: Disorder/Randomness of molecules. Heat is energy that is lost and in an unusable form.

Question 119

What is entropy?,

Answer 119

Measure of disorder or randomness.

Question 120

Cells constantly rearrange their cellular contents. How does this relate to the laws of thermodynamics?,

Answer 120

Because the cells are transforming energy to carry out these functions, which relates to the 1st law.

Question 121

Many animals can regulate their body temperature and give off body heat. Is this an example of the 1st or the 2nd law of thermodynamics?,

Answer 121

2nd law.

Question 122

Plants can utilize photosynthesis to capture solar energy (from sunlight) to produce chemical energy (stored as glucose). Is this an example of the 1st or 2nd law of thermodynamics?,

Answer 122

1st law.

Question 123

What does ATP stand for?,

Answer 123

Adenosine Triphosphate

Question 124

What is ATP?,

Answer 124

It is the storage form of energy that powers most forms of cellular work. When the ATP molecule is split, it releases the energy.

Question 125

What are the three chemical components of ATP?,

Answer 125

Adenine, Ribose, and 3 phosphate group.

Question 126

What is the equation for the hydrolysis of ATP?,

Answer 126

ATP → ADP + P + Energy

Question 127

What is the equation for the synthesis of ATP?,

Answer 127

ATP ← ADP + P + Energy

Question 128

What are the 2 types of chemical reactions?,

Answer 128

Endergonic and Exergonic.

Question 129

What is an Endergonic reaction?,

Answer 129

A reaction that absorbs and stores energy. They take lower potential energy reactants and turn them into high potential energy products. There must be an INPUT of energy.

Question 130

What is an example of an endergonic reaction?,

Answer 130

Photosynthesis

Question 131

Which way does potential energy move in endergonic reactions?,

Answer 131

From low potential energy to high.

Question 132

What is an Exergonic reaction?,

Answer 132

A reaction that releases energy.

Question 133

What is an example of an exergonic reaction?,

Answer 133

Cellular resperation.

Question 134

Which way does potential energy move in exergonic reactions?,

Answer 134

From high potential energy to low.

Question 135

Is the breakdown of ATP endergonic or exergonic?,

Answer 135

Exergonic.

Question 136

Is the formation of ATP endergonic or exergonic?,

Answer 136

Endergonic.

Question 137

Explain why combustion reactions (burning) are exergonic.,

Answer 137

Because it releases heat, and it deson’t need outside energy to happen.

Question 138

Explain why photosynthesis is an endergonic reaction.,

Answer 138

Because it requires the input of sunlight to start the reactoin.

Question 139

What are the 2 types of metabolic chemical reactions?,

Answer 139

Anabolism and Catabolism.

Question 140

What is anabolism?,

Answer 140

Building up complex molecules (photosynthesis).

Question 141

What is catabolism?,

Answer 141

Breaking down complex molecules (cellular respiration).

Question 142

Which type of reaction would include dehydration synthesis?,

Answer 142

Anabolic.

Question 143

Which type of reaction would include hydrolysis?,

Answer 143

Catabolic.

Question 144

Are anabolic reactions endergonic or exergonic?,

Answer 144

Endergonic.

Question 145

Are catabolic reactions endergonic or exergonic?,

Answer 145

Exergonic.

Question 146

Give an example of an anabolic and a catabolic reaction inside a cell.,

Answer 146

Anabolic: Photosynthesis.
Catabolic: Cellular Respiration.

Question 147

What are enzymes?,

Answer 147

A catalyst for chemical reactions. They speed up the process by lowering the amount of activation energy.

Question 148

What is activation energy?,

Answer 148

It is the initial energy input of a chemical reaction. Think of it like a barrier for the start.

Question 149

What is a substrate? How does the enzyme convert the substrate into products?.

Answer 149

Substrates are the reactants. The enzyme has a space where they lock in on the active site. They bond together and the enzyme then stretches the bond to proceed in the chemical reaction. The enzyme then breaks it into products.

Question 150

Are enzymes substrate specific?,

Answer 150

Yes.

Question 151

What temperature and pH do most human enzymes function best at?,

Answer 151

98.6°F and a pH of 7.4

Question 152

Can enzymes be denatured? Why or why not?,

Answer 152

Yes, because they work in specific conditions for different enzymes.

Question 153

How would a change in temperature and pH influence enzyme function?

Answer 153

Temperature: High temperatures cause an enzyme to have a higher reaction rate until they eventually denature.
pH: Digestive enzymes can’t function in a high pH.

Question 154

Explain why cells need cell membranes

Answer 154

to help the cell keep their shape and act as a barrier from the surroundings

Question 155

What is teh composition of the plasma membrane

Answer 155

Phospholipids, Proteins, Carbohydrates, and Cholesterol.

Question 156

Define the term ‘selective permeability’

Answer 156

only certain things are allowed to pass through the membrane

Question 157

Name and describe the structure and function of the glycoproteins and glycoplipids

Answer 157

Glycoprotein: Protein + Carb, responsible for cell recognition
Glycolipid: lipid + carb, helps with stability

Question 158

what are the two types of diffusion

Answer 158

simple (passive) and facilitated

Question 159

Describe the process of diffusion including: Concentrated gradient, passive transport, and an example

Answer 159

The transport of different molecules through the membrane. Moves from high to low concentration gradient meaning it is passive and does not require energy. An example would be breathing

Question 160

Compare/Contrast Diffusion to osmoisis

Answer 160

osmosis deals with water and its movement via aquaporins while difffusion works with molecuels passage through the memebrane

Question 161

How has the highest amount of solute: Hyper, hypo, iso

Answer 161

Hyper

Question 162

What happens when a human cell is in an isotonic solution? Hyper? Hypo?

Answer 162

Iso: nothing
Hyper: shrivels
Hypo: Swells and lyses

Question 163

Difine osmoregulation

Answer 163

regulation of osmotic pressure hwich helps maintain water balance and electrolyte concentration.

Question 164

Why are transport proteins needed in the plasma membrane

Answer 164

To help molecules travel through the membrane that otherwise couldn’t such as: water, ions, amino acids, and glucose

Question 165

Describe facilitated diffusion. does it require atp?

Answer 165

channel and carirer proteins are used to facilitate the transport of material without ATP. They don’t need ATP since the proteins are in the membrane

Question 166

Describe active diffusion. does it require atp?

Answer 166

Moves substances up the concentration gradient and therefore needs atp

Question 167

When do cells use endocystosis and exocytosis

Answer 167

for bulk transport in (endo) and out (exo) of the cell

Question 168

Define Kenetic energy, potential energy, chemical energy

Answer 168

KE: Motion (Heat)
PE: Stored energy
CE: PE released

Question 169

What are the first 2 laws of thermodynamics

Answer 169

1: energy is neither created or destroyed, just reused
2: Entropy, randomness of particles and energy lost as heat

Question 170

For endogonic/exogonic reactions, how do the reactions start? do the products have more or less energy than the reactants? anabolic/catabolic examples of each

Answer 170

Energonic: absorb/store energy. Takes lower potential energy reactants and make high potential energy. anabolic (builds).photosyntensis
Exogonic: release energy, high potential energy reactants beome low potential energy products. catabolic (breakdown). cellular respiration

Question 171

Is the building of amino acids an anabolic or catabolic

Answer 171

anabolic

Question 172

What is atp? why is it important? what is its structure?

Answer 172

atp is the storage form of energy that powers the cell. It is made of adenine, ribose, and 3 phosphate groups

Question 173

Enzymes speed up chemical reactions by lowering activation energy. what does this statement mean? define energy of activation

Answer 173

an enzyme is a catalyst for cemical energy, lowering the amount of energy required for a reation to take place (acttivation energy)

Question 174

How does an enzyme act as a catalyst for a reaction

Answer 174

it speeds up the chemical reaction by lowering the activation energy

Question 175

how can the environment affect enzyme activity?

Answer 175

if an ezyme becomes too hot/cold or is in an unfitting pH, it will denature and not work.

Question 176

what can denature enzymes

Answer 176

heat and pH change