Chapter 3 Lecture - Cellular Form and Function

Question 1

True or false: All organisms are composed of cells

Answer 1

True

Question 2

____ are responsible for all structural and functional properties of a living organism

Answer 2

Cells

Question 3

Understanding cells is the key to understanding what three things?

Answer 3

Workings of human body
Mechanisms of disease
Rationale of therapy

Question 4

What are the 5 components of cell theory?

Answer 4

1) All organisms composed of cells and cell products
2) Cell is the simplest structural and functional unit of life
3) An organism’s structure and functions are due to activities of cells
4) Cells come only from preexisting cells
5) Cells of all species exhibit biochemical similarities

Question 5

How many types of cells are there in the human body?

Answer 5

About 200 different types

Question 6

What does the plasma (cell) membrane do and what is it made up of?

Answer 6

It surrounds cell and defines boundaries. Made of proteins and lipids

Question 7

What 4 things are included in the cytoplasm?

Answer 7

1) Organelles
2) Cytoskeleton
3) Inclusions (stored or foreign particles)
4) Cytosol (intracellular fluid, ICF)

Question 8

True or false: extracellular fluid (ECF) is one of the basic components of a cell

Answer 8

True

Question 9

Define organelle

Answer 9

Internal structures of a cell that carry out specialized metabolic tasks

Question 10

What’s the difference between cytoplasm and cytosol?

Answer 10

Cytoplasm contains the organelles; cytosol does not.

Question 11

How is the plasma membrane arranged?

Answer 11

In a bilayer

Question 12

What is the border of the cell?

Answer 12

The plasma membrane

Question 13

Name 3 functions of the plasma membrane

Answer 13

1) Defines cell boundaries
2) Governs interactions with other cells
3) Controls passage of materials in and out of cell

Question 14

__% of membrane molecules are lipids

Answer 14

98%

Question 15

What are the 3 most abundant membrane lipids?

Answer 15

Phospholipids (75% of membrane lipids), cholesterol (20%), and glycolipids (5%)

Question 16

What does the membrane lipid cholesterol do?

Answer 16

Holds phospholipids still and can stiffen the membrane

Question 17

What are glycolipids?

Answer 17

Phospholipids with short carbohydrate chains on extracellular face. A type of membrane lipid.

Question 18

Membrane proteins make up __% of the molecules but __% of the weight of membrane

Answer 18

2% of the molecules but 50% of the weight of membrane

Question 19

What are the two basic types of membrane proteins, and where are they located?

Answer 19

Integral proteins—penetrate membrane

Peripheral proteins – on the surface of membrane

Question 20

What is one type of integral protein?

Answer 20

Transmembrane proteins

Question 21

________ proteins contain both hydrophilic and hydrophobic regions

Answer 21

Transmembrane

Question 22

Where are transmembrane proteins located?

Answer 22

Some drift in membrane; others are anchored to cytoskeleton

Question 23

Describe peripheral proteins

Answer 23

• Adhere to one face of the membrane (do not penetrate it)

- Usually tied to the cytoskeleton and an integral protein.

Question 24

What are some examples of the functions of membrane proteins?

Answer 24

Receptors, enzymes, channels, carriers, cell-identity markers, cell-adhesion molecules, etc

Question 25

What is the glycoalyx? What is it made up of?

Answer 25

It’s a fuzzy coat external to plasma membrane, and made up of glycoproteins and glycolipids

Question 26

_______ is unique in everyone but identical twins

Answer 26

Glycocalyx

Question 27

What does the glycocalyx do?

Answer 27

It helps with protection, immunity to infection, defense against cancer, transplant compatibility, cell adhesion, fertilization, and embryonic development

Question 28

True or false: Some channel proteins are always open, but others are gated

Answer 28

True

Question 29

What are channel proteins needed for?

Answer 29

They’re crucial to nerve and muscle function

Question 30

What are 3 different types of channel proteins?

Answer 30

Ligand-gated channels, voltage gated channels, and mechanically-gated channels

Question 31

Ligand-gated channels respond to _____

Answer 31

chemical messengers

Question 32

Voltage-gated channels respond to ____

Answer 32

charge changes

Question 33

Mechanically-gated channels respond to ____

Answer 33

physical stress on the cell

Question 34

What is an example of a stretch receptor?

Answer 34

Mechanically-gated channels

Question 35

Give an example of chemical messengers for ligand-gated channels

Answer 35

Neurotransmitters

Question 36

Microvilli are best developed in cells specialized in _____

Answer 36

absorption

Question 37

What are microvilli?

Answer 37

Extensions of the membrane that gives 15 to 40 times more surface area

Question 38

How big are microvilli?

Answer 38

1-2μm

Question 39

What is it called when microvilli are very dense and appear as a fringe?

Answer 39

Brush border

Question 40

What are cilia?

Answer 40

Hair-like processes that are 7–10 μm long

Question 41

What is one type of cilia?

Answer 41

Motile cilia

Question 42

____ cilia are found in the respiratory tract, uterine tubes, ventricles of brain, ducts of testes

Answer 42

Motile cilia

Question 43

What do cilia do?

Answer 43

Beat in waves sweeping material across a surface in one direction

Question 44

True or false: the flagellum of sperm is the only functioning flagella in humans

Answer 44

True

Question 45

Describe the structure and movement of flagella

Answer 45

They have a whip-like structure and are much longer than cilium.
Their movement is undulating, snake-like, corkscrew; no power stroke and recovery strokes

Question 46

What are pseudopods?

Answer 46

Continually changing extensions of the cell that vary in shape and size

Question 47

What can pseudopods do?

Answer 47

They can be used for cellular locomotion or capturing foreign particles

Question 48

The plasma membrane is selectively permeable. What does this mean?

Answer 48

It allows some things through, but prevents others from passing

Question 49

Which of the following mechanisms consume ATP?:

a) passive transport
b) active transport
c) both active and passive transport

Answer 49

b) active transport

Question 50

What does passive transport not require any of the cell’s energy?

Answer 50

Random molecular motion of particles provides necessary energy

Question 51

Is membrane transport a type of passive or active transport?

Answer 51

It can be either passive or active

Question 52

Define membrane transport

Answer 52

Carrier-mediated mechanisms use a membrane protein to transport substances across membrane

Question 53

Name 4 passive mechanisms of transportation

Answer 53

1) Filtration
2) Simple Diffusion
3) Facilitated Diffusion
4) Osmosis

Question 54

Define filtration

Answer 54

A type of passive transport, particles are driven through membrane by physical pressure

Question 55

Where can filtration be found in the human body? (3 examples)

Answer 55

1) Filtration of water and small solutes through gaps in capillary walls
2) Allows delivery of water and nutrients to tissues
3) Allows removal of waste from capillaries in kidneys

Question 56

Define a gradient

Answer 56

A difference in chemical concentration, charge, temperature, or pressure between two points

Question 57

True or false: Matter and energy tend to flow up gradients

Answer 57

False; matter and energy tend to flow DOWN gradients

Question 58

Give an example of matter flowing down a gradient in the body

Answer 58

Blood flows from a place of higher pressure to a place of lower pressure

Question 59

Moving up a gradient requires what?

Answer 59

Energy

Question 60

Define simple diffusion

Answer 60

The net movement of particles from place of high concentration to place of lower concentration

Question 61

Why does simple diffusion happen?

Answer 61

It happens due to constant, spontaneous molecular motion; molecules collide and bounce off each other

Question 62

Substances diffuse ____ their concentration gradient

Answer 62

down

Question 63

When can substances diffuse through a membrane?

Answer 63

If the membrane is permeable to the substance

Question 64

True or false: the diffusion of substances down a concentration gradient doesn’t require a membrane

Answer 64

True

Question 65

In _____ diffusion, the substance passes directly through the phospholipid bilayer

Answer 65

simple

Question 66

What 5 factors affect the diffusion rate through the membrane?

Answer 66

1) Temperature: ^ temp = ^ motion of particles = ^ rate
2) Molecular weight: larger molecules move slower
3) Steepness of concentrated gradient: ^ difference = ^ rate
4) Membrane surface area: ^ area = ^ rate
5) Membrane permeability: ^ permeability = ^ rate

Question 67

Define osmosis

Answer 67

The diffusion of water through a selectively permeable membrane

Question 68

In osmosis, water moves from the side where water is ____ concentrated to the side where it is ____ concentrated

Answer 68

more; less

Question 69

Will osmosis speed up or slow down if a cell adds more aquaporins?

Answer 69

Speed up

Question 70

Define aquaporins

Answer 70

Channel proteins in a membrane specialized for water passage

Question 71

Define osmolarity

Answer 71

The measure of total concentration of solute particles

Question 72

Define tonicity

Answer 72

The concentration of non-permeating solutes

Question 73

Define hypotonic solution

Answer 73

A solution that has a lower concentration of non-permeating solutes than the other solution

Question 74

Define a hypertonic solution

Answer 74

A solution that has a higher concentration of non-permeating solutes than the other solution

Question 75

Define an isotonic solution

Answer 75

Where concentrations of non-permeating solutes in both solutions are the same

Question 76

What happens to a cell if it’s placed in a hypertonic solution?

Answer 76

Water diffuses out of the cell and causes crenation (shriveling) because now it doesn’t have enough water

Question 77

What happens to a cell if it’s place in a hypotonic solution?

Answer 77

Water diffuses into the cell and causes hemolysis (explosion) because now it has too much water.

Question 78

What happens to a cell if it’s placed in an isotonic solution?

Answer 78

Nothing, stays the same

Question 79

What are the three mechanisms of carrier-mediated transport?

Answer 79

1) Facilitated diffusion
2) Primary active transport
3) Secondary active transport

Question 80

What is carrier-mediated transport?

Answer 80

Solute attaches to binding site on carrier, carrier changes conformation, then releases solute on other side of membrane

Question 81

Describe facilitated diffusion

Answer 81

• Carrier moves the solute down its concentration gradient

- Does not consume ATP

Question 82

Describe primary active transport

Answer 82

• Carrier moves the solute through a membrane up (against) its concentration gradient
• Need ATP for energy

Question 83

True or false: facilitated diffusion doesn’t require ATP

Answer 83

True

Question 84

Give 2 examples of primary active transport in the body

Answer 84

• Calcium pump (uniport)

- Sodium–potassium pump (antiport)

Question 85

What does the sodium-potassium pump do, and why?

Answer 85

• Three Na+ are pumped out and two K+ are pumped in by the sodium potassium pump
• Necessary because Na+ and K+ constantly leak through membrane

Question 86

Define vesicular transport

Answer 86

Moves large particles, fluid droplets, or numerous molecules at once through the membrane in vesicles—bubble-like enclosures of membrane

Question 87

Define endocytosis

Answer 87

Transports material into cell

Question 88

Define exocytosis

Answer 88

Transports material out of the cell

Question 89

Define transcytosis

Answer 89

Transport into, across, and then out of a cell

Question 90

What are the two types of endocytosis? Describe them

Answer 90

Phagocytosis—“cell eating,” engulfing large particles

Pinocytosis—“cell drinking,”

Question 91

What does phagocytosis do?

Answer 91

Phagocytosis keeps tissues free of debris and infectious microbes

Question 92

Describe receptor-mediated endocytosis

Answer 92

• More selective endocytosis

- Enables cells to take in specific molecules that bind to extracellular receptors

Question 93

Describe exocytosis and when it’s needed (before or after endocytosis)

Answer 93

• Secreting material

- Needed in the replacement of plasma membrane removed by endocytosis (after endocytosis)

Question 94

What materials in the body can be released by exocytosis?

Answer 94

• Ejection of wastes
• Release of neurotransmitters
• Hormone secretion
• Mucus secretion

Question 95

What is the cytoskeleton?

Answer 95

A network of protein filaments and cylinders

Question 96

What is the largest organelle (5 μm in diameter)?

Answer 96

The nucleus

Question 97

Most cells have how many nuclei?

Answer 97

1

Question 98

True or false: cells can be mononuclear, polynuclear, or anuclear

Answer 98

True

Question 99

Give an example of an anuclear cell in humans

Answer 99

Red blood cells

Question 100

Give an example of a cell with many nuclei (a polynuclear cell) in the human body

Answer 100

Skeletal muscle cells & some bone dissolving cells

Question 101

Define the nuclear envelope

Answer 101

A double membrane with pores surrounding the nucleus

Question 102

Nucleoplasm is made up of what two things?

Answer 102

Chromatin and nucleoli

Question 103

Define chromatin

Answer 103

A thread-like substance composed of DNA and protein; one of two substances that makes up nucleoplasm

Question 104

Define nucleoli

Answer 104

Masses where ribosomes are produced; one of two substances that makes up nucleoplasm

Question 105

Define endoplasmic reticulum

Answer 105

A system of channels (cisternae) enclosed by membrane

Question 106

What makes up the rough endoplasm reticulum and what does it do?

Answer 106

It’s made up of parallel, flattened sacs covered with ribosomes.
Functions: protein synthesis and packages proteins for transport

Question 107

The ___ endoplasmic reticulum has ribosomes, whereas the ____ endoplasmic reticulum doesn’t

Answer 107

The rough endoplasmic reticulum has ribosomes; the smooth endoplasmic reticulum doesn’t

Question 108

What does the smooth endoplasmic reticulum do? (three things)

Answer 108

1) Synthesizes steroids and other lipids
2) Detoxifies alcohol and other drugs
3) Calcium storage

Question 109

What are ribosomes?

Answer 109

Small granules of protein and RNA

Question 110

What do ribosomes do?

Answer 110

They “read” coded genetic messages (messenger RNA) and assemble amino acids into proteins specified by the code

Question 111

What does the golgi complex do?

Answer 111

It receives newly synthesized proteins from rough ER. Then it sorts proteins, modifies proteins, and packages them into vesicles

Question 112

What do vesicles become/do after leaving the golgi complex?

Answer 112

Some vesicles become lysosomes
Some vesicles migrate to plasma membrane and fuse to it
Some become secretory vesicles that store a protein product for later release

Question 113

Define lysosomes

Answer 113

A package of enzymes bound by a membrane

Question 114

What 3 things do lysosomes do?

Answer 114

1. Intracellular hydrolytic digestion
2. Phagocytosis
3. Autolysis

Question 115

Define autolysis

Answer 115

“Cell suicide” or the digestion of a surplus cell by itself

Question 116

What are peroxisomes and what do they do?

Answer 116

Resemble lysosomes but contain different enzymes. They detoxify certain harmful chemicals, enclose reactions that make toxic byproducts

Question 117

Peroxisomes are found in all cells, but are especially abundant in what two organs?

Answer 117

The liver and kidney

Question 118

Define mitochondria

Answer 118

Organelles specialized for synthesizing ATP

Question 119

Mitochondria are surrounded by a ____ membrane

Answer 119

double

Question 120

What makes mitochondrial DNA (mtDNA) unique, and what does it do?

Answer 120

It mutates more rapidly than nuclear DNA; continually changes shape from spheroidal to thread-like. It’s responsible for hereditary diseases affecting tissues with high energy demands

Question 121

What do centrioles do?

Answer 121

They form the mitotic spindle during cell division, unpaired centrioles form basic structure of cilia and flagella