Chapter 3

Question 1

Two types of cells

Answer 1

1. Somatic

2. sex (sperm and oocytes)

Question 2

plasma membrane
•where is it located
•definiton

Answer 2

• outside the cell

* lipid bi layer that separates inside of the cell from surrounding extracellular fluid

Question 3

2 subdivisions of the cytoplasm

Answer 3

1. cytosol (liquid component)

2. Organelles (intracellular structures)

Question 4

Nuclear envelope
•definition
•location

Answer 4

• membrane that surrounds the nucleus and separates it from the cytosol
• outside the nucleus

Question 5

Nucleolus
•location
•what is it
•function

Answer 5

• inside the nucleus
• translucent nuclear organelle
• synthesizes ribosomal RNA

Question 6

Nucleoplasm
•location
•what is it

Answer 6

• inside the cell

* fluid containing nuclear matrix

Question 7

Nuclear matrix

Answer 7

Provides support

Question 8

How is DNA organized in the nucleus

Answer 8

DNA is coiled around histone proteins to form a nucleosome

Question 9

Chromosomes
•formula
•structure of non dividing
•structure of dividing

Answer 9

• DNA + proteins = chromosomes
• loose coils (chromatin)
• tight coils (ind. chromosomes can be seen under the microscope)

Question 10

Mitotic phase (M)
•2 types

Answer 10

1. Mitosis

2. cytokinesis

Question 11

Mitosis
•definition
•where does it occur
•what about the DNA

Answer 11

• division of nucleus
• occurs in somatic cells
• duplicated DNA is distributed equally between 2 daughter cels

Question 12

Cytokinesis

Answer 12

Division of cytoplasm to form 2 separate cells

Question 13

Interphase
•definition
•3 phases
•what does it determine

Answer 13

• where cell spends most of its time carrying out normal functions;when ready to divide it enters G1
1. Gap1
2. Synthesis
3. Gap2
•the time spent in interphase determines the rate of cellular division

Question 14

Gap 1

Answer 14

cells replicate organelles and increase volume of cytosol

Question 15

Synthesis

Answer 15

DNA duplication is performed

Question 16

Gap 2

Answer 16

Centrioles replicate (cell division machinery)

Question 17

G0

Answer 17

only occurs in cells that do not replicate (neurons)

•specialized cell functions

Question 18

How does a dividing cell ensure that each daughter cell recieves an exact copy of the parent cell DNA?

Answer 18

Through DNA replication

Question 19

3 steps of DNA replication

Answer 19

1. DNA strands unwind
2. DNA polymerase attaches to complimentary DNA nucleotides along each strand (multiple polymerase enzymes will bind DNA)
3. Produces 2 identical copies of original DNA

Question 20

What enzyme is responsible for unwinds the DNA?

Answer 20

Helicase

Question 21

DNA polymerase
•what is it
•moves in what direction
•what happens to 1 strand
•what happens to the other strand

Answer 21

• responsible for DNA replication
• 1 direction
• One strand is produced in a continuous fashion
• the other strand is produced in segments and joined together by a “ligase”

Question 22

Interphase

Answer 22

• End of G2 phase of cell cycle

* DNA exists as duplicated chromatin

Question 23

Metaphase

Answer 23

•Chromosomes align on equator of the cell

Question 24

Centromere

Answer 24

Where sister chromatids are connected to eachother

Question 25

Anaphase

Answer 25

• Chromosome and centromere splits
• Chromosome are pulled to opposite poles
• Chromosome movement stops after arriving near the centrioles

Question 26

Telophase

Answer 26

• Marks end of mitosis
• Nuclear division is over
• Nuclear membrane re-forms
• Chromosomes uncoil

Question 27

3 components of the plasma membrane

Answer 27

1. Lipids
2. Proteins
3. Carbohydrates

Question 28

Lipids in the plasma membrane
•how much % does it make up
•what type of lipids are present
•arrangement
•function

Answer 28

• 42%
• Phospholipids and cholesterol
• Bi-layer
• barrier - maintain differences between outside and inside

Question 29

What is the function of cholesterol in the bi-layer?

Answer 29

it is rigid to it provides structure to the membrane

Question 30

Proteins in the plasma membrane
•how much % does it make up
•2 types

Answer 30

•55%

1. Integral
2. Peripheral

Question 31

Integral proteins

Answer 31

Part of membrane structure that is embedded and cannot be removed easity

Question 32

Peripheral proteins

Answer 32

Bound to inner or outer surface of membrane

Question 33

Carbohydrates in the plasma membrane
•how much % does it makeup
•where is it located
•what is it known 
•what is it used for

Answer 33

• 5%
• associated with outer surface only
• Known as glycocalyx
• used for communication

Question 34

Function of the plasma membrane

Answer 34

• Barrier

* Selectively permeable-permits the passage of some materials while restricting the passage of others

Question 35

4 types of membrane transport

Answer 35

1. Diffusion
2. Filtration
3. Carrier mediated
4. Vescular transport

Question 36

Diffusion
•active or passive
•definition
•what is the driving force
•three types

Answer 36

•passive
•movement of a substance from an area of high concentration to an area of low concentration
•molecules are in motion
1. Simple
2. Channel mediated
3. osmosis

Question 37

Concentration gradient

Answer 37

Difference between high and low concentrations

Question 38

5 characteristics of diffusion

Answer 38

1. Membrane must be permeable to substance
2. small and uncharged molecules diffuse freely across the membrane
3. Substances will move until equilibrium is achieved
4. Concentration gradient is eliminated
5. No net movement of molecules

Question 39

Simple diffusion

Answer 39

Substance can directly penetrate the plasma membrane

•small uncharged molecules (O2 and CO2)

Question 40

Channel Mediated diffusion
•definition
•what does it use to transport these molecules
•allows passage of…

Answer 40

• Used for the passage of charged molecules/ions
• uses an integral membrane protein (channel)
• small H2O soluable molecules

Question 41

Osmosis
•definition
•formula
•low solutes =  \_\_\_ water
•high solutes = \_\_\_ water

Answer 41

• Refers to the diffusion of water ONLY
• Solution = solutes (Na++, K++) + solvents (H2O)
• High H2O
• Low H2O

Question 42

3 characteristics of osmosis

Answer 42

1. Movement of H2O across a membrane
2. Membrane is freely permeable to H2O but not solutes
3. Water flows across the membrane toward solution with higher solutes

Question 43

Osmolarity

Answer 43

Total solute concentration in an aqueous solution

Question 44

Tonicity

Answer 44

Describes how a solution affects the cell

Question 45

Hypotonic
•definition
•comparison of solutes and water inside and outside the cell
•what happens to cell

Answer 45

• Less solutes compared to the cell
• less solutes out, more solutes in; high H2O out, low in
• cell swells and can explode (hemolysis)

Question 46

Hypertonic
•definition
•comparison of solutes and water inside and outside the cell
•what happens to cell

Answer 46

• More solutes compared to cell
• more solutes out, less in; high H2O in, low out
• cell shrinks (crenation)

Question 47

Isotonic

Answer 47

• same solutes compared to cell

* water moves in and out at same rate

Question 48

Filtration

Answer 48

Movement of solutes and solvent through a membrane from an area of high pressure to an area of low pressure

Question 49

Hydrostatic pressure

Answer 49

Force of blood against capillaries; moves fluid and molecules out of blood and into tissues

Question 50

Carrier Mediated
•definition
•2 types

Answer 50

Ions/molecules are carried across membranes by binding to integral membrane proteins

1. facilitated diffusion
2. active transport

Question 51

Facilitated diffusion
•passive or active
•definition
•3 characteristics

Answer 51

•passive
•movement down a concentration gradient
1. specificity 
2. saturation limits
3. regulation

Question 52

2 steps of facilitated diffusion

Answer 52

1. Molecules will bind to receptor on carrier protein

2. Carrier changes shape and exposes solute to opposite side of cell

Question 53

Active transport

• dependent or independent on a concentration gradient
• energy?
• Moving substances against or with concentration gradient
• example

Answer 53

• dependent
• requires energy from ATP for transport process
• against concentration gradient
• Movement from low to high
• sodium potassium pump

Question 54

Sodium potassium pump

• principle ions
• Outside the cell
• Inside the cell
• how much is being pumped

Answer 54

• Na+ and K+
• Na+ (high), K+ (low)
• Na+ (low), K+ (high)
• 1 ATP will transport 3 Na+ out of the cell and 2 K+ into the cell

Question 55

Vesicular transport

• definition
• how do things move
• 2 types

Answer 55

Bulk movement of materials

• things move in and out of cells in vesicles
  1. Endocytosis
  2. Exocytosis

Question 56

vesicles

Answer 56

small membrane bound sacs

Question 57

Endocytosis

• definition
• 3 types

Answer 57

• Substances are imported into the cell (requires ATP)
  1. Phagocytosis
  2. Pinocytosis
  3. Active transport

Question 58

Phagocytosis

• definition
• what are these specialized cells called

Answer 58

• Cell “eating”

- Macrophages

Question 59

Macrophages

Answer 59

• Specialized cells in phagocytosis
• Professional eaters
• eat bacteria, cellular debris, etc

Question 60

Lysosomes

Answer 60

Contains enzymes to digest material

Question 61

Pinocytosis

• definition
• what does it form
• specific?
• what is generally the target

Answer 61

• cell “drinking”
• pinosomes
• not specific
• fluid

Question 62

Pinosomes

• what are they filled with
• where do they form
• where do they deliver too

Answer 62

• extracellular fluid
• form in plasma membrane that are pinched off
• deliver contents in lysosomes

Question 63

Receptor mediated

• defintion
• 5 steps

Answer 63

• specific form of cell eating
  1. specific substances bind receptors on plasma membrane (hormones,etc)
  2. Formation of a vesicle at plasma membrane
  3. Formation of a vesicle within cytosol
  4. Vesicles fuse with lysosomes where substances are removed
  5. Empty receptors are carried back to the plasma membrane for reuse

Question 64

Exocytosis

• definition
• what are the waste products
• what can it be coupled with

Answer 64

• Vesicles from within the cell fuse to plasma membrane and discharge contents
• hormones
• endocytosis

Question 65

Cytoplasm

• definition
• 2 things in it

Answer 65

• material between plasma membrane and nuclear envelope
  1. cytosol
  2. organelles

Question 66

Cytosol

Answer 66

intracellular fluid- nutrients, proteins, ions and wastes

Question 67

Organelles

• definition
• 2 types

Answer 67

performs cellular functions

1. Non-membranous organelles
2. membranous organelles

Question 68

non - membranous organelles

-4 types

Answer 68

1. cytoskeleton
2. Centrioles
3. Cilia
4. Ribosomes

Question 69

Cytoskeleton

-3 components

Answer 69

1. Microfilaments
2. Intermediate filaments
3. Microtubules

Question 70

Microfilaments

• structure
• 2 functions

Answer 70

• solid slender rods (6mm in diameter), composed of actin (smallest of filaments)
• 1. Anchor cytoskeleton to plasma membrane
     
     2. Change the shape of the cell

Question 71

Intermediate filaments

• structure
• 2 functions

Answer 71

• stable rods (7-11 nm in diameter), protein composition varies, “intermediate” in size, most durable of all filaments
• Strengthen cell and help maintain shapes
• stabilize positioned of organelles and cell itself

Question 72

Microtubules

• structures
• 5 functions

Answer 72

• hollow tubes (25 nm in diameter), composed of tubulin, largest of the 3 filaments
• 1. Primary component of cytoskeleton
     
     2. Can help change the shape of the cell
     3. Can help shuttle vesicles and organelles around cell = “molecular motors”
     4. Aid in cell division - moves chromosomes
     5. Form structural components of some organelles

Question 73

Centrioles

• definition
• which do not have centrioles
• what is it composed of
• how many groups do they form
• function

Answer 73

• All cells undergoing cell division will have centrioles
• RBC, skeletal muscles, cardiac muscles, neurons
• short microtubules
• form 9 groups each containing 3 tubules (9+3) arrangement
• Form spindle appartatus associated with movement of chromosomes

Question 74

Cilia

• definition
• structure
• function

Answer 74

• Found on cells lining respiratory and reproductive tract
• Long extensions of plasma membrane , 9 pairs of microtubules + 2 in the middle
• 1. Beat to move fluids or secretions across cell surface
     
     2. Waves are synchronized and can move materials very effectively

Question 75

Ribosomes

• 2 things make up ribsomes
• consists of what 2 subunits
• function

Answer 75

• 60% rRNA and 40% protein
• (large and small) Free=cytosol; fixed = ER
• Responsible for protein synthesis

Question 76

Membranous organelles

-6

Answer 76

1. Mitochondria
2. Rough ER
3. Smooth ER
4. Golgi Apparatus
5. Lysosome
6. Perioxsome

Question 77

Mitochondria

• structure
• 2 functions
• how much percent of ATP is produced

Answer 77

• Has a double membrane, cristae and matrix
  1. Energy production
  2. Formation of ATP to be used by other cellular structures
• 95%

Question 78

Endoplasmic reticulum

Answer 78

Network of membrane bound sacs and tubes

Question 79

Rough ER

• structure
• function

Answer 79

• surface contains ribosomes

- responsible for modifying and packaging proteins for export to golgi apparatus

Question 80

Smooth ER

• structure
• 3 functions

Answer 80

• Lacks ribosomes on surface and is more tubular
  1. Synthesis of lipids and steroid hormones
  2. Glycogen and Ca++ storage
  3. detoxification

Question 81

Golgi Apparatus

• structure
• function
• 3 steps

Answer 81

• stacks of hollow (cisternae)
• Recieves newly modified proteins from ER
  1. Proteins are modified, sorted and packaged
  2. vesicles
  3. Exocytosis or other places in cytosol

Question 82

Lysosome

• structure
• 2 functions

Answer 82

• small spherical vesicles
  1. contains digestive enzymes that breakdown large macromolecules within cell
  2. destroys bacteria that enter cell

Question 83

Perioxisome

• structure
• 2 functions

Answer 83

• very small spherical vesicles
  1. Absorb and breakdown fatty acids and other organic compounds
  2. neutralizes H2O2 (hydrogen peroxide) formed by fatty acid breakdown (protective function

Question 84

How do protein differ?

Answer 84

order of AA

Question 85

Central dogma

• definition
• 3 steps

Answer 85

Info flows from DNA to RNA to Protein

1. Info in DNA is copied to make a message (contains the code for a protein)
2. mRNA exits nucleus and enters cytoplasm
3. The info in the mRNA is used to assemble a chain of AA

Question 86

DNA

Answer 86

contains instructions for putting AA in the correct order for a particular protein

Question 87

RNA

• definition
• 3 types

Answer 87

Plays a role in expressing this info

1. mRNA
2. rRNA
3. tRNA

Question 88

Gene

Answer 88

-section on a segment of DNA that codes for a particular protein

Question 89

code

Answer 89

• A triplet code

- Each AA = 3 bases in the DNA

Question 90

Transcription

• definition
• location
• 3 steps

Answer 90

• the production of mRNA from a DNA template
• inside nucleus
  1. DNA unwinds and separates (1 strand serves as a template)
  2. RNA polymerase travels on template strand and inserts complementary bases of RNA (U will substitute for T)
  3. Newly formed RNA exits and DNA strands unite

Question 91

RNA polymerase

Answer 91

binds to template strand and reads DNA template and inserts complementary RNA bases

Question 92

Translation

Answer 92

using the information in mRNA to assemble AA in the correct order to make a particular protein