Chapter 3

Question 1

Cell Theory 3 parts

Answer 1

• Cells are the smallest unit of life
• All organisms are made of one or more cells
• All cells come from preexisting cells

Question 2

Properties of cells

Answer 2

• Differ in size, shape, and subcellular components (organelles)
• Differences in structure lead to difference in function

Question 3

Generalized cell (3 main parts)

Answer 3

-Plasma Membrane) separates cell from environment
Cytoplasm) Thick ICF, contains organelles
Nucleus) Contains DNA

Question 4

Plasma Membrane (structure)

Answer 4

• Made of a double layer of phospholipids (lipid bilayer)
• Called fluid mosaic model because it it made of many pieces
• Is selectively permeable.

Question 5

Intracellular Fluid

Answer 5

-Fluid inside the cell (cytoplasm)

Question 6

Extracellular fluid

Answer 6

-Fluid outside cells
ex:
Interstitial Fluid: Submersed cells
Blood Plasma
Cerebrospinal Fluid.
Cellular secretions
Extracellular matrix

Question 7

Membrane Lipids

Answer 7

Phospholipids) Form lipid bilayer. have hydrophobic tail and a hydrophilic head.

Glycolipids: Lipids with polar sugar groups on membrane surface

Cholesterol) Increases membrane stability

Question 8

Integral Proteins

Answer 8

• Inserted into the membrane (Most are transmembrane)
• Have Hydrophobic and Hydrophilic areas
  a) Hydrophobic region interact with lipid tails
  b) Hydrophilic areas interact with water
• Function as transport proteins

Question 9

Peripheral Proteins

Answer 9

• Loosely attached to integral proteins. Include filaments on the intracellular surface for plasma membrane support.
• Function as Enzymes
• Some are motor proteins involved in mechanical functions
• Responsible for cell to cell connections

Question 10

6 Functions of Membrane Proteins

Answer 10

1) Transport) transport molecules across the membrane.
2) Receptors) Sense signals from hormones and relay information
3) Attachment) to the cytoskeleton or extracellular matrix.
4) Enzymatic Activity)
5) Intercellular Joining
6) Cell Cell recognition

Question 11

Glycocalyx

Answer 11

• Consists of sugars sticking out of the cell surface.
• Some are attached to lipids (glycolipids) and some are attached to proteins (glycoproteins)
• the coating is different for each cell and it provides specific markers for each cell, Allows recognition for self vs nonself.

Question 12

Homostatic Imbalance

Answer 12

-Damaged cells are able to continue reproducing because the immune system cannot recognize the glycocalyx as incorrect.

Question 13

Cell Juntions

Answer 13

-Binds cells into communities

Question 14

Tight Junctions

Answer 14

• Adjacent integral proteins form an impermeable junction around the cell which prevents fluids from moving between cells
• useful in places like digestive tract.

Question 15

Demosomes

Answer 15

• Zipper like cell junction formed with liker proteins (cadherins) of neighboring cells.
• Linker protein is anchored in a thickened part of the membrane called plaque
• Allows for flexibility under tension

Question 16

Gap Junction

Answer 16

-Transmembrane proteins form pores (called Connexons) which allow molecules (such as ions/electrical signals) to move around.

Question 17

Active Transport

Answer 17

Uses energy (ATP) to move a particle across a selectively permeable membrane
- Moves particles across a selectively permeable membrane.

Question 18

Passive Transport

Answer 18

Does not use energy to transport a particle across a selectively permeable membrane

Question 19

Filtration

Answer 19

Diffusion across a capillary wall not plasma membrane

Question 20

Diffusion

Answer 20

• Molecules move from areas of high concentration to low concentration (down concentration gradient).
• The speed of diffusion is influenced by concentration of molecules, size of the molecules, and temperature.

Question 21

Simple Diffusion

Answer 21

• Unassisted Diffusion of a Non Polar, Lipid Soluble (hydrophobic) molecule. These substances diffuse directly through the lipid bilayer.
  ex) O, CO2, Steroids, Fatty acids, and some very small substances.

Question 22

Facilitated Diffusion

Answer 22

-Transport of hydrophobic molecules

Question 23

Carrier Method Facilitated Diffusion

Answer 23

• Transmembrane proteins (carriers) carry specific molecules that are too large for membrane channels
• Carrier binds to a molecule which moves it across the membrane
• Binding is limited to the number of carriers (when carriers are full they are saturated).

Question 24

Channel-Mediated Diffusion

Answer 24

• Transmembrane protein Channels with aqueous-filled cores
• Transport Ions or Water (Osmosis) down the concentration gradient.
• Water channel is called an aquaporin

Question 25

Osmosis

Answer 25

• Movement of solvent (Water) across a selectively permeable membrane
• Water is moving from higher to lower concentration
• Can diffuse through plasma membranes/lipid bilayer through channels called aquaporins.

Question 26

Osmolarity

Answer 26

• Measure of concentration of total number of solute particles in a solvent.
• Water will move from areas of low solute (high water) concentration to areas with high solute (low water) concentration.
• Moves through channels called aquaporins.

Question 27

Hydrostatic Pressure

Answer 27

Outward pressure exerted on a cell due to osmosis

-Referred to as back

Question 28

Osmotic Pressure

Answer 28

Inward pressure due to the tendency of water to be pulled into a cell with higher osmolarities.

Question 29

Tonicity

Answer 29

-Ability of a solution to change shape or tone of cells by altering internal water volume.

Question 30

Isotonic Solution

Answer 30

-Same osmolarity outside the cell as inside which leaves the volume of the cell unchanged.

Question 31

Hypertonic Solution

Answer 31

-Higher osmolarity outside the cell then inside. Causes water to flow out of the cell which causes shrinking. crenation

Question 32

Hypotonic Solution

Answer 32

-Has lower osmolarity inside the cell than outside the cell. Water will flow into the cell. Can lead to cell bursting known as lysing.

Question 33

Primary Active transport

Answer 33

Energy from hydrolysis (creation) of ATP causes the shape of a transport protein to change shape and pump solutes (ions) across the membrane.
-Pumps ions such as Na+, K-, Calcium, and Hydrogen

Question 34

Sodium Potassium pump

Answer 34

• Located in excitable cells (nerve and muscle). Pumps Na+ out of cell and K- back into the cell because both elements will slowly diffuse across the membrane if not.
• Pump works as an antiporter which moves ions back to original space. (maintains electrochemical gradient)

Question 35

Secondary active transport.

Answer 35

• Depends on the ion gradient crated by Active Transport. This energy is used to drive the process.
• Will transport more than one substance during transport.

Question 36

Antiporters

Answer 36

-Transport one substance into the cell while transporting another out.

Question 37

Symporters

Answer 37

Transport two substances in the same direction

Question 38

Vesicular transport

Answer 38

Transport of large molecules, macromolecules, and fluids across the plasma membrane in sacs called vesicles.
-Requires ATP.

Question 39

Endocytosis

Answer 39

Transport items into the cell.
-The tree types o endocytosis are phagocytosis (cell eating) pinocytosis (cell drinking) and receptor-mediated endocytosis.

Question 40

Resting Membrane Potential.

Answer 40

• Electrical Potential Energy produced by the separation of oppositely charged molecules across a membrane in cells.
• Inside of the cell is more negative than the outside of the cell. Difference in electrical charge is called voltage.
• Cells that are charged are polarized

Question 41

Electrochemical Gradient

Answer 41

the combination of the concentration gradient and electrical charge. (Both gradients of cells)

Question 42

Generation of Resting Membrane Potential

Using K+

Answer 42

1) K+ diffuses out of the cell down its concentration gradient which creates a negative environment in the cell because of negative proteins which cannot leave.
2) K+ is pulled back into the negative interior because it is diffusing back down the concentration gradient.
3) When the drive for K+ to leave the cell is EQUAL to the drive for it to stay RMP is then established.

Question 43

Na+-K+ pump actions

Answer 43

• Pumps 3Na+ out of the cell while pumping 2K+ into the cell.
• Neuron and muscle cells will intentionally upset the balance of Na+ and K+ by opening gated channels.

Question 44

Plasma membrane receptors

Answer 44

-Serve as binding sites for several chemical signals.

Question 45

Contact Signaling

Answer 45

Cells touch and are able to recognize each other by the unique surface of the other cell (glycocalyx)
-Used in development and immunity

Question 46

Chemical Signaling

Answer 46

Interactions between receptors and ligands (chemical messengers) that cause changes in cells.
-Ligands bind to receptors. They can be neurotransmitters, hormones (endocrine system transmitter), and paracrines (chemical messages that occur over short distances)

Question 47

G Protien-Linked Receptors

Answer 47

Chemical message (ligand) is received by a receptor on the plasma membrane called the G-Protien Linked receptor. The chemical message then causes the G protein of a cell to be activated and relay the message to ions channels, enzymes, or release another internal message.

Question 48

Cytoplasm

Answer 48

• All cellular material between the plasma membrane and the nucleus
• Cytosol) Gel-like solution made of water and soluble molecules (proteins, salts, sugars, etc.)
• Inclusions) Insoluble materials (Glycogen granules, pigments, lipid droplets, vacuoles crystals)
• Organelles) machinery of cell. Either membranous or non mebranous.

Question 49

Organelles

Answer 49

Specialized cellular compartments/ structures. Each performs its own job to maintain cell life.

Question 50

Membranous Organelles.

Answer 50

-Mitochondria, Endoplasmic Reticulum, Golgi Apparatus, Peroxisomes, and Lysosomes

Question 51

Nonmembranous Organelles

Answer 51

Cytoskeleton, Centrioles, and Ribosomes.

Question 52

Mitochondria

Answer 52

• Power Plant of the cell because it produces ATP (via aerobic cellular respiration)
• Enclosed in double membrane. Inner membrane is called cristae which contains proteins important for cellular respiration.
• Have their own DNA, RNA, and ribosome (only organelle besides nucleus.)
• Capable of dividing (fission)

Question 53

Ribosomes

Answer 53

• Site of protein synthesis
• Free Ribosomes) Float in cytosol. Synthesise protein in cytosol for organelles or cytosol
• Membrane Bound Ribosomes) Attached to membrane of the Endoplasmic Reticulum (ER). Proteins synthesized are incorporated into membranes or lysosomes or exported from the cell.

Question 54

Endoplasmic Reticulum (Structure)

Answer 54

• Series of parallel, interconnected tubes and parallel sacs called cisterns (enclose fluid interiors.)
• Continuous with the outer nuclear membrane.

Question 55

Rough ER

Answer 55

• Has Ribosomes for Protein synthesis.
• Protein enters cisterns where is is modified as they pass through ER. Final protein is enclosed in a vesicle and sent to the Golgi apparatus.

Question 56

Smooth ER

Answer 56

-No Ribosomes. Synthesizes Lipids, Detoxifies. Coverts glycogen into free glucose. Storage of calcium.

Question 57

Golgi Apparatus

Answer 57

• Formed by stacked and flattened cistern membranous sacs.
• Modifies, concentrates, and packages proteins/lipids from ER.
• Three steps
  1) Transport Vesicle From ER fuses with membrane of the Golgi
  2) Proteins/ Lipids are modified, tagged, sorted and packaged.
  3) Figures out where the products are going and packages protein/lipid accordingly (Can be sent somewhere in the cell or released via exocytosis.)

Question 58

Three Pathways Packages from Golgi apparatus are sent to

Answer 58

Pathway A) Secretory Vesicles containing protein to be used outside the cells are exocytosis.

Pathway B) Vesicles Containing Lipids/Transmembrane proteins fuse directly with the organelles or plasma membrane.

Pathway C) Inactive digestive enzymes (proteins) are packaged into vesicles that will become lysosomes.

Question 59

Lysosomes

Answer 59

• Spherical Membranous bags containing digestive enzymes
• Digest bacteria, virus, and toxins.
• Break down glycogen and release Ca2+ from the bone.

Question 60

Peroxisomes

Answer 60

• Contain powerful detoxifying substances that neutralize toxins. Free radicals are toxic, highly reactive molecules.
• Oxidase uses oxygen to convert toxin to H2O2.
• Catalase) turns H2O2 into harmless H2O
• There are a lot of peroxisomes in liver/kidney cells

Question 61

Endomembrane System

Answer 61

• Made of ER, golgi apparatus, secretory vesicles, lysosomes and nuclear and plasma membranes.
• TWO FUNCTIONS
  1) Produce, Degrade, Store, and Export Biological molecules
  2) Degrade potentially harmful molecules.

Question 62

Cytoskeleton

Answer 62

-Network of Filament Proteins. Support Cell Structure.

Question 63

Microfilaments

Answer 63

• Thinnest of Cytosol elements
• Semiflexible strand of protein actin
• Dense crosslink network
• Strengthens cell surface to resist compression
• Most are involved in cell movement, changes in cell state, or exocytosis or endocytosis.

Question 64

Intermediate Filaments

Answer 64

• Medium size
• Tough, insoluble, ropelike protein fibers.
• Composed of tetramer (4 fibers twisted together.)
• Help cell resist pulling forces.

Question 65

Microtubules

Answer 65

• Largest element of cytoskeleton.
• Composed of Tubulins.
• Determine cell shape and organelle distribution

Question 66

Centrosome

Answer 66

• Cell Center

- Generates microtubules and organizes mitotic spindle

Question 67

Centrioles

Answer 67

• Come in pairs
• Organized at right angles to each other.
• Form the base of Cilia and Flagella known as basal bodies.

Question 68

Cilia and Flagella

Answer 68

Cilia) are whiplike extensions on cell surface. Move substances across cell surface
Flagella) Long extension that propels the whole cell (sperm)
-Cilia and Flagella have a 9+2 pattern of microtubules (9 sets of doubles surrounding 2)
-Centrols has 9 +0 pattern (9 pairs of triplets with nothing middle)

Question 69

Microvili

Answer 69

• Plasma membrane protrusions
• Increases surface area
• Have core of actin filaments

Question 70

Nucleus

Answer 70

• Largest Organelle
• Contains DNA
• The three main structures are nuclear envelope, nucleoli, and the chromatin.

Question 71

Nuclear Envelope

Answer 71

• Double-membrane barrier that encloses nucleoplasm
• Connects to ER
• Maintains shape of nucleus.
• Pores allow some substances to pass.

Question 72

Nucleoli

Answer 72

• Involved in rRNA synthesis (Contains DNA to do so) and ribosome subunit assembly.

Question 73

Chromatin

Answer 73

• Consists of DNA, RNA, and Histone proteins.
• arranged in nucleosomes (DNA wrapped around 8 histone proteins)
• When cell divides chromatin condenses and makes chromosomes. This state protects the chromatin threads.

Question 74

Cell Cycle

Answer 74

-Series of changes a cell undergoes in preparation to divide.
Interphase) cell grows and carries on normal activities.
Cell division) cell divides in two.

Question 75

Interphase

Answer 75

G1 phase) Vigorous cell growth and metabolism.
S (synthetic) phase) DNA replication occurs.
G2) Preparation for division.

Question 76

DNA Replication

Answer 76

(You have to study and understand the process and be able to describe it.)

• Leading strand is synthesized continuously
• Lagging strand is made in fragments.
• Process is called semiconservative replication because it retains one original DNA strand in each replicated pair.

Question 77

Cell Division

Answer 77

-Consists of two distinct events called mitosis and cytokinesis.

Question 78

Mitosis

Answer 78

1) Prophase)
-Early Prophase) Chromatin condenses to form chromosomes. Chromosomes (two sister chromatids) are held together by a centromere.
-Late Prophase) Nuclear envelope breaks up and microtubules attach to the centromere (kinetochore).
2) Metaphase) Centromeres of chromosomes are aligned on the equator of the cell.
3) Anaphase) Chromosomes split and are pulled to each pole by a microtubule.
Telophase) Chromosomes detach from spindle and begin reforming into the chromatin.

Question 79

Cytokinesis

Answer 79

• Cleavage furrow appears to split cells in half

- Ends cell division