Functional Organization of cells

Question 1

What is a cell

Answer 1

The smallest basic living unit

Question 2

What is a tissue

Answer 2

group(s) of cell types and intercellular material that group together to perform specific fxn

I.E. Muscle or Nerve

Question 3

Organ/Organ System

Answer 3

Aggregate of cells/tissues held together by intra/intercellular support structures

I.E. Kidney, Heart, GI Tract

Question 4

Basic Tissue Types

Answer 4

Nervous
Epithelial
Muscle
Connective

Question 5

Nervous Tissue Characteristics

Cell,extracellular matrix, fxn

Answer 5

Cells: Intertwining Elongated
Extracellular Matrix: None
Fxn: Transmision of APs

Question 6

Epithelial Tissue Characteristics

Cell,extracellular matrix, fxn

Answer 6

Cells: Aggregated Polyhedral
Extracellular Matrix: minimal
Fxn: lining of surface or body cavities; absorption, glandular secretions

Question 7

Muscle Tissue Characteristics

Cell,extracellular matrix, fxn

Answer 7

Cells: Elongated contractile cells
Extracellular Matrix: Moderate amount
Fxn: Movement

Question 8

Connective Tissue Characteristics

Cell,extracellular matrix, fxn

Answer 8

Cells: Several types of fixed or wandering cells
Extracellular matrix: Abundant amount; matrix is the basis for fxn of each CT type
Fxn: multiple fxns from structure to immunity

Question 9

Intracellular Fluid

Answer 9

• 2/3 of total body water
• Primarily a solution of K and organic anions (high K, low NA), CHO, PRO, Lipids, AAs
• Not homogeneous in your body. It represents a conglomeration of fluids from all the different cells.
• Cell membrane/metabolism control cytosol contents

Question 10

Extracellular Fluid

Answer 10

• 1/3 of total body water
  *Primarily a NaCl and NaHCO3 solution.
  *Further subdivided into three sub compartments: Interstitial Fluid (ISF)
  Plasma
  Transcellular Fluid

Question 11

The 60-40-20 Rule

Answer 11

60 % of body weight is water
40% of body weight is intracellular fluids
20% of body weight is extracellular fluid
Cytoplasm- protoplasm of the cell: intracellular fluid and organelles excluding nuclear material

Question 12

Interstitial Fluid

Answer 12

Surrounds cells, does not circulate

- makes up 3/4 of ECF

Question 13

Plasma

Answer 13

Extracellular component of blood; circulates

- makes up 1/4 of ECF

Question 14

Transcellular Fluids

Answer 14

Outside of normal compartments (~1-2L of fluid
Examples:
-CSF, Synovial fluid, Mucus, digestive juices

Question 15

Plasmalemma-Phospholipids

Answer 15

Polar region: hydroPHILIC (heads)

Non-polar region: hydroPHOBIC (tails)

Question 16

Selective permeability: plasmalemma fxn

Answer 16

hydroPHOBIC molecules pass easily;
hydroPHILIC molecules do not
controls whats allowed into internal cellular environment

Question 17

Physical isolation: plasmalemma fxn

Answer 17

maintenance of internal cell environment

keeps cellular components in protected environment

Question 18

Immunospecificity: plasmalemma fxn

Answer 18

serves as recognition site for other cells and antibodies

Question 19

hydrophilic molecules

Answer 19

Water soluble
Glucose
Ions
Urea
PRO
*Require specific entry route to get into/out of cell

Question 20

Hydrophobic molecules

Answer 20

Fat soluble
O2
CO2
Alcohol
Lipids, fats
Easily move b/w cytoplasm and extracellular space

Question 21

Cell Membrane Proportions

Answer 21

Protein: 55%
Phospholipids: 25%
Cholesterol: 13%
Other lipids: 4%
CHO: 3%

Question 22

Cholesterol

Answer 22

Increased amounts of cholesterol=increased viscosity (like jam vs water=thicker)
Allows cell to control fluidity of plasmalemma to faciliate cell mvmt and rigidity

Question 23

Integral transmembrane proteins

Answer 23

span the lipid bi-layer fxn as a channel or pore, carrier proteins, or cell surface receptors

Question 24

Channel or pore: membrane proteins

Answer 24

for water, and water soluble substances (ions)

diffuse between the extracellular and intracellular environments

Question 25

Carrier proteins: membrane proteins

Answer 25

actively transport molecules against the concentration gradient
Transport substances that otherwise could not penetrate and (active transport- against the natural direction of diffusion) enzymes

Question 26

Cell surface receptor: membrane proteins

Answer 26

identification for cells and antibodies

assist in recognition of self and non-self

Question 27

Ligand

Answer 27

molecule that binds to a particular receptor and tells the cell to produce some type of cellular activity.

Question 28

Peripheral proteins

Answer 28

occur on one side of the membrane only-typically cytoplasmic side of membrane; ones on outside of membrane=recognition sites

normally attached to integral proteins

Fxn: enzyme catalysts to affect intracellular events (second messenger system)

Question 29

Second Messenger System

Answer 29

Classes of intracellular signals acting at or situated within the plasma membrane and translating electrical or chemical messages from the environment into cellular responses

Second messenger system is most important part of the peripheral membrane proteins because they produce cellular activity inside the cell (make things happen from messages from outside cell to inside)

Question 30

Glycocalyx Fxns

Answer 30

CHO are linked to proteins and lipids on outer surface of cell membrane

• serve in cell to cell recognition processes; participate in immune rxns
• attachment sites for other cells to ECM
• Some (CHO) are charged negatively; act to repel/attract other charged species
• CHO serve as receptors for binding hormones (insulin)

Question 31

Nucleus

Answer 31

Contains genes encoded as DNA

control center of cell

Question 32

Genes fxns

Answer 32

Control production of cellular proteins (structural and enzymatic) that ultimately control cytoplasmic and nuclear activity

Question 33

Nuclear Membrane

Answer 33

contains pores where inner and outer layers fuse
–pores are guarded to restrict mvmt into/out of nucleoplasm
double bilayer

Question 34

Nucleoli

Answer 34

accumulation of RNA and ribosomes

–storage site for RNA that is ready to translate into proteins

Question 35

Chromatin

Answer 35

coiled strands of DNA, bound to proteins
Heterochromatin (inactive) appears more electron dense than euchromatin (active)

• H-I=Hetero not active
• Easily Attracted=E-active

Question 36

Endoplasmic Reticulum

Answer 36

network of interconnected tubular and flat vesicular structures
membrane composed of normal lipid bilayer with endoplasmic matrix inside
produces proteins and lipids for cellular use and for secretion
Small vesicles of ER break away from ER and transport contents to Golgi App for final processing

Question 37

Rough ER

Answer 37

ribosomes(RNA & PRO) attached to membrane; often continuous with nuclear membrane
produce new proteins for cell and for secretion

Question 38

Smooth ER

Answer 38

no ribosomes--much like sacroplasmic reticulum
steroid production
membrane phospholipid production
contains numerous enzymes to detoxify 
Ca+ storage

Question 39

Golgi Apparatus Fxns

Answer 39

Final packaging center: process substances formed in ER

Synthesize CHO

Question 40

Concentration of substances in small vesicles: Golgi Apparatus

Answer 40

vesicles release contents via exocytosis
vesicles fuse with plasmalemma to replenish membrane bilayer
some vesicles remain for intracellular uses

Question 41

Cis face of Golgi App

Answer 41

closest to ER, accepts ER vesicles here

Question 42

Trans face of Golgi App

Answer 42

nearest plasmalemma, vesicle for export are created here

Question 43

mitochondria Fxns

Answer 43

-produce energy through aerobic production of ATP
—energy created is stored in high energy phosphate bonds of ATP
–exist in variable amounts in different cells: muscles=most
Contain their own DNA for self replication

Question 44

Mitochondrial membrane

Answer 44

consists of double lipid bilayer

-inner membrane contains enzymes for converting molecular energy into ATP

Question 45

Mitochondrial matrix

Answer 45

cytosol w/in the mitochondrion is filled with enzymes for energy extraction from nutrients

Question 46

Mitochondrial Cristae

Answer 46

(protrusions of inner membrane)

-create greater surface area for enzymatic activity

Question 47

Lysosome Fxns

Answer 47

final packaging of lysosomes occurs in Golgi App
responsible for digestion of intracellular and extracellular material
exists in different states of activity (optimal activity ion acidic conditions)
Hydrolytic enzymes-(main fxn is digestion) (PRO) synthesized in the RER

Question 48

Primary Lysosome

Answer 48

contain digestive enzymes only

can release contents into intercellular space

Question 49

Phagosome: lysosome

Answer 49

vesicle of material taken into the cell from the environment (will fuse with primary lysosome)

Question 50

Secondary Lysosome

Answer 50

Fusion of phagosome & lysosome

enzymatic digestion takes place–digested material released from the cell via exocytosis

Question 51

Residual body

Answer 51

remaining indigestible material, usually removed through exocytosis

Question 52

Cytoskeleton

Answer 52

fibrillar cell proteins organized into filaments or tubules
provides rigid structural support to cells and allows cells to alter shape, contract, and move
Composed of: microfilaments;intermediate filaments;microtubules

Question 53

Cytoskeleton

Answer 53

fibrillar cell proteins organized into filaments or tubules
provides rigid structural support to cells and allows cells to alter shape, contract, and move
Composed of: microfilaments;intermediate filaments;microtubules

Question 54

Cytoskeleton Architecture

Answer 54

Actin—same action that they have in the muscular contraction, providing structure and ability to move
Microtubules—acts like a highway
Intermediate filament—architectural structure function, connection to extracellular space

Question 55

Microfilaments-thin filaments

Answer 55

slender protein strands–5-7 nm thick
Actin is main protein of microfilaments
**Anchor cytoskeleton to membrane proteins–structural support
**Alter viscosity of cytoplasm-more filaments=greater viscosity
**Interact w/myosin to produce change in cell shape or mvmt of cell (contraction)

Question 56

Intermediate Filaments

Answer 56

7-11nm diameter
different cell types have varied types/amounts of these filaments
FXN: provide strength and stability for cell shape
stabilize organelle positions
stabilize cell position with respect to surrounding cells-via attachment to cell membrane

Question 57

Common Intermediate Filaments

Answer 57

Keratins: found in skin
Vimentin: mesenchymal cells (CT)
Desmin: muscle cells (smooth, skeletal, cardiac)
Glial filaments: glial cells of CNS (astrocytes)
Neurofilaments: neurons

Question 58

Microtubules FXN & Characteristics

Answer 58

Maintain cell shape
Participate in intracellular transport of organelles and vesicles providing pathways through the cytoplasm
Make up cilia and flagella
form mitotic spindle for aligning chromosomes during mitosis
composed of alpha and beta subunits of the proteins tubulin

Question 59

Cilia

Answer 59

move fluid over stationary cell

Question 60

Flagella

Answer 60

provide cell motility

Question 61

Thick filaments-myosin

Answer 61

occur as bundles of myosin protein subunits
b/w 12-15 nm in diameter
prevalent in muscle cells–but present in most cell types
interact with actin to produce cellular contraction

Question 62

Plasticity of Organelles

Answer 62

Amount of organelles and characteristics vary depending on needs of the cell/tissue

Question 63

Skeletal muscle: plasticity

Answer 63

specialized w/abundant amount of myosin and vast # of mitochondria

Question 64

Neurons: plasticity

Answer 64

large amounts of RER and microtubules for production and transport of neurotransmitters

Question 65

Cytoskeleton: plasticity

Answer 65

proportion of components varies among cell types and also with fxn of cell

Question 66

SER: plasticity

Answer 66

modified in liver cells for detoxification and in skeletal muscle for Ca+ storage