Lecture 1,4,5.docx

Transcript

**Lecture 1: Cell Structure and their Functions**

Section 1: Cell Structure and Function

Learning Objectives:

1. Understand the principle of cell theory

2. Define the main structures and functions of a cell

3. Identify the organelles present in all human cells and learn their
function(s)

[Cell Theory Principles]

- small structural and functional building block unit of all plants
and animals organisms that carries out life processes.

- basic unit of life

- cells function relies on structural properties

- cells of all organisms are similar in structure and function

[Quick Facts]

- Trillions of cells in body classified by 200 cell types

- Based on specific variations in structure and function

Cells common features:

- Plasma membrane

- Cytosol

- Nucleus

**[Structures & their functions]**

Plasma membrane

- Main Function

- Barrier separates the cell's contents from its surroundings.

- Cell to Cell communication

- Controls movement inside and out of cell.

- Structure

- Thin bilayer of lipids, proteins and some carbohydrates

Nucleus

- Main Function

- Houses DNA

- Directs protein synthesis

- Structure:

- Surrounded by a double layered membrane.

Endoplasmic Reticulum

- Function

- Protein and lipid production

- Structure:

- Fluid filled membranous system

Rough ER:

- Function:

- synthesizes protein

- Structure

- Studded with ribosomes

Smooth ER:

- Function:

- packages secretory product into transport vesicles

Golgi Complex

Main Function

- Modifies, packages and distributes newly synthesized proteins.

Structure

- Stack of flattened, slightly curved membrane enclosed sacs.

Lysosomes

- Main Function

- Breaks down organic molecules w/ Hydrolytic (water) Enzymes -
Catalytic

- Structure

- Small, membrane enclosed degradative organelles

Peroxisomes

- Main Function

- Detoxify using oxidative (oxygen ) enzymes.

- Detoxify

- Membrane-enclosed sacs

Centrioles

- Main Function

- Form and organize microtubules during assembly... and form cilia
and flagella (where are they found?)

- Structure

- Cylindrical pair of structures at right angle

Mitochondria -

- Main Function

- cell powerhouse, cellular respiration, extracts energy from
nutrients and transforms into usable form form, ATP production;

- Structure

- Rod shaped or oval structure, size of bacteria

- outer membrane smooth, inner folded (cristae)

- Folding = allows for increased surface area

Cytoskeleton:

1. Microtubules:

Structure

- "bone and muscle of the cell"

- composed of tubulin sub-units that create long, slender, hollow
tubes

Main Functions

- Structural component and functional component of cilia and flagella

- Maintains assymetrical cell shapes and coordinate complex movements
(highway for transport)

- Positions cytoplasmic organelles

- strategically place organelles for effieciency

1. Microfilaments

Structure/Description:

- smallest elements of cytoskeleton

- intertwined helical chains of actin molecules

- Composed of myosin molecules

Main Functions

- cellular contractile systems (muscle contraction and amoeboid
movement)

- ex. mechanical siffener for microvilli

1. Intermediate Filaments

Structure:

- irregular, threadlike protein

Function:

- help resist mechanical stress

- Ex. keratin protein in hair, nails

Cytosol

"Cell Gel"

Contains...

Cytosol

- Structures:

- Intermediary Metabolism Enzymes

- Facilitate Intracellular reactions involving degradation,
synthesis, and transformation of small organic molecules.

- Transport, Sectretory, and Endocytic vesicles:

- Transport or store products being moved within, out of, or
into the cell, respectively.

- Inclusions

- Store excess nutrients

**Lecture 4: Plasma Membrane**

**Plasma Membrane**

- also called the ***cell membrane***

- **Main Function**:

- Surround every cell (integrity of the cell)

- Controls movement of molecules into and out of cell

- Ions, waste, nutrients

- Cell-Cell communication

- **Description:** Spherical cell

- **Composed of:**

- Thin bilayer composed of proteins and lipids (some carbs).
**lipids** called **(Phospholipid molecules)**

- Bilayer = Head and Tail (head facing outside, tail facing
inside)

- The Polar heads = Hydrophilic, negatively charged

- The Non-polar tails = Hydrophobic, uncharged; fatty
chain tails

- Hydrophobic: Water Fearing

- Hydrophilic: Water Loving

- Why do they hate and love water?

- Due to the properties of water (H2O) Oxygen likes to
keep electrons in its own orbit = charged, Hydrogen
bad at keeping electrons in its orbit = uncharged.
Charged layers attract/love water

- Phospholipids = twirl, vibrate, move around within their
half, exchange places

- Never go from ICF to ECF side unless unhealthy

- **Function of Bilayer**: to separate Extracellular &
Intracellular compartments

- Intracellular compartments: Inside the cell (water)

- Extracellular compartments: Outside the cell (water)

- Fluid Mosaic Model

- Fluid: moving, not rigid, Mosaic: not uniform

- PL 50x more than proteins, Proteins = more than Half of
membrane mass

Protein Types (within the Plasma Membrane)

- Come in different shapes and sizes due to different purposes /
functions

- Protein Types

- Channels:

- Carrier Modules: transfer of specific molecules (glucose)

- Docking marker acceptors:

- Membrane bound enzymes:

- Receptors: signal

- Cell adhesion molecules (CAMs):

**Lecture 5: Cell to Cell Adhesions**

Cell to Cell Adhesions & Junction Types

**Cell to Cell Adhesions**

- Plasma membrane participate in Cell - Cell adhesions: the holding
together / adhering to each other.

- 3 Different ways cells ar held together

- **Cell Adhesion Molecules (CAMs)**

- Membrane proteins that allow cells to hold onto each other

- Provide some tissue cohesion as they "velcro" adjacent cells
together.

- **Extracellular Matrix**

- (Extracellular) not inside the cell

- Intricate network of fibrous proteins surrounded by
interstitial fluid (watery, gel-like substance) composed of
complex carbohydrates.

- Interstitial Fluid: provides pathway for diffusion of
nutrients, waste, and other water-soluble traffic
between blood and tissue cells.

- Extracellular Matrix Protein

- ECM is abundant in Connective tissue, not in epithelial

- Fibroblasts: Responsible for making most of the cells
(collagen, elastin, fibronectin) in the ECM.

- Collagen

1. Description: Cable like fibers

2. Function: Tensile strength (allows cells to not be
ripped apart)(integrity of tissue)

3. Most abundant protein in body; half of body protein
by weight

- Elastin

4. Description: Rubber like protein fibers

5. Function: Stretching and recoil

- Fibronectin

6. Description: "function as biological glue"

7. Function: Holds cell in position (promotes cell
adhesion)

8. Key Point: Reduced levels relate to tumor metastasis

- **Specialized Cell Junctions**

- **Desmosomes** (adhering junctions) - additional layer of
**STRENGTH**

- **Function**: Anchor together two adjacent, non-touching
cells

- **Facts:**

1. Strongest cell to cell connection

2. Most abundant, can stretch

- **Location**: Heart, Skin, Uterus

- Cytoplasmic thickening plaque + keratin filament (strong
protein) are two structures that make the cell - cell
adhesion more rigid (Desmosomes)

- **Tight Junctions** (impermeable junctions) - physical
removal of space, sowing cells together

- **Function:** Adjacent cells binds together to seal off
passageway between.

- **Location:** found in sheets of epithelial tissue that
cover internal cavities

1. Digestive tract

- **Facts**: Crohn's disease, IBS, - barrier not intact

- **Gap Junctions** (communicating junctions) - forming gap
between two cells for better communication.

- **Description:** A gap between adjacent cells, linked by
small, connecting tunnels.

1. Group of proteins called

- **Function:** Allow for ions and small water soluble
particles to pass, not large molecules

- **Location:** Cardiac and Smooth Muscle

- **Use Case:** When a process needs to happen at once,
synchronized. (E.g., Heart beat)