Post on 18-Dec-2015
Section 3: Parts the Cell
Definition of Cell
A cell is the smallest unit that is capable of
performing life functions.
1. Organelle: membrane-bound structure within a cell that has a specific shape and function.
a) “little organs”
b) Examples: Nucleus, Mitochondria, Chloroplast
Definition of Organelle
Structure and Function of Organelles
1. The Structure and Function of the following organelles will be discussed:– Cell Wall– Cell (Plasma) Membrane– Nucleus– Nuclear Envelope– Nucleolus– Ribosomes– Cytoplasm– Endoplasmic Reticulum
– Golgi Apparatus– Vacuoles– Lysosomes– Mitochondria– Chloroplasts– Cytoskeleton– Centrioles– Cilia and Flagella
Surrounding the Cell
Cell Wall – Rock Wall around Burlington
1. Structure: rigid wall made up of cellulose (plants), proteins, carbohydrates, chitin (fungi)
2. Function: boundary around the plant cell, outside of the cell membrane that provides structure, support, and protection
3. Eukaryotic & Prokaryotic
Cell Membrane/Plasma membrane – Burlington City Limits
Structure: Two layers of phospholipids and proteins
Function: Regulates materials entering and exiting the cell
Inside the Cell
Nucleus – Burlington City Hall
1. Structure: Separated from cytoplasm by nuclear envelope; contains nucleolus; contains DNA
2. Function: Controls cells activities. Regulates DNA and RNA actions
3. Eukaryotic
Nucleus – Burlington City Hall
Nuclear Envelope – Walls & Doors of City Hall
1. Double layer of lipids surrounds nucleus
2. Regulates what enters or exits the nucleus
DNA – Burlington’s Laws & City Code
1. Structure: Made up of nucleotides, locked in the nucleus
2. Function: information how to make proteinsa) Chromatin – unorganized
DNA (normal state)
b) Chromosomes – organized DNA (present before cell division)
13
Chromosomes
1. Inside nucleus
2. Made of DNA
3. Contain instructions for traits & characteristics
4. 46 total in each cell**
Nucleolus – Burlington Mayor
1. Structure: inside the nucleus, separate from DNA
2. Function: Produces RNA and ribosomes, which are used to make all proteins
3. Eukaryotic
Ribosomes – Factories, Builders
1. Structure: not membrane-bound; consist of two subunits made of protein and RNAa) Found attached to rough
ER or floating free in cytoplasm
2. Function: location of protein synthesis
3. Eukaryotic & Prokaryotic
Cytoplasm – All air, water, life that are in Burlington, except City Hall
1. Structure: gelatin-like fluid that lies inside the cell membrane except for nucleusa) A human cell system is approximately 75%
water2. Function: All cell contents that lie between the
cell membrane and nucleus3. Eukaryotic & Prokaryotic
Endoplasmic Reticulum – Roads & Sidewalks1. Structure: a system of membranous tubules and
sacs
2. Function: site of chemical reactions involving protein synthesis. Transportation route for proteins
3. Two types:
a) Rough Endoplasmic Reticulum
b) Smooth Endoplasmic Reticulum
4. Eukaryotic
Rough Endoplasmic Reticulum
1. Rough Endoplasmic Reticulum (rER): make large amounts of proteins to be exported from the cell or inserted into the cell membrane
a) Ribosomes attached to the surface
Rough Endoplasmic Reticulum
Smooth Endoplasmic Reticulum
1. Smooth Endoplasmic Reticulum (sER): involved in the synthesis of lipids and breakdown of toxic substances
a) Not covered with ribosomes
Golgi Apparatus – Post Office
1. Structure: stacked flat sacs
2. Function: receives proteins from the rER and distributes them to other organelles or out of the cell
a) receives, processes, packages, and ships proteins
3. Eukaryotic
Golgi Apparatus – Post Office
Golgi Apparatus Function
1. Molecules come in vesicles
2. Vesicles fuse with Golgi membrane
3. Molecules may be modified by Golgi
4. Molecules pinched-off in separate vesicle
5. Vesicle leaves Golgi apparatus
6. Vesicles may combine with plasma membrane to secrete contents
Vacuoles & Vesicles – Grocery stores, water tanks
1. Structure: a sac of fluid surrounded by a membrane
a) Very large in plants and very small in animals
2. Function: used for temporary storage of wastes, nutrients, and water
3. Eukaryotic
Vacuole
Lysosomes – Recycling Center
1. Structure: spherical organelles that contain hydrolytic enzymes
a) Formed by the Golgi
2. Function: breaks digest down:
a) food particles
b) invading objects
c) worn out cell parts (digestion)
d) Transports undigested material to cell membrane for removal
3. Eukaryotic
Lysosomes – Recycling Center
Mitochondria – Power Plants
1. Structure: folded membrane within an outer membrane
a) The folds of the inner membrane are called cristae
2. Function: Produces energy ATP through chemical reactions by breaking down fats and carbohydrates (glucose)
a) A.K.A - cellular respiration
3. Eukaryotic
Mitochondria – Power Plants
Mitochondria – Power Plants
Chloroplasts – Solar Panels
1. Structure: stacked sacs (thylakoids) that contain chlorophyll surrounded by a double membrane
2. Function: site of photosynthesis (converting sun and CO2 into glucose)
3. Eukaryotic
Photosynthesis –Restaurants
1. Takes place in the chloroplast
2. Makes cellular food – glucose
Cytoskeleton – Wood, cement, steel beams
1. Structure: a network of thin, fibrous elements made up of microtubules and microfilaments
2. Function: Provide support and structure for the cell. Anchors organelles
3. Eukaryotic
Microfilaments and Microtubule
1. Helps to maintain shape of the cell.
2. Aid in cell division (mitosis and meiosis)
Centrioles – Cummings High vs. Western High
1. Structure: composed of microtubules arranged in a ring
a) Exist in pairs
2. Function: help divide the cell during cell division (mitosis)
3. Eukaryotic
Centrioles Short tubes necessary for cell division
(reproduction)
Cilia & Flagella – Cars or bicycles
1. Used for movement (animal cells only)
2. Cilia a) Many short fibersb) Used to move substances
outside human cells
3. Flagella a) 1 long fiberb) Whip-like extensionsc) Found on sperm cells
Cell Parts Analogy Homework
1. Create an analogy (besides the city analogy) for the cell and its parts
2. Possible ideas:a) Stadium
b) School
c) Country
d) Restaurant
e) House
f) Mall
Stadium Example:
1. Cell membrane: wall of stadium, gates
2. Cytoplasm: everything inside the stadium.
3. Nucleus: the control room for the stadium.
4. Etc…
Plant Cells vs. Animal Cells
1. Animal cells are very similar to plant cells except for the following major differences:
a) Animal cells do not contain chloroplasts
b) Animal cells are not surrounded by cell walls
c) The vacuoles in plants are much larger than those of animals
Animal Cell
Plant Cell
Comparison of Cells
Microscope Pictures of aPlant Cell and an Animal Cell
Elodea Human Cheek Cells
Section 4: Functions of Cells
Functions of the Cell
1. Each living cell carries out the tasks of:
a) digesting food
b) transforming food into energy
c) getting rid of wastes
d) reproducing.
Functions of the Cell - Exocytosis
1. Materials are exported out of the cell via secretory vesicles. In this process, the Golgi complex packages macromolecules into transport vesicles that travel to and fuse with the plasma membrane.
2. This fusion causes the vesicle to spill its contents out of the cell.
3. Important in expulsion of waste materials out of the cell and in the secretion of cellular products such as digestive enzymes or hormones.
Exocytosis
Exocytosis
Functions of the Cell - Endocytosis
1. Process by which materials move into the cell.
2. In phagocytosis or “cellular eating,” the cell’s plasma membrane surrounds a macromolecule and buds off to form a food vacuole.
3. Then it fuses with a lysosome whose hydrolytic enzymes digest the “food” inside.