Post on 26-Dec-2015
Chapter Three
Cell Structure and Function
The Fundamental Discovery!
Curiosity led early investigators to the most fundamental of all discoveries about life:
Cells are the basic units of structure and function in living things. What does this mean???
Invention Led To This Discovery!
_________; Early 1600s… Two major inventions:
________ – Made distant objects visible. ________ – Made very small objects visible.
Early Scientists
Robert – 1665 Constructed a poor microscope. Could see very little detail. First to observe _____through a
microscope. Saw “many little boxes” Called them cells because they
reminded him of the small rooms called cells in a _________.
Cork was actually ________ outer walls of dead plant cells.
Early Scientists
Anton Van ___________ Improved the simple
microscope. Built more than 240
microscopes & ground the lenses himself.
First to observe ______ cells.
Saw Red Blood Cells & Bacteria from teeth scrapings.
Early Scientists
Modern Light Microscopes – 1825 Compound Light Microscope. Uses 2 or more glass lenses to magnify objects. Magnified up to 1500 times.
Robert Brown – _______ Discovered _________ of cells (dark region in
center).
Early Scientists
Schleiden & Schwann – _________s Schleiden – Concluded that all _______ are made of
1 or more cells (“You ‘SCHLip’ on a banana peel, which is a plant”).
Schwann – Concluded that all ________ are made of 1 or more cells (“A ‘SCHwan’ (Swan) is an animal”).
Rudolf Virchow – 1855 Discovered that all cells arise from the division of
____________ cells.
Cell Theory
All of the information collected by these early scientists was combined to form our modern…
The cell theory forms the basic framework in which biologists have tried to understand living things.
Cell Theory
1. _
2. _
3. _
Two Basic Types of Cells
The absence or presence of a ________ can be used to divide organisms into two general categories.
Organisms whose cells lack nuclei.
Organisms whose cells contain nuclei.
Karyon = “nucleus” pro- = “before”eu- = “true”
Prokaryotic vs. Eukaryotic
Prokaryotic Organisms: Include bacteria and their relatives. Usually smaller and unicellular.
Eukaryotic Organisms: Both unicellular & multicellular forms. Larger and more complex.
The Prokaryotes…
No membrane bound organelles. . Single strand of DNA. . “Live alone.” Primitive cell. .
The Eukaryotes…
Membrane bound organelles. True nucleus. . Mostly _________ organisms (some single
cells). Function with other cells to form organism. More advanced cell type. .
Cell Size
Cell size is limited by metabolic requirements.
Size limits are imposed by the surface area to volume ratio. As a cell increases in size, its volume grows proportionately more than its surface area.
A smaller surface area cannot support a large cell volume (import food, export wastes, etc).
Surface To Volume Ratio
Cell Structures/Organelles
__________ = A tiny structure that performs a specialized function in the cell (“little organ”).
The cells of animals, plants and related organisms have three basic structures: ___________ (outer boundary of cell) Nucleus (control center) ___________ (“fluid” material between cell
membrane and the nucleus)
Animal Cell!
Plant Cell!
Cell Membrane
The cell membrane is the “___________.” It controls what _______________ the cell. Outer boundary of the cell that holds the cell
together (aids in _________ and support of the cell).
Cells need to be able to communicate with other cells, take in food/water and eliminate wastes.
Structure of Cell Membrane
Cell membrane is composed of a double layer of _______, known as a bilayer.
Cell membrane also contains __________, many of which act as channels or pumps through which molecules can enter the cell.
Cell membrane contains carbohydrates as well that act like an “_______” (allow cells to recognize & interact with each other).
Where is the Cell Membrane?
Cell Wall
__________ of plant cells (outside the cell membrane).
Provides rigid support to the cell and protection for the plant.
Three layers: Middle Lamella (“gluey layer”) that connects two plant
cells. Primary Cell Wall (contains cellulose). Cellulose makes
the cell wall elastic so it can stretch & grow. Secondary Cell Wall (contains cellulose & lignin). Lignin
makes cellulose more rigid – found in woody plants.
Cell Wall
Nucleus
The “___________” of the cell. Contains genetic information (_____). “Information Center” that directs all the
activities of the cell. Prokaryotes do not have a nucleus.
Where is the Nucleus?
Nuclear Envelope
Two membranes surrounding the nucleus form the _______________ (a boundary).
There are many pores in the nuclear envelope that allow molecules to move in and out of the nucleus.
Nucleolus
Small, spherical region inside the nucleus.
Made up of _______ and proteins.
________ are made in the nucleolus.
Ribosomes are important in protein synthesis for the cell.
Chromosomes
Structures located in the nucleus that contain DNA (the hereditary information) attached to special proteins.
This genetic information must be passed to each new generation.
Cytoplasm vs. Cytosol
_________ = the space between the nucleus and the cell membrane.
_________ = Thick, jelly-like part of the cell (70% H2O).
Mitochondria & Chloroplasts
Mitochondria Chloroplasts
Both of these organelles change energy from one form to another.
Found in ______cells (and some plant cells).
Found in ______ cells only.
Converts chemical energy in food to ATP energy for use by the cell.
Traps energy from the sun and converts it to chemical (“food”) energy for plant.
Mitochondrion
Mitochondrion contians ________________:
1. Outer membrane surrounds organelle.
2. Inner membrane has many folds that increase surface area. (More space for energy reactions to take place.)
Chloroplast
Similar structure to mitochondrion.
Surrounded by two membranes.
Found only in plant cells and algae.
Location where ___________ takes place.
Ribosomes
___________________________________________________.
Site of protein synthesis in cells. Can be found attached to
membranes or free in the cytosol.
Cells that are active in protein synthesis have MANY ribosomes.
Endoplasmic Reticulum - “ER”
Complex network of sacs in the cytoplasm used to transport materials throughout the cell.
Rough & Smooth ER
___________ – Walls look smooth; no ribosomes. creates steroids/lipids and stores ions, detoxifies poisonous substances
___________– Walls are studded with ribosomes; involved in protein and glycoprotein synthesis.
Protein Destinations...
Proteins that are meant to be released from the cell (for other parts of the body) are made on ribosomes attached to the ____________.
Proteins that are meant to be used inside the cell are made on free __________ that are floating by themselves in the cytosol.
Golgi Apparatus
Flattened stack of membranes piled on top of each other (“pancakes”).
Proteins move from ER to Golgi Apparatus, where they are Packages and then released.
__________________________________
________________________________. Creates Glycoproteins, package lipids,
creation of lysosomes
Path of Proteins...
Proteins made by ribosomes on Rough ER.
Proteins then enter the Rough
ER.
Proteins moved around cell in
Rough ER, often ending up at Golgi
Apparatus.
Golgi Apparatus modifies proteins and sends them to
where they are needed.
Golgi Apparatus
Where is ER and Golgi Apparatus?
Lysosomes
Small spherical organelles that contain chemicals and _______ ______. (“Get rid of cell’s garbage.”)
Endocytosis = When cells engulf particles and bring them through the cell membrane.
These particles are then broken down by lysosomes. “______ _______” – Digest old organelles. Lysosomes are NOT found in plant cells!
Where are Lysosomes?
Vacuoles
Vacuole = A fluid-filled sac within _____ ____. Stores food, water, salts, proteins, carbohydrates, etc.
Many plant cells have a large central vacuole filled with liquid Creates PRESSURE in these cells Makes it possible for plants to grow quickly & to support heavy structures like leaves/flowers.
Why does a plant wilt?
Where is the Vacuole?
Plastids
Plastids = ______ organelle used to store food or pigments. Chloroplast – Contains chlorophyll. Leukoplast – Stores starch granules. Chromoplast – Contains colored pigment.
Cytoskeleton
Cytoskeleton = Composed of a variety of filaments and fibers that support cell structure ( _____________) and drive cell movement.
Microtubules
Microtubules = ______ tubes made of protein. Support cell shape, help move organelles, play a role in
cell division by forming centrioles. (Centrioles are NOT found in plant cells.)
Microtubules also support cilia and flagella (hair-like projections). _______ = Short hairs that move unicellular organisms
and help substances move across surface of cells. __________ = Longer whiplike structures that help
unicellular organisms move.
Microfilaments
Microfilaments = ____, _____ fibers that function in movement and support of the cell. Also permit movement of the cytoplasm within the cell (“________ ________”).
Diffusion!
Cells exist in a liquid environment ~ This makes it easier for materials (food, oxygen, water) to move into and out of the cell.
Diffusion = Molecules move from areas of
________ concentration of that substance to areas of ______ concentration.
Equilibrium
If two substances are present in ______ amounts on either side of a membrane, each substance will tend to move toward the area of lower concentration until equilibrium is reached.
Occurs when the concentrations of the substances on both sides of the membrane are the same.
Equilibrium Question…
When equilibrium has been reached, are molecules still moving through the membrane?
_____!!! Individual molecules move between the two sides at equilibrium, but ________ numbers of molecules move in each direction – so they balance each other out. (No change in concentration.)
Equilibrium
Permeability
Permeability determines whether diffusion occurs across a membrane.
__________: A substance can diffuse across a membrane.
_____________: A substance cannot move across a membrane.
Membranes…
Are most membranes permeable or impermeable?
Some materials can move across membranes and some cannot, so we say that biological membranes are…
Osmosis
Water can pass through most membranes VERY rapidly.
Osmosis = The ________ of water through a selectively permeable membrane from an area of high water concentration to an area of low water concentration.
Osmosis
Forms of Osmosis
__________solutions are those in which more solute and thus less water is present.
___________ solutions are those with less solute and thus more water is present.
___________ solutions have equal (iso-) concentrations of substances.
Solute, Solvent, Solution…
The __________ is what is being dissolved in a solution. Sugar, Salt, Dyes, Etc.
The __________ is what does the dissolving. Usually water.
The __________ is the end product after the solute has completely dissolved in the solvent.
Hypo, Hyper, Isotonic…
Examples!
Examples!
Review: Diffusion
Movement of molecules from a region of
higher concentration to a region of lower concentration.
________ Transport!
Review: Osmosis
Diffusion of water molecules from a region
of high concentration to regions of lower concentration.
Passive Transport!
Facilitated Diffusion
__________ protein helps transport molecules across a membrane.
Still travels from higher concentration to lower concentration.
Still PASSIVE transport! What’s the advantage of facilitated
diffusion? ____________________________________
_____________________________.
Facilitated Diffusion: with molecules
Ion channels also a type of Facilitated Diffusion with Ions
Active Transport
Active = Requires ________! Moves material from areas of lower
concentration into areas of ______ concentration.
This allows cells to concentrate certain molecules, even though normal diffusion might tend to move those molecules in the opposite direction.
Passive vs. Active Transport
Special Types of Active Transport
___________ “Cell Eating” Large particles are surrounded and taken in to the cell.
Pinocytosis “Cell Drinking”
Fluids are taken in to the cell through pockets along the cell membrane.
__________ “Outside The Cell”
Large particles are sent out of the cell.
Cell Specialization
Examples of specialization: Movement. Reaction to environment. Manufacturing of products.
When cells have unique characteristics that allow the cell to perform certain functions in an organism. (The cell is “custom made” for a certain purpose.)
Example 1…
Cells in the pancreas have MANY of the following organelles: rough ER and golgi apparatus.
What function do you think pancreas cells serve?
Protein synthesis – proteins that will be sent to other parts of the body.
Example 2…
Light-sensitive cells in the eye are heavily packed with MITOCHONDRIA.
What can you say about these eye cells? They require a lot of ENERGY!
Example 3…
Cells lining the passageways in the lungs have MANY cilia.
What can you say about the function of these cells?
“Sweeping action” that keeps vital passageways clean and open.
Levels of Organization
Multicellular organisms are studied through their LEVELS OF ORGANIZATION.
CELLS TISSUES ORGANS ORGAN SYSTEMS
Cells are the first and most basic level of organization.
Tissues
Cells are organized into groups called tissues.
Tissues = Groups of similar cells that perform similar functions.
Four main types of tissues: Muscle, Epithelial, Nerve, Connective.
Organs
Tissues are organized into organs.
Organs = Groups of tissues that work together to perform a specific function.
Organ Systems
Groups of organs combine to form organ systems.
Organ System = Group of organs that work together to perform a certain function.
Ten organ systems in the body (Muscular system, Nervous system, Circulatory system, Skeletal system, etc).