2. Types of Cells
Nerve cells: surface is sensitive to stimuli. Long
extensions.
Muscle cells: contain tiny fibers that slide together
forcefully. Elongated and threadlike.
Red blood cells: contains hemoglobin that attracts
and releases oxygen.
Gland cells: contains sacs that release a secretion to
the outside of the cell.
Immune cells: recognize and destroy “nonself” cells
such as bacteria and cancer.

3. Cell Structure
Cytoplasm: gel like substance inside the cell. This gel
contains the cell organelles.
Plasma membrane: the outer boundary of the cell.
Membranous organelles also have these membranes.
Primary structure of a cell membrane is a double
layer of phospholipids molecules.
Heads are hydrophilic (water loving)
Tails are hydrophobic (water fearing)
Double layer is called a bilayer.
The bilayer allows the heads to face the water and the
tails to face away.

4. Fluid Mosaic Model
Molecules that comprise a cell membrane are
arranged in a sheet. Molecules are able to slowly float
around the membrane like icebergs because it is fluid.
Membrane proteins have many different structural
forms that allow them to serve various functions.
Some have a carbohydrate attached to their outer
surface forming glycoprotein molecules which act as
identifying markers.

5. Fluid Mosaic Model
Membrane channel proteins have openings like gates
in a fence that only allow certain kinds of molecules
to pass through.
Other membrane proteins are receptors that can
react to the presence of a hormone or other
regulatory chemicals thereby triggering a change in
the cell.

7. Cell Organelles
Organelles: “little organs”.
Two classifications:
Membranous organelles: organelles that are specialized
sacs or canals made of a cell membrane.
Nonmembranous organelles: are not made of a
membrane but of microscopic filaments or other
nonmembranous material.

8. Cell Organelles
Endoplasmic reticulum: protein synthesis and
intracellular transportation.
Rough ER: ribosomes are attached to the ER and
synthesize proteins
Smooth ER: synthesizes lipids, steroid hormones and
certain carbohydrates.
Ribosomes: site of protein synthesis. A cell’s “protein
factory”. Nonmebranous.

11. Cell Organelles
Golgi Apparatus: synthesizes carbohydrates,
combines it with protein and packages the product as
globules of glycoprotein. Membranous.
Lysosome: bags of digestive enzymes break down
worn cell parts and ingest particles. A cell’s “digestive
system”. Membranous.
Peroxisomes: contain enzymes that detoxify harmful
substances. Membranous. Contain peroxidase and
catalase.

13. Cell Organelles
Mitochondria: ATP synthesis. A cell’s “power plant”.
Membranous.
Centrosome: area of cytoplasm near the nucleus that
coordinates the building and breaking of
microtubules in the cell. Nonmembranous.
Plays an important role during cell division when the
“spindle” moves chromosomes around the cell.

16. Nucleus
Nucleus is one of the largest cell organelles. Houses
the genetic code which in turn dictates protein
synthesis. It’s membrane the Nuclear envelope
consists of:
Nucleoplasm: nuclear substance
Nuclear pores: selectively permeable
Nucleolus: the most prominent structure visible in
the nucleus. Plays an essential role in the formation of
ribosomes. Synthesizes ribosomal RNA.
Nonmembranous.

17. Cell Extensions
Cilia and Flagella: hair like extensions that serve to
move substances over a cells surface (cilia) or to
propel sperm cells (flagella).
Microvilli: like tiny fingers crowded against each
other. Cover surfaces where absorption is important.
Example: epithelial cells that line the intestines.

18. Cell Fibers
Microfilaments: serve as “cellular muscles”. They are
thin, twisted strands of protein molecules and usually
form bundles that lie parallel to the long axis of a cell.
Intermediate filaments: are twisted protein stands
that are slightly thicker than microfilaments.
 Thought to form much of the supporting framework in many types of
cells.
Microtubules: are the thickest cell fibers. They are
tiny, hollow tubes made of protein subunits arranged
in spiral fashion.
 Called the “engines” of cells because they often move things around.

20. Cell Connections
Gap Junctions: are formed when membrane channels
of adjacent plasma membranes adhere to each other.
 They form gaps or “tunnels”. This allows certain molecules to pass directly
from one cell to another.
 Example: heart muscle cells- allows for impluses to travel.
Tight Junctions: occurs in cells that are joined by
“collars” of tightly fused membrane. This is important
for tissues that need to control what gets past. Molecules
can not penetrate this membrane.
 Example: lining of the intestines.
Desmosomes: are small “spot welds” that hold
adjacent cells together.
 Example: adjacent skin cells are held together this way.