Transcript Cells

Cells
By:
Jon Jefferis
Kevin Busch
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What is a cell?
• Cells are the building blocks of all life.
• Cell comes from the latin word cellular, which
means a small room.
Cell Theory
• The cell theory was first developed in 1839 by Schleiden
and Schwann
• The cell theory states that all organism are made of one or
more cells
• It also states that all cells come from preexsisting cells, all
vital functions of an organisms happen within cells, and
they also store the hereditary information needed to pass
on to the next generation of cells
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Types of cells
Prokaryotic
Eukaryotic
Animal cells vs. Plant cells
Different shapes of cells
Each cell has a different shape
for its location
Liver cells
Blood cells
Kidney cells
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Golgi Apparatus
• Also called Golgi body or Golgi complex
• It is typically made up of a group of five to eight cup-shaped,
membrane-covered sacs called cisternae that look like a stack of
deflated balloons
• It is used for the distribution and shipping department of the cell's
chemical products
• It is similar to the human heart
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Discovery of the Golgi Apparatus
• It was one of the first organelles of the cell to every be discovered
because of its large size
• It was discovered in 1897 by a italian physician named Camillo Golgi.
• He was able to see the golgi apparatus due to a method that is now
called Golgi Staining
The purpose of the Golgi
Apparatus
• It modifies proteins and fats (lipids) that have been made in the
endoplasmic reticulum and makes them ready to be shipped out to
other parts inside and outside of the cell
• Vesicles from the endoplasmic reticulum float around in the cytoplasm
until they reach the Golgi Apparatus
• The vesicles form with the Golgi Apparatus emptying their contents
into the Golgi Apparatus
• Once inside the molecules are changed and shipped out to their
destination
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What is a Chloroplast
• Chloroplasts are small organelles that are found only in
plant cells and eukaryotic algae
• They are an essential part of photosynthesis
• It is derived from the Greek words chloros which means
green and plast which means cell or organelle
• The chloroplast is similar to the human intestines
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Function of the Chloroplast
• Chloroplasts absorb sunlight and combine it with water
and carbon dioxide to make food for the plant
• Chloroplasts capture light energy from the sun to produce
the free energy stored in the cell through a process called
photosynthesis
Structure of the Chloroplast
• Chloroplasts are typically flat disks 1-2 micrometers thick
by 2-10 micrometers in diameter
• The chloroplast has two membranes between them is the
intermembrane space
• The liquid in the chloroplast is called stroma
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Vacuole
• They are compartments that are covered by a membrane
used for storage and disposing of waste
• They are in plant cells and some eukaryotic cells
• Used as food storage in protists
• The vacuole is similar to the human stomach
Function of the Vacuole
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May be used as a defensive mechanism in some plants
It also stores plant food called cell sap
Helps to maintain turgor pressure
Vacuoles help plant cells to grow
Other Functions of the Vacuole
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removing unwanted structural debris
isolating materials that might be harmful to the cell
containment of waste products
maintaining internal hydrostatic pressure or turgor within the cell
maintaining an acidic internal pH
containing small molecules
exporting unwanted substances from the cell.
enabling the cell to change shape.
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Cytoskeleton
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Act as skeleton within the cell
Also known as microfilaments
Found in all eukaryotic
Studies have shown that a cytoskeleton is present in some
prokaryotic cells
• It is located just beneath the plasma membrane
Purpose of the Cytoskeleton
• It is an important part of cell movement and cell division
• They retain the cells shape
• They help with muscle contractions and other bodily
functions
• They help in cell-cell and cell-matrix bonds
• They help transport organelles such as mitochondria and
vesicles
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Nucleus
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The nucleus is similar to the human brain
It is not always in the center of the cell
Not all cells have nuclei
Holds the DNA of the cell
Function of the Nucleus
• Controls almost every part of the cell
• It mainly controls eating, movement, and reproduction
• It contains instructions for the production of proteins and
the reproduction of the cell
The Structure of the Nucleus
• Made up of the main parts, the nucleolus, the nuclear
envelope, and the chromatin.
• The nucleolus contains ribosomes, RNA, DNA, and
proteins
• The chromatin contains DNA and proteins that have been
formed into packets called chromosomes.
• The nuclear envelope helps the nucleus control the cell.
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The Plasma (Cell) Membrane
• The plasma membrane is the outer layer of the cell, that is
composed of protein covered phospholipids
• It is similar to our skin
• It is very flexible because of the way the proteins and
phospholipids are arranged
• Controls the input and output of the cell
Function of the Plasma Membrane
• The plasma membranes lets in nutrients to the cell such as
glucose, amino acids, and lipids.
• It forms a boundary between the cell and the outside.
• Allows some molecule to defuse in and out of the cell
The Structure
• Made of a phospholipid bilayer
• Contains specific proteins and lipids parts that enable It attaches parts
of the cytoskeleton to the cell membrane in order to provide shape.
• It attaches cells to an extra-cellular matrix in grouping cells together to
form tissues.
• It transports molecules into and out of cells by such methods as ion
pumps, channel proteins and carrier proteins.
• It acts as receptor for the various chemical messages that pass between
cells such as nerve impulses and hormone activity.
• It takes part in enzyme activity which can be important in the
metabolism or as part of the body's defense mechanism.
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• Found only in eukaryotic cells
• It is formed from a network of tubules, vesicles, and
cisternae
• Similar to the plasma membrane
• Part of the endomembrane system
• There are two types, Rough ER and Smooth ER
• Located near the nucleus
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Smooth ER
• Stores key enzymes and their products
• In muscle cells it stores calcium which it
then releases in the contraction process
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Rough ER
• It combines and exports proteins and glycoproteins
• A series of vesicles and flattened sacs
• Ribosome’s surround the outside and make proteins which
are then transported into the inside of the ER
• The rough ER works with Golgi Apparatus to do its job
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The Mitochondria
• It is a membrane enclosed organelle and is found in most
eukaryotic cells
• They are like power plants inside the cell
• There are usually around 2000 mitochondria in a cell
• It is similar to the human stomach
Structure of the Mitochondria
• The mitochondria contains inner and outer membranes
• The membranes have different properties
• There are 5 compartments inside the mitochondria, the
outer membrane, the intermembrane space, the inner
membrane, cristae space, and the matrix
The Function of the Mitochondria
• Turns inorganic material into cellular energy
• Plays a big part in our metabolism
• It produces ATP (a form of cell energy)
• each mitochondria is different depending on where it is
located, for example mitochondria in the liver contain
enzymes.
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Lysosomes
• Contain digestive enzymes
• They digest excess or worn out organelles, food particles,
and engulfed viruses or bacteria.
• It can fuse with vacuoles to let their enzymes out in the
vacuole
• It is similar to the human mouth
Functions of the Lysosome
• The lysosomes are used for the digestion of
macromolecules
• It helps in the cells recycling process
• It digests any unwanted molecules or objects
• Hey also serve as being a membrane patch
Structure of the Lysosome
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There are only enzymes in a lysosome, they are:
Lipase, which digests lipids,
Carbohydrases, which digest carbohydrates (e.g., sugars),
Proteases, which digest proteins,
Nucleases, which digest nucleic acids.
Phosphatases, which digest phosphoric acid
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Ribosomes
• It is similar to the human liver because both
make proteins
• Not much is known about the Ribosome and
it is a very active field of study
Function of the Ribosome
• Translates mRNA to protien
• Pairs RNA with amino acids to form DNA
Structure of the Ribosome
• Made of two parts that fit together perfectly
• Binds to endoplasmic reticulum
• There are “Free Ribosomes” that float
around in the cell
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Centrioles
• It is a barrel shaped microtubule (protein
structures found within cells) structure found in
most animal cells and algae
• It is not found in plants very often
• It is similar to the human testicles because it plays
a major role in cell reproduction
Purpose of the Centriole
• They organize material that then later helps the cell divide.
• Very important to cell division
• They duplicate themselves each time the cell divides so
each new cell has a centriole.
Structure of the Centriole
• The walls are made up of 9 triplets of
microtubules.
• Every other triplet of microtubules form a right
angle to each other
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Cell Wall
• a fairly rigid layer surrounding a cell located outside of the
plasma membrane
• Helps in the support and protection of the cell.
• Only found in plant cells
Purpose of the Cell Wall
• provide rigidity to the cell for structural and mechanical
support
• maintaining cell shape
• the direction of cell growth
• And the design and shape of the plant
• The cell wall's main purpose is to protect the interior from
any physical movement that may damage the cell
• It does not select what molecules can enter the cell
Structure of the Cell Wall
• Made up of cellulose (It forms the primary structural
component of green plants), hemicellulose (a random
structure with little strength) and pectin (sugar that is not in
the sugar group)
• Contains proteins
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Eukaryotic cells
• 10 times the size of prokaryotic cells and can be as much
as 1000 times greater in volume
• Have a cell nucleus
• There are 2 types of eukaryotic cells, animal and plant cells
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Prokaryotic cells
• Do not have a nuclear cell membrane
• Do not have most of the intercellular organelles of
eukaryotic cells
• Mitochondria chloroplasts and golgi apparatus are replaced
by the plasma membrane
• Have appendages called flagella and pili
• Have a cell envelope, which is made of a capsule, a cell
wall , and a plasma membrane
• A cytoplasmic region contains DNA and ribosomes
• Chromosomes are usually circular molecules
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The Quiz
• What is a cell?
A. The building block of life
B. A round thing that has no point
The Quiz
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When was the cell theory created?
A. 1838
B. 1883
The Quiz
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How many types of cells are there?
A. 2
B. 46
The Quiz
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Last Question Who are the coolest people
in the world
A. Mr. Theil, Kevin, and Jon
B. Everyone else
Bibliography
• Sullivan, Jim. "Cells Alive." [http://www.cellsalive.com/toc.htm]. May
2006.
• "Wikipedia." [http://en.wikipedia.org/wiki/Main_Page]. December
2006.
• Andrew Rader Studios. "Cells."
[http://www.biology4kids.com/files/cell_main.html]. 2006.