Download CELLS and CELL STRUCTURES NOTES

Cells
Objectives:
•List scientists who contributed to the cell
theory
•List the components of the cell theory
•Compare prokaryote and eukaryote cells
•Label a plant and an animal cell
•Know the functions of cell organelles
LEVELS OF ORGANIZATION
Nonliving Levels:
ATOM (element)
MOLECULE (compounds like
carbohydrates & proteins)
ORGANELLES (nucleus, ER, Golgi …)
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LEVELS OF ORGANIZATION
Living Levels:
CELL (makes up ALL organisms)
TISSUE (cells working together
ORGAN (heart, brain, stomach …)
ORGAN SYSTEMS (respiratory, circulatory …)
3
ORGANISM
(living individual)
LEVELS OF ORGANIZATION
Living Levels continued:
POPULATION (one species in an area)
COMMUNITY (several populations in an
area
ECOSYSTEM (forest, prairie …)
BIOME (Tundra, Tropical Rain forest…)
BIOSPHERE (all living and nonliving
4 things on Earth)
Early Contributions
 Robert Hooke - First person to see cells and give them their
name, he was looking at cork and noted that he saw "a great many
boxes” that looked like the cells that monks lived in. (1665)
 Anton van Leeuwenhoek - Observed first living cells in pond water
and scrapings from his teeth, which he called "animalcules" (1673)
Early Contributions
o Theodore Schwann - zoologist who observed tissues of
animals and concluded they had cells. Also the cofounder of
the Cell Theory (1839)
o Mattias Schleiden - botanist, observed tissues of plants
and said they contained cells. Also the cofounder of the Cell
Theory ( 1845)
o Rudolf Virchow – observed under the microscope, cells
dividing and concluded that cells come from pre-existing
cells and that all living things are made of cells (1850 )
The Cell Theory
1. Every living organism is
made of one or more cells.
2. The cell is the basic unit
of structure and function.
It is the smallest unit that
can perform life functions.
3. All cells arise from preexisting cells.
* Why is the Cell
Theory called a Theory
and not a Fact?
Cell Features
ALL cells have these parts
Ribosomes- make protein for use by the
organism
Cytoplasm- fluid material within cell
DNA- genetic material
Cytoskeleton- internal framework of cell
Cell Membrane- outer boundary, some things
can cross the cell membrane
Comprehension Checkpoint
Answer true or false
 1. Robert Hooke was the first person to see cells.
 2. Bacteria cells have a cell membrane.
 3. The Cell Theory was developed by a single
scientist.
 4. Plant cells have cytoplasm
 5. Cells taken from fungi do not have DNA.
 6. Cells can only come from pre-existing cells.
 7. It only took five years to develop the Cell
Theory.
Prokaryote Cells
The first cells to inhabit the earth
Simple cells
Only example: Bacteria
These cells do NOT have a nucleus, their DNA is circular and
floats in the cytoplasm
 Nucleoid region (center) contains the DNA
 Surrounded by cell membrane & cell wall (peptidoglycan)
 Contain ribosomes in their cytoplasm to make proteins




pilli
DNA
Ribosomes
 Some bacteria have a taillike structure called a
flagella, that helps it to move
 A capsule surrounds some
bacteria and helps them
avoid the body’s immune
system
Cell wall
Cell membrane
Bacterial Images
Bacteria that
causes Anthrax
Eukaryotic Cells
 True Cells
 Complex
 Cells found in plants, animals, protists and fungi
 The cell is composed of 4 main parts:
 1. Cell membrane
 2. Cytoplasm (cytosol and organelles, except nucleus)
 3. Nucleus- “control center” of cell, houses DNA
 4. Membrane Bound Organelles- small structures that carry out
specific functions (“little organs”). Shape determines function.
Other Vocab
 Protoplasm (nucleus and cytoplasm)
 Cytosol (fluid part of cytoplasm)
Two Main Types of Eukaryotic Cells
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Plant Cell
Animal Cell
Cheek Cells Seen Through Microscope
Nucleus
 Controls the normal activities of the cell
 Usually found at center of cell and the
largest organelle in animal cells
 Has a nuclear membrane/envelope &
nuclear pores
 Contains cell’s DNA in one of 2 forms
 chromatin - DNA bound to proteins
and spread out (non-dividing cell)
 chromosomes - condensed structures
DNA wrapped around proteins, seen in
dividing cell
 Also contains an organelle
called nucleolus - which makes the
cell’s ribosomes (disappears when cells
divide)
Cytoplasm
• Jelly-like substance
enclosed by cell
membrane
• Provides a medium
for chemical
reactions to take
place
• Contains
organelles to carry
out specific jobs
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cytoplasm
Cell Organelles
 Mitochondria – this is the
cell’s energy center. It
turns food into a chemical
energy called ATP during
Cellular Respiration
 More active cells like
muscle cells have MORE
mitochondria
 The mitochondria is
sometimes called the
“powerhouse” of the cell
 Has its own DNA
Outer
Membrane
Interior called
Matrix
Folded Inner Membrane
called Cristae to increase
surface area for chemical
reactions
Interesting Fact --Mitochondria
Come from
cytoplasm in the
EGG cell during
fertilization
Therefore …
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You inherit your
mitochondria
from your
mother!
Cell Organelles
 Golgi Apparatus –
receive proteins from ER
to modify/processes,
package and secrete
proteins. It is
comparable to a factory
or a post office.
 *A vesicle forms with
Golgi to transport
substances outside
cell.
Golgi
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copyright cmassengale
Cell Organelles
 Lysosome – Contains
digestive enzymes, breaks
down food, bacteria and
worn out cell parts
 Programmed for cell death
(autolysis), "suicide sac”
 Lyse (break open) and
release digestive enzymes to
break down and recycle cell
parts
Cell Organelles
 Endoplasmic Reticulum (ER) –
Connects to nuclear envelope
and cell membrane
 Functions in Synthesis of cell
products and Transport,
"intracellular highway".
-Rough ER contains many
ribosomes & is involved in
protein synthesis
 -Smooth ER (ribosomes not
found on surface)
 Makes membrane lipids
(steroids)
 Regulates calcium (muscle
cells)
 Destroys toxic substances
(Liver)
Cell Organelles
 Ribosomes are
made of proteins
and rRNA where
protein synthesis
occurs by joining
amino acids together
Can be attached to
Rough ER or be
Free (unattached) in
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the
cytoplasm
Cell Organelles
Cytoskeleton – Helps cell maintain
support & shape; movement
 microtubules-hollow structures; also
-help build cilia flagella
 microfilaments-threadlike
Cell Organelles
 Centrioles are found
only in animal cells
 Paired structures near
nucleus
 Made of bundle of
microtubules
 Appear during cell
division forming mitotic
spindle
 Help to pull chromosome
pairs apart to opposite
ends of the cell
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Centrioles & the Mitotic Spindle
Made of MICROTUBULES (Tubulin)
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Cell Organelles
Cilia are shorter
and more numerous
on cells
Flagella are longer
and fewer (usually
1-3) on cells
Function in moving
cells, in moving
fluids, or in small
particles across the
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cell surface
Cell Movement with Cilia &
Flagella
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Cilia Moving Away Dust Particles from
the Lungs
Respiratory System
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Cell Membrane
 Selectively
permeable ; it
regulates what
comes into the cell
and what leaves the
cell
 It is composed of a
double layer of
phospholipids with
proteins embedded
throughout
Cell or Plasma Membrane
Composed of double layer of phospholipids and
proteins
Surrounds outside of ALL cells
Controls what enters or leaves the cell
Living layer
Outside
of cell
Proteins
Carbohydrate
chains
Cell
membrane
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Inside
of cell
(cytoplasm)
Protein
channel
Lipid bilayer
Phospholipids
Heads contain glycerol &
phosphate and are hydrophilic
(attract water)
Tails are made of fatty acids
and are hydrophobic (repel
water)
Make up a bilayer where tails
point inward toward each other
Can move laterally to allow
small molecules (O2, CO2, &
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H2O to enter)
The Cell Membrane is Fluid
34Molecules
in cell membranes are constantly moving and changing
Cell Membrane Proteins
Proteins help move large
molecules or aid in cell
recognition
Peripheral proteins are
attached on the surface
(inner or outer)
Integral proteins are
embedded completely
through the membrane
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GLYCOPROTEINS
Recognize
“self”
Glycoproteins have carbohydrate tails to act
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as markers for cell recognition
Cell Membrane in Plants
Cell membrane
• Lies immediately
against the cell
wall in plant cells
• Pushes out against
the cell wall to
maintain cell shape
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Plant Cells
Have additional structures
CELL WALL –
surrounds membrane & provides
additional support
CHLOROPLASTS – contain green
pigment, function in photosynthesis
CENTRAL VACUOLE – large water
container in center of cell
LACK Centrioles
Plant Cell
 Can you identify all the
parts?
Anacharis Cells Viewed With a
Microscope
Cell Organelles
o Cell Wall- Nonliving
layer found in plants,
fungi, & bacteria
o Made of cellulose in
plants, peptidoglycan
in bacteria and chitin
in Fungi
o Supports and protects
cell
o 41Found outside of the
cell membrane
Cell wall
Chloroplasts
Found only in
producers (organisms
containing chlorophyll)
Use energy from
sunlight to make own
food (glucose)
Energy from sun
stored in the Chemical
Bonds of Sugars
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Chloroplasts
Surrounded by DOUBLE
membrane
Outer membrane smooth
Inner membrane modified
into sacs called
Thylakoids
Thylakoids in stacks
called Grana &
interconnected
Stroma– gel like material
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surrounding
thylakoids
Chloroplasts
Contains its own
DNA
Contains
enzymes &
pigments for
Photosynthesis
Never in animal
or bacterial cells
Photosynthesis –
food making
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process
Cell Organelles
Vacuole – storage area
for sugars, proteins,
minerals, lipids, wastes,
salts, water, and
enzymes, plant cells
usually have a large
central vacuole
Small or absent in
animal cells
Contractile Vacuole
Found in unicellular
protists like
paramecia
Regulate water intake
by pumping out excess
(homeostasis)
Keeps the cell from
lysing (bursting)
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Contractile vacuole animation
Organelles with DNA
 In 1970, American biologist, Lynn Margulis, provided evidence
that some organelles within cells were at one time free living
cells themselves
 Supporting evidence- Mitochondria and chloroplasts have
their own DNA (separate from the nucleus)
 This supports the ENDOSYMBIOSIS THEORY which states
that eukaryotic cells evolved when prokaryote cells engulfed
or absorbed other cells.
Multicellular Organisms
Cells in multicellular organisms often
specialize (take on different shapes &
functions)
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Cell Specialization
Cells in a multicellular organism
become specialized
by turning different
genes on and off
This is known as
DIFFERENTIATION
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Specialized Animal Cells
Muscle cells
Cheek cells
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Red blood cells