Transcript cell

LG 1- Cell Structure and Function
Things Common to All Cells
Genetic Material –
Cytoplasm –
Plasma Membrane –
Cell Types
Prokaryotes –
Eukaryotes –
The Nucleus –
The Endomembrane Systems –
The Golgi Complex –
Lysosomes and Peroxisomes –
Mitochondria –
The Cytoskeleton –
The Plant Cell
Chloroplasts –
Other Plastids –
Central Vacuoles –
Cell Walls –
Unit IV
Cells
Learning Goal 1
Examine the structures found in cells
and how they function to maintain
homeostasis.
Things Common to All Cells
Genetic Material
All cells have a central region
that contains DNA molecules.
Cytoplasm
All the parts of a cell that
surround the central region
comprise the cytoplasm.
This consists of cytosol, a
water solution containing ions
and various organic molecules.
It also contains organelles,
little organs necessary for
important cell functions
Cell Membrane
The cytoplasm is surrounded
by a cell or plasma
membrane.
Cell Types
• Prokaryotes
Make up the two
kingdoms of bacteria
Have cell walls that
surround the plasma
membrane, producing a
capsule for protection of
the cell.
DNA consists of a single
circular molecule called a
prokaryotic chromosome.
• Contain structures called
ribosomes that are used
to assemble proteins for
the cell.
• Many prokaryotes have
flagella (singular
flagellum). This is a taillike structure that helps
bacterial cells to move
around.
Eukaryotic Cells
• Organisms from all of the
other kingdoms consist of
eukaryotic cells.
(Protists, Fungi, Plants,
and Animals).
• Genetic material is
surrounded by a true
membrane enclosed
nucleus.
• The cytoplasm contains a
system of membranous
organelles that carry out
major cell functions.
The Nucleus
• The nucleus is separated
from the cytoplasm by the
nuclear envelope which
consists of two
membranes separated by
a narrow space.
• Nuclear pores form
openings through both
membranes to allow the
passage of substances.
• The liquid inside the nucleus is
called nucleoplasm.
• The nucleus is filled with
chromatin, a combination of
DNA and proteins.
• The hereditary information of a
eukaryote is distributed among
several to many linear DNA
molecules in the nucleus.
Each of these is called a
chromosome.
• The nucleus also
contains a structure
called the nucleolus.
• These structures play
a role in the
production on
ribosomes.
The Endomembrane System
• Endoplasmic Reticulum
This is an extensive
interconnected network of
membranous channels
and vesicles.
Vesicles, are small
membrane-bound
compartments that
transfer substance
between part of the
system.
• There are two types
of endoplasmic
reticulum (ER).
• Rough ER has
ribosomes that stud
its surface.
• The proteins made on
these ribosomes are
finished into their final
form in the lumen
(space) within the ER.
• Smooth ER
There are no ribosomes on
these membranes.
The smooth ER has various
functions in the cytoplasm
including synthesis of lipids
that become part of the cell
membranes.
In some cells, such as those of
the liver, smooth ER
membranes contain enzymes
that convert drugs, poisons,
and toxic by-products of
cellular metabolism into
substances that can be
tolerated or more easily
removed from the body.
• Golgi Complex
This is a stack of
flattened, membranous
sacs without attached
ribosomes.
Further chemical
modifications of proteins
occur here and are then
sorted into vesicles that
pinch off from the
margins of Golgi sacs.
• Proteins secreted from the cell
are transported to the plasma
membrane by secretory
vesicles which release their
contents to the exterior by
exocytosis.
In this process a secretory
vesicle fuses with the plasma
membrane and spills the
vesicle contents to the outside.
Vesicles may form by the
reverse process, called
endocytosis which brings
molecules into the cell from the
exterior.
• Lysosomes
Membrane-bound vesicles that
contain hydrolytic enzymes for
digestion of many complex
molecules.
They are the recyclers of the
cell.
They digest food molecules
entering the cell by
endocytosis.
In a process called autophagy
they digest organelles that are
not functioning correctly.
Peroxisomes
produce hydrogen
peroxide as a byproduct of break
down reactions. This
toxic substance is
then converted to
water and oxygen by
the enzyme catalase.
.
Mitochondria
• These organelles are
known as the
“powerhouses” of the cell.
• This is where cellular
respiration occurs. In
this process energy-rich
molecules such as
sugars, fats, and other
fuels are broken down to
water and carbon dioxide
by reactions that release
energy.
• The mitochondria consist of an
outer mitochondrial
membrane which is a smooth
outer covering.
• An inner membrane is
expanded by folds called
cristae and surrounds the
inner compartment called the
mitochondrial matrix.
• The high-energy molecule ATP
is produced in the cristae and
matrix.
• Mitochondria also contain
DNA and ribosomes that
resemble those structures
in bacteria.
• These and other
similarities suggest that
mitochondria originated
from ancient bacteria that
became permanent
residents of the
cytoplasm during the
evolution of eukaryotic
cells.
The Cytoskeleton
• This is an interconnected
system of protein fibers
and tubes that extends
throughout the cytoplasm.
• It reinforces the plasma
membrane and functions
in movement of structures
within the cell and of the
cell as a whole.
• It is made up of
microtubules,
intermediate filaments,
and microfilaments.
Plant Cells
•
Chloroplasts
These are the organelles in plant cells
that are the site of photosynthesis.
They are composed of on outer
boundary membrane and an inner
boundary membrane.
Within these membranes is an inner
compartment called the stroma,
Within the stroma are flattened closed
sacs called thylakoids. Stacks of
these sacs are called grana.
The thylakoid membranes contain
molecules that absorb light energy and
convert it to chemical energy. The
primary molecule is chlorophyll.
•
Other Plastids
Besides chloroplasts there are
other organelles known as
plastids.
Amyloplasts are colorless
plastids that store starch, a
product of photosythesis.
Chromoplasts contain red and
yellow pigments and are
responsible for the colors of
ripening fruits or autumn leaves.
Chloroplasts also contain DNA
and ribosomes that resemble
those of certain photosynthetic
bacteria. Like mitochondria they
are believed to have originated
from ancient prokaryotes.
• Central Vacuoles
Plant cells contain a central
vacuole that are large vesicles
that make up 90% or more of
the cell’s volume.
The membrane that surrounds
the central vacuole is called
the tonoplast. It moves
substances into and out of the
central vacuole.
Central vacuoles store water
and other essential
substances.
• Cell Walls
Plant cells have cell
walls that surround
the plasma
membrane.
It is composed of
cellulose a complex
carbohydrate.
LG 1 Vocab Words
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Cell Commonalities
Prokaryotic vs Eukaryotic Cells
Nucleus
Endomembrane System
Mitochondria
Lysosomes
Cytoskeleton
Chloroplasts
Central Vacuole
Cell Wall