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bio-mod-5-ppt

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Structural Components
of Cell Membrane and
its Functions
The Cell Membrane
Cell Membrane (also known as plasma
membrane)
a physical and chemical barrier which
separates the inside and outside of the cell
providing fixed environment inside the cell.
It is a bilayer of lipid with embedded proteins
and lipids.

The plasma membrane mediates cellular processes
by regulating the materials that enter and exit the
cell
Figure 1. The cell membrane
The Structural
Components of the
Cell Membrane
The cell membrane is composed of
three main components: lipids,
proteins, and carbohydrates
The ratio of lipids and proteins in the
cell membrane is 1:1 or 50% lipids
and 50% proteins.
Membrane protein in the cell membrane
is several times larger than the lipid
molecule, but lipid molecules are 50 times
more than protein molecules.
 The ratio is not absolute and varies from
membrane to membrane
1. Phospholipid
Bilayer
The fundamental building
block of cell membrane is the
phospholipid which is an
amphipathic molecule,
consisting of both hydrophobic
and hydrophilic regions.
The hydrophilic or “water loving”
(polar) region is the globular head
containing phosphate group;
the hydrophobic or “water-fearing”
(nonpolar) regions are their fatty acid
tails.
hydrophobic regions of the phospholipids are
shielded from the aqueous environment since
it is poorly soluble in water and constitute a
barrier impenetrable to almost all substances,
hydrophilic regions are exposed to high
water content region.
 Proteins are found inserted into this lipid
bilayer and are classified into integral proteins
and peripheral protein
Figure 3. The Amphipathic nature of the phospholipid
It is also semi-permeable in
nature, where it is impermeable
to water-soluble molecule but not
to water.
 Approximately, the phospholipid
to phospholipid thickness of the
cell membrane is about 5-10nm.
2. Protein
Protein, the second major component of the cell
membrane is grouped into three distinct classes
depending on their relationship to the lipid bilayer
a. Integral proteins
 integrated into the membrane
proteins that penetrate the
lipid bilayer.
They pass entirely through the
lipid bilayer and protrude from
both the extracellular and
cytoplasmic sides of the cell
membrane.
Figure 4. The Membrane Proteins
b. Peripheral proteins
membrane proteins that are
associated within the surface of
the cell membrane and found
either on the cytoplasmic or
extracellular side.
Unlike integral protein, they do not
stick into the hydrophobic core of
the membrane and they tend to
be more loosely attached.
Figure 4. The Membrane Proteins
c. Other Types of Proteins present in the Cell Membrane
 Channel proteins
 allow the movement of some substances, such as the large
molecule sugar, into and out of the cell as they can’t travel
directly through the cell surface membrane.
 The channels can be opened or closed to control the substances’
movement.
Carrier proteins
actively move substances across the cell surface
membrane, using energy from ATP.
Adenosine triphosphate (ATP) is the source of
energy for use and storage at the cellular level.
3. Carbohydrates
 Carbohydrates are the third major component of
the cell membrane.
 In general, they are found on the outside surface
of the cells and are bound either in protein forming
glycoproteins or to lipids forming glycolipids.
 These carbohydrates may consist of 2-60
monosaccharide units and can either be straight
or branched.
Cell surface receptors are glycoproteins responsible
for the binding of an extracellular signalling
molecule (hormones and cell surface antigens) and
transduction of its messages into one or more
intracellular signalling molecules, which changes
the cell’s behaviour.
Help to interact with other cells.
Help to recognise cells: glycoproteins are specific
for cells from a particular individual or a particular
tissue
The Fluid Mosaic
Model
The fluid mosaic model describes the
cell membrane as several molecules
(phospholipid, cholesterol and
proteins) that are constantly moving.
 This movement helps the cell
membrane maintains its role as a
barrier between the inside and outside
of the cell environment.
The fluidity of a cell membrane
depends on the lipid composition of
the membrane, the density of integral
proteins, and the temperature.
 The fatty acids and cholesterol play
an important role in the fluidity of the
cell membrane.
Figure 7. The Fluid Mosaic Model
Role of Fatty Acids
The structure of the fatty acid tails of the
phospholipid is important in determining how fluid
is the membrane.
 Saturated fatty acids have no double bonds, so
they are relatively straight while unsaturated
fatty acids contain one or more double bond,
often resulting in a bend or kink.
A long chain of saturated fatty acids have greater
interactions among themselves making the cell membrane
stiffer.
While more unsaturated fatty acids in the lipid tails make the
membrane becomes less tightly packed resulting to the
increase of the cell membrane fluidity.
Thus, at cooler temperature the straight tails of saturated
fatty acids can pack tightly together, making a dense and
fairly rigid cell membrane while unsaturated fatty acid tails
cannot pack together as tightly because of the bent
structure of the tails making the cell membrane to stay fluid
at lower temperature.
Role of Cholesterol
The presence of cholesterol in the membrane makes it
possible for the cell membrane to maintain its fluidity
across a wide range of temperatures.
It helps to minimize the effects of temperature on
fluidity.
 At low temperature, cholesterol increases the fluidity
by keeping the phospholipids from packing tightly
together while at high temperature, it reduces fluidity.
 In this way, cholesterol expands the range of the
temperatures at which a membrane maintains a
functional healthy fluidity.
The number of cholesterol molecules
in the membrane can be as high as
the number of phospholipids.
A high amount of cholesterol in the
phospholipid bilayer makes the cell
membrane remains fluid.
 While having a high density of
integral proteins makes the cell
membrane have less fluid.
The Importance of Membrane Fluidity
 Membrane fluidity provides a perfect compromise between a
rigid structure which makes mobility absent and a completely
fluid where mechanical support would be lacking.
 It also allows interactions to take place within the membrane.
Because of membrane fluidity, molecules that interact can
come together, carry out the necessary reaction, and move
apart.
Basic cellular processes, including cell movement, cell growth,
cell division, formation of intercellular junctions, secretion, and
endocytosis, depend on the fluidity of the cell membrane.
Building a Structure
Make a fluid mosaic model of the
cell membrane using recyclable and
indigenous materials.
Figure 7. The Fluid Mosaic Model
Criteria
4
Scientific
Explanation indicates a
Knowledge clear and accurate
understanding of the
scientific principles.
3
Explanation indicates an
accurate understanding
of
the
scientific
principles.
2
Explanation indicates a
relative
accurate
understanding of the
scientific principles.
1
Explanation illustrate a
little understanding of
the scientific principles.
Fluidity
3-D
model
is
very
creative, accurate and
all molecules are clearly
labeled.
3-D model is creative,
mostly accurate and
molecules are clearly
labeled.
3-D model is creative,
somewhat
accurate
and
molecules
are
labeled.
3-D model is somehow
creative, less accurate
and
molecules
are
labeled.
Constructio Appropriate recyclables
n-Materials and
indigenous
materials were selected
and creatively modified
in ways that made them
even better.
Appropriate recyclables
and
indigenous
materials were selected
and modified in ways
that made them even
better.
Appropriate recyclables Appropriate recyclables
and
indigenous and
indigenous
materials were selected materials are selected.
and there was an
attempt at creative
modification to make
them even better.
Over-all
Great care taken in Construction is careful Construction is but could Construction
appear
Appearanc construction process so and accurate .
have been refined for careless
and
many
e
that the structure is
more
attractive details need refinement.
neat, attractive and
product.
accurate.
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