BSMLS_HAPP_Cell-Structure-and-Function.pdf

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CELL STRUCTURE
AND FUNCTION
Dr. Nehemiah B. Mula
 CELL
The basic unit of all living cells, including humans
 FUNCTIONS OF CELL
Cell Metabolism and Energy Use
○ Involves all chemical reactions within a cell
○ Metabolic reactions that involve energy transfers
Synthesis of Molecules
○ Produce various types of molecules including proteins, nucleic acids, and lipids
Communication
○ Cells communicate with each other by using chemical and electrical signals
Reproduction and Inheritance
○ Cells contain a complete copy of all genetic information of the individual
○ As person grows, cell divide to produce new cells, each containing same genetic information
 01
CELL PARTS AND
THEIR FUNCTION
 PLASMA MEMBRANE
Outermost component of a cell and serves several
functions:
○ As boundary separating the cytoplasmic
(intracellular) substances from the extracellular
space
○ Encloses and supports the cell contents
○ Attaches cells to the extracellular environment or to
other cells
○ Recognition and Communication
○ Determines which substances move in and out of the
cell
Electrical charge difference across the plasma membrane
is called membrane potential
○ More positive ions outside the cell
○ More negative ions inside the plasma membrane
Consists mainly of lipids and proteins with very little
carbohydrates
○ Protein: 45-50%
○ Lipids: 50%
○ Carbohydrates: 4-8%
 PLASMA MEMBRANE
2 predominant lipids present:
○ Phospholipids
Forms the lipid bilayer which has a polar head
(hydrophilic) and nonpolar tail (hydrophobic)
○ Cholesterol
Present in smaller amount compared to the
phospholipids and are interspersed among
phospholipids
Amount of cholesterol is a major factor in
determining the fluid nature of the membrane
Limits the movement of phospholipids,
providing stability to the membrane
Plasma membrane is described as a Fluid-Mosaic model
○ Plasma membrane is highly flexible and can change
its shape and composition through time
○ The lipid bilayer functions as a dense liquid in which
other molecules such as proteins are suspended
 PLASMA MEMBRANE
Types of membrane proteins present
○ Integral protein
Penetrate deeply into the lipid bilayer,
extending from one surface to another
○ Peripheral protein
Attached on either the inner or outer surfaces
of the lipid bilayer
PLASMA MEMBRANE
PLASMA MEMBRANE
PLASMA MEMBRANE
PLASMA MEMBRANE
 PLASMA MEMBRANE
Plasma membrane separates extracellular material from
the cytoplasm and is a selectively permeable
Molecules and ions can move across the plasma membrane
in different ways, depending on the chemical
characteristics of the molecules and ions and the structure
and function of the cell
 PLASMA MEMBRANE
DIFFUSION
○ Movement of solutes from an area of higher solute
concentration to lower solute concentration
○ Particles will continue to move randomly until an equilibrium is
achieved
○ A concentration difference occurs when solutes are not evenly
distributed in a solvent - concentration gradient
○ Rate of diffusion is influenced by several factors
Magnitude of concentration difference
Temperature of the solution
Size of the diffusing particle
Viscosity of the solvent
 PLASMA MEMBRANE
OSMOSIS
○ Diffusion of water across a semipermeable membrane
○ Water will diffuse from a solution with proportionately more
water and into a solution with proportionately less water
○ Osmotic pressure is the forced required to prevent water from
moving by osmosis across a semipermeable membrane
○ Three terms to describe osmotic pressure of a solution
Isosmotic
Solutions with the same osmotic pressure
Hyperosmotic
One solution has a greater concentration of
solute particles, therefore a greater osmotic
pressure
Hyposmotic
More dilute solution (less solute)
 PLASMA MEMBRANE
OSMOSIS
When applying osmosis in cells, three additional terms
describe the tendency of cells to swell or shrink when placed to
a solution
 PLASMA MEMBRANE
FACILITATED DIFFUSION
○ Mediated transport process that moves substances into or out
of the cells from a higher to a lower concentration
○ Carrier proteins and channel proteins carry out facilitated
diffusion
○ Rate at which molecules or ions are transported is directly
proportional to their concentration gradient up to the point of
saturation
PLASMA MEMBRANE
 PLASMA MEMBRANE
PRIMARY ACTIVE TRANSPORT
○ Mediated transport process that requires energy provided by
ATP
○ Movement of substance against the concentration gradient
(from lower to higher concentration)
○ Example
Na-K ATPase pump
 PLASMA MEMBRANE
SECONDARY ACTIVE TRANSPORT
○ Involves the active transport of an ion (Na), establishing a
concentration gradient
○ The tendency for the ions to move back into the cell provides
energy necessary to move a different ion
○ Example
Sodium-Glucose Transporter (SGLT)
Movement of sodium down its concentration
gradient provides energy to move glucose
molecules into the cell against their
concentration gradient
PLASMA MEMBRANE
 CYTOPLASM
CYTOPLASM
○ Cellular material outside of the nucleus but inside the plasma
membrane
○ Consist of the cytosol and organelles

CYTOSOL
○ Fluid portion of the cytoplasm
○ Colloidal, viscous solution dissolved in ions and molecules as
well as suspended proteins, many of which are enzymes for
metabolism of molecules
 CYTOPLASM
CYTOSKELETON
○ Proteins from the cytoplasm make up the cytoskeleton
○ Supports the cell and holds nucleus and other organelles in
place
○ Responsible for change in shape and movement of cell
organelles
○ Consist of 3 groups of proteins
Microtubules
Hollow tubes composed mainly of tubulin
25 nm in diameter with 5 nm thick wall
Involved in cell division and transport of
intracellular materials
Form essential components of certain cell
organelles such as centriole, spindle fibers, cilia,
and flagella
 CYTOPLASM
CYTOSKELETON
○ Consist of 3 groups of proteins (continuation)
Actin Filaments (Microfilaments)
Small fibrils about 8 nm in diameter
Provide structure to the cytoplasm and
mechanical support for microvilli
Changes in shape involve the breakdown and
reconstruction of actin filaments
Muscles contain high number of highly organized
actin filaments
Intermediate Filaments
Protein fibers about 10 nm in diameter that
provide mechanical strength to cells
Support the extensions of nerve cells
 CYTOPLASM
CYTOPLASMIC INCLUSIONS
○ Aggregates of chemicals either produced or taken in by the cell
○ Examples:
Lipid droplets
Glycogen granules
Hemoglobin
Melanin
Lipochromes
 NUCLEUS
Large, membrane-bound structure located near the center of the cell
Contains a nucleoplasm surrounded by a 2-membrane nuclear
envelope
The inner and outer membrane fuse to form pore-like structures
called nuclear pores
Where DNA and RNA synthesis occurs
Nucleolus
○ Dense region within the nucleus and lacks a surrounding
membrane
○ Where subunits for ribosomes are manufactured
 RIBOSOME
Site for protein synthesis
○ Each ribosome has a smaller and a larger subunit
○ Can be found free in the cytoplasm or attached to an
intracellular membrane complex called endoplasmic reticulum
○ Free ribosomes primarily synthesize proteins used inside the
cell
○ Ribosomes attached to the endoplasmic reticulum produce
integral membrane proteins and proteins secreted from the
cell
 ENDOPLASMIC RETICULUM
Series of membranes distributed throughout the cytoplasm and is
continuous with the outer membrane of the nuclear envelope
Consist of broad, flattened, interconnecting sacs and tubules (interior
spaces called cisternae)
Rough endoplasmic reticulum is called rough because of the ribosomes
attached to it
Smooth endoplasmic reticulum manufactures lipids and participates in
detoxification
Smooth endoplasmic reticulum of skeletal muscles stores Calcium for
muscle contraction
 GOLGI APPARATUS
Flattened, membranous sacs, containing cisternae that are stacked
to each other
Packaging and distribution center where proteins and lipids are
modified, packed, and distributed
Materials enter from the endoplasmic reticulum at the cis face and
exit through the trans face
 SECRETORY VESICLE
Structures that pinch off from the Golgi apparatus move to the
surface of the cell then contents are released to the exterior by
exocytosis
Membrane of this vesicles are then incorporated into the plasma
membrane
Secretory vesicles tend to accumulate in some cells and will not
release its contents into the exterior unless they receive a signal
 LYSOSOME
Membrane-bound vesicles that form at the Golgi apparatus
Contain variety of hydrolytic enzymes that function as intracellular
digestive systems
Digest nucleic acids, proteins, polysaccharides, and lipids
Certain white blood cells have large numbers of lysosomes that
contain enzymes to digest phagocytized bacteria
Lysosomes also digest the organelles of the cell that are no longer
functional – autophagy
 PEROXISOME
Membrane-bound vesicles that are smaller than lysosomes.
Peroxisomes contain enzymes that break down fatty acids.
Breakdown of these molecules can produce Hydrogen peroxide (H2O2)
as a toxic by-product
Peroxisomes also contain the enzyme catalase which breaks down
hydrogen peroxide to water and oxygen

PROTEOSOMES
Large protein complexes containing enzymes that break down and
recycle other proteins within the cell
 MITOCHONDRIA
Organelles that provide the majority of the energy for the cell
Major sites for ATP production
Each mitochondrion has an inner and an outer membrane separated by an
intermembrane space
○ Inner membrane has numerous infoldings called cristae; material located
inside the inner membrane is called matrix
2 major enzyme systems take place in the mitochondria
○ Krebs cycle: matrix
○ Electron Transport Chain: inner membrane
 CENTRIOLES AND SPINDLE FIBER
Specialized zone of cytoplasm close to the nucleus which is the center of
microtubule formation called Centrosome
Within centrosome are 2 centrioles
○ Each centriole is a small,cylindrical organelle about 0.3-0.5 um in
length
○ Oriented perpendicular to each other
○ The wall of the centriole is composed of 9 evenly spaced,
longitudinal, parallel units with each unit consists of 3 parallel
microtubules
Microtubules called spindle fibers extend out in all directions from the
centrosome during cell division
 CILIA AND FLAGELLA
CILIA
○ Structures that project from the surface of cells and are capable of
movement
○ Cylindrical in shape measuring about 10 um in length and 0.2 um in
diameter
The shaft is enclosed by a plasma membrane
○ Cilia are numerous on surface cells that line the respiratory tract
and female reproductive organs
○ Cilia move small particles across the cell surface
FLAGELLA
○ Have a similar structure to that of the cilia but they are longer
○ Sperm cells are the only human cell that possess a flagella
○ Flagella help move the entire cell
 MICROVILLI
Cylindrically shaped extensions of the plasma membrane about 0.5 - 1.0 um
in length and 90 nm in diameter
The presence of microvilli increases the surface area
Microvilli are found on the cells of intestines and even in kidney, and other
areas where absorption is an important function
 01
CELL CYCLE
 CELL CYCLE
Includes all changes a cell undergoes from the time it is formed until it
divides to produce new cells
Has 2 stages:
○ Interphase
○ Cell Division
Mitosis: division of nucleus
Cytokinesis: division of cytoplasm
 INTERPHASE
Phase between cell division; nearly all of the life cycle of a typical cell is
spent in this phase
Cell carries out the metabolic activities necessary for life and performs its
specialized functions
Divided into 3 subphases:
○ G1 (Gap phase)
Cell carries out routine metabolic activities
○ S (Synthesis phase)
DNA is replicated
○ G2 (2nd gap phase)
Cell prepares for cell division
Many cells do not divide for long periods of time and do not follow the
normal cell cycle pattern and instead enters the G0 phase
 CELL DIVISION
MITOSIS
Division of the cell’s nucleus into 2 new nuclei
During mitosis, chromatin becomes very densely coiled to form compact
chromosomes call mitotic chromosomes
○ Each copy of the chromosome is called chromatid
○ Each chromatid is attached to a centromere
○ The kinetochore is a protein structure that binds the centromere
and provides a point of attachment for microtubules
Divided into 5 phases:
○ Prophase
○ Prometaphase
○ Metaphase
○ Anaphase
○ Telophase
CYTOKINESIS
Division of the cell’s cytoplasm to produce 2 new cells
Begins in the anaphase and continues through telophase
○ First sign is the formation of cleavage furrow
○ A contractile ring composed of actin pulls the plasma membrane
inward
CELL DIVISION
CELL DIVISION
 APOPTOSIS
Also known as programmed cell death
Normal process by which cell number within various tissues is adjusted and
controlled
Apoptosis is regulated by specific genes that code for proteins
○ Once these proteins enter the cytosol, they activate other proteins
that carry out many events of apoptosis
Chromatin condenses ad fragments → fragmentation of the nucleus →
death and fragmentation of the cell
Macrophages phagocytize the cell fragments
Thank you
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