Cell-Structure-and-its-Functions_.pdf

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MC_101_: ANATOMY AND PHYSIOLOGY LECTURE
LECTURE #4: CELL STRUCTURE AND ITS FUNCTION
PROFESSOR: Prof. Daisy Sucaldito
1ST SEMESTER | A.Y 2022-2023

○ For energy
OBJECTIVES ○ Cell metabolism - cells have connections
I. Identify the structure of the cell and its various with each other for their cellular activities
functions
II. Explain the important processes that happen
Synthesis of molecules
inside the cell
III. Discuss the relationship between cell function ○ Ribosome synthesize protein molecules
and aging which is necessary for our body
○ Smooth ER synthesizes lipids; used for the
synthesis of molecules
ORGANELLES
Specialized structures in cells that perform specific Communication
functions ○ Our cells undergo positive and negative
Like the organs existing in the human body (ex: feedback
heart, liver, lungs, etc)
○ Example: you are in an environment
Example: nucleus, mitochondria, ribosomes
wherein you tried to touch a hot surface;
CYTOPLASM your sensory receptors detected that
A jelly-like substance that holds organelles information and sent it to the brain – then it
Basic structure of a cell becomes integrated and evaluated, and
Where the organelles are being suspended in the information will be sent to your nerves
for your hand to move away from that
CELL MEMBRANE surface.
Also termed the plasma membrane
A structure that encloses the cytoplasm Reproduction and inheritance
Protects the cell
acts as a
guard
○ Produce Germ cells and sex cells
GENERALIZED CELL ○ Reproduction of humans, plants, animals
○ Reproduction of living organisms
○ Inheritance
Cells contain our nucleus that
contains genetic information
(DNA)
Your DNA can be inherited from
your family members (DNA is
passed down)

CELL MEMBRANE
Encloses cell cytoplasm

The cell membrane is the outermost component
of a cell (like the skin protecting our body)

It forms a boundary between material in inside
the cell and the outside
Whenever we say cell, it has 3 basic structures. inside
(Organelles, Cell membrane, Cytoplasm) Materials inside the cell are intracellular and those
outside the cell are extracellular
FUNCTIONS OF THE CELL outside
Smallest units of life It acts as a selective barrier.
○ Can retain characteristics of an organism ○ Not all substances can pass through
that is being produced (either inside or outside)
○ Human reproduction of germ cells, sex ○ Selective permeability
cells, somatic cells, or even an organism

Cell metabolism and energy use
○ Mitochondria - the powerhouse of the cell

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 CELL MEMBRANE STRUCTURE Some substances require a vesicular transport
The fluid-mosaic model is the model used to across the membrane.
describe the cell membrane structure ○ Vesicular transport – literally a vesicle
endocytoi carrying substances coming from the
a

The membrane contains phospholipids, outside going inside (and vice versa)
cholesterol, proteins, and carbohydrates Like Tupperware where food can
○ Not smooth because of the presence of be stored.
these macromolecules
The vesicle must fuse with the cell membrane for
Phospholipids form a bilayer transport
Phospholipids contain 2 regions: polar and
↳ hydrophilic
nonpolar
↳hydrophobic
ACTIVE TRANSPORT AND PASSIVE TRANSPORT
PHOSPOLIPID STRUCTURE
Polar head region that is HYDROPHILIC. ACTIVE TRANSPORT
○ exposed to water around the Active membrane transport does require the cell
membrane. to expend energy, usually in the form of ATP.
Active membrane transport mechanisms include
Nonpolar tail region that is HYDROPHOPIC.
○ facing the interior of the membrane active transport, secondary active transport,
endocytosis, and exocytosis.

PASSIVE TRANSPORT
Passive membrane transport does not require the
cell to expend energy.
Passive membrane transport mechanisms include
diffusion, osmosis, and facilitated diffusion.

NOTE: It is known to be a fluid mosaic model because of
the presence of different macromolecules.

MOVEMENT THROUGH THE CELL MEMBRANE
The cell membrane has selective permeability.
○ which allows only certain substances to
pass in and out of the cell

Substances found INSIDE THE CELL with higher
concentration
○ enzymes, glycogen, and potassium DIFFUSION
Diffusion generally involves the movement of
Substance found OUTSIDE THE CELL with higher substance in a solution down a concentration
concentration gradient. (Higher to Lower)
○ sodium, calcium, and chloride
A solution is generally composed of two major
CELL MEMBRANE PASSAGE
Some substances, like O2 and CO2 can pass parts, SOLUTES AND SOLVENT.
directly through the cell membrane’s phospholipid
bilayer Solutes – are substances dissolved in a
○ Because they are very small molecules predominant liquid or gas, which is called the
solvent.
Some substances must pass through ○ Such as ions or molecules, tend to move
transmembrane protein channels, such as Na+
from an area of high concentration of a
through its channels
○ When we say cell membrane passage or solute to an area of low concentration
things that can pass through the cell (in of that same solute in solution
and out), it could be depending on the:
CONCENTRATION GRADIENT
ROUTE TRANSPORT THROUGH THE MEMBRANE A concentration gradient is the difference in the
depends on the size, shape, and charge of the concentration of a solute in a solvent between
substance two points divided by the distance between the
○ Size: small or big two points.
○ Shape: kasya ba ○ Those two points are not the same (solute
and solvent have unbalanced
Some substances require carrier molecules to concentrations)
transport them across the cell membrane, such
as glucose.

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 The concentration gradient is said to be steeper
when the concentration difference is large LEAK AND GATED CHANNELS
and/or the distance is small. Two classes of cell membrane channels include
leak channels and gated channels
DIFFUSION
LEAK CHANNELS
Constantly allow ions to pass through
Can have a constant flow of a substance
May leak

GATED CHANNELS
Limit the movement of ions across the membrane
by opening and closing
NOTE: Parang gate ng bahay (opens and closes)
1. When a salt crystal is placed into a beaker of water, a
concentration gradient exists between the salt from the
salt crystal and the water that surrounds it
2. Salt ions move down their concentration gradient into
the water (because it is being dissolved). LEAK AND GATED MEMBRANE CHANNELS
3. Salt ions and water molecules are distributed evenly
throughout the solution. Even though the salt ions and

↑
water molecules continue to move randomly, an
equilibrium exists, and no net movement occurs
because no concentration gradient exists.

LEAK AND GATED SUBSTANCES
Lipid soluble substances can diffuse directly
through the phospholipid bilayer
○ Like dissolves like

Water soluble substances, such as ions, can
diffuse across the cell membrane only by passing
through cell membrane channels

DIFFUSION THROUGH THE CELL MEMBRANE In this example, the K+ leak channels (purple) is
always open, allowing K+ to diffuse across the cell
membrane.

The gated Na+ channel (pink) regulates the
movement of Na+ across the membrane by opening
and closing

l.
PASSIVE MEMBRANE TRANSPORT

OSMOSIS
Movement/Diffusion of water (a solvent) across a
selectively permeable membrane

Higher to Lower water concentration

OSMOTIC PRESSURE
Force required to prevent movement of water
Non-lipid-soluble molecules (small red) diffuse across cell membrane
through membrane channels Depends on the difference of the solution
○ They are just repelled concentrations inside a cell to outside the cell.
○ In order for them to pass through, they ○ Hypotonic, Isotonic, Hypertonic
must use a transmembrane channel
Specific non-lipid-soluble HYPOTONIC
molecules – have to go through a Hypo means “under”
membrane channel that’s LOWER SOLUTE CONCENTRATION than Water
integrated to the cell membrane concentration relative to the cytoplasm of the cell
itself. Less solute, Higher Water
Water moves by osmosis into the cell, causing it
Lipid soluble molecules (orange) diffuse directly to swell
through the phospholipid bilayer/cell ○ Lysis - if the cell swells enough, it can
membrane. cause a rupture
non lipid soluble-passes
through a

transmembrane channel Cell looks bloated since maraming
lipid soluble-passes directly through phospholipid bilayer water tapos Konting solute

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NOTE: Tip to help remember hypotonic;
Like cooking, if you don't add enough flavor to the
food that you are cooking, for example, not enough
salt or sugar, the food will taste bland or not
flavorful. Therefore, it is hypotonic.
If you try to make coffee with 1 liter of water and 1
pack of coffee powder, it will taste really bland. This
is because of the fewer solute concentration of
coffee powder.
Adding 5 grams of chocolate powder to the
container and 1 liter of water, it is bland.

CARRIER-MEDIATED TRANSPORT
Some water-soluble, electrically charged or
large sized particles cannot enter or leave
through the cell membrane by diffusion.

Substance include;
○ Amino Acids
ISOTONIC ○ Glucose
Same solute concentration inside and outside ○ Some polar molecules produces by cell
the cell.
Carrier-mediated transport mechanisms include
The cell will neither shrink or swell. FACILITATED DIFFUSION and ACTIVE
TRANSPORT.
Example:
5 solute concentration and Red blood cells which CARRIER MOLECULES
have the same solute concentration. Nothing will Proteins within cell membrane involved in
happen. carrier-mediated transport.

FACILITATED DIFFUSION
Does NOT require ATP for energy.

ACTIVE TRANSPORT
Does require ATP for energy.

FACILITATED DIFFUSION
Moves substances across the cell membrane from
an area of HIGHER CONCENTRATION to an area
of LOWER CONCENTRATION of that substance.

HYPERTONIC
HIGHER SOLUTE CONCENTRATION than Water
Concentration

Water moves by osmosis from the cell into the
hypotonic solution, resulting in cell shrinkage
or crenation (wrinkle)

Example:
When a red blood cell is placed in a hypertonic
solution (higher solute concentration), the cell will
try its best to neutralize the environment and
equalize the concentration but it is not possible. It
will try to move the water inside the cell to the
outside of the cell, resulting in shrinkage.
Too much solute less water

causes cronation or shrinkage

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 ACTIVE TRANSPORT RECEPTOR-MEDIATED ENDOCYTOSIS
Moves substances across the cell membrane from A specific substance that binds to the receptor
an area of HIGHER CONCENTRATION to an area molecule and is transported into the cell.
of LOWER CONCENTRATION of that substance.
PHAGOCYTOSIS
It goes against the concentration gradient Often used for endocytosis when solid particles
are ingested.
Example: Phagocytosis-solid
Sodium-potassium pump present in cell PINOCYTOSIS
membranes. Smaller vesicles formed and they contain liquid
rather than solid particles.
SODIUM POTASSIUM PUMP
Moves Na+ out of cells and K+ into cells. Pinocytosis
-
Liquid
EXOCYTOSIS
Result is a higher concentration of Na+ outside Involves the use of membrane-bound sacs called
the cells and Higher concentration of K+ inside secretory vesicles that accumulate for release
cells. from the cell. (GOING OUT)

Vesicles move to the cell membrane and fuse,
ultimately releasing the material by exocytosis.

EXAMPLE:
Digestive Enzymes

GENERAL CELL STRUCTURE
INTERIOR OF A CELL
○ Cytoplasm - jelly-like fluid that surrounds
the organelles.

ORGANELLES - Specialized structures that
performs certain functions
○ Nucleus
SECONDARY ACTIVE TRANSPORT ○ Ribosomes
Uses the energy provided by a concentration ○ Endoplasmic Reticulum
gradient established by the active transport of ○ Golgi Apparatus
one substance such as Na+ to transport to other ○ Lysosomes
substances. ○ Peroxisomes
○ Mitochondria
No additional energy is required. ○ Cytoskeleton
○ Centrioles
COTRANSPORT ○ Cilia
Diffusing substance move in the same direction ○ Flagella
○ Microvilli
COUNTERTRANSPORT
Diffusing substance move in a direction opposite CELL NUCLEUS
to the initial active transported substance. Located near at the center of the cell
Bounded by a nuclear envelope
○ Nuclear membrane - contains nuclear
pores
○ Nucleoli - diffuse bodies with no
surrounding membrane
○ Nuclei - contains 23 pairs of
chromosomes which consists of DNA and
Proteins
○ Chromatin - when a chromosomes are
loosely coiled

RIBOSOMES
Dense particles consisting of two subunits, each
composed of ribosomal RNA and Protein.
The sites for protein synthesis.
Found at two locations:
○ Free in the cytoplasm.
ENDOCYTOSIS ○ Attached to rough endoplasmic reticulum.
Process that brings materials into cells using
vesicles. (GOING IN)

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 Peroxisome-contains enzyme for breakdown

of H202 (Hydrogen Peroxide
-
digestive system of L
deadly for cells
ENDOPLASMIC RETICULUM PEROXISOMES celle

It is a series of membranes forming sacs and They are small, membrane-bound vesicles
tubules that extends from the outer nuclear containing enzymes that break down fatty acids,
membrane into the cytoplasm. amino acids, and hydrogen peroxide (H2O2).
○ Hydrogen peroxide is a by-product of fatty
ROUGH ENDOPLASMIC RETICULUM acid and amino acid breakdown and can
Involved in protein synthesis and is rough due to be toxic to a cell.
attached ribosomes. ○ Enzymes in peroxisomes break down
Membranous network of flattened sacs or tubes. hydrogen.
Externally studded with ribosomes. Vesicle formed from the Golgi complex.
Site where building materials of cellular membrane Sites of intracellular digestion.
are found. The stomach of the cell.
Site of protein synthesis. Responsible for autolysis of injured cells.

SMOOTH ENDOPLASMIC RETICULUM MITOCHONDRIA
Has no attached ribosomes and is a site for lipid
synthesis, cellular detoxification, and it stores Responsible for producing a considerable amount
calcium ions in skeletal muscle. of ATP by aerobic (with O2) metabolism.
Have inner and outer membranes.
ROUGH ER-protein synthesis Inner membranes fold into projections called
CRISTAE.
SMOOTH ER-lipid Synthesis The POWERHOUSE of the cell.
GOLGI APPARATUS Site for ATP synthesis.
“Golgi Complex” Mitochondrial ONA
Consists of closely packed stacks of curve, Mitochondrial Matrix-contains
(M+ONA)
membrane-bound sacs
Collects, modifies, packages, and distributes MITOCHONDRION
proteins and lipids
Forms vesicles Mitochondrion are the major sites for the production
of ATP, which cells use as an energy source.
Mitochondria carry out aerobic respiration (requires
LYSOSOMES O2)
Membrane-bound vesicles formed from Golgi
Apparatus CYTOSKELETON
Contains variety of enzymes that function as
intracellular digestive systems The cytoskeleton gives internal framework to the
Example: WBC phagocytizing bacteria cell.
It consists of protein structures that support the cell,
LYSOSOME ACTION hold organelles in place, and enable the cell to
1. Vesicle forms around material outside of the cell change shape.
2. Vesicle pinched off from cell membrane and These protein structures are microtubules,
becomes a separate vesicle microfilaments, and intermediate filaments.
3. Lysosome pinched off from Golgi Apparatus
4. Lysosome fuses with vesicle
5. Enzymes from lysosomes mix with the material in
vesicle and enzymes digest with material

Supports the cell
Microtubules -

cell structure
for
Microfilaments-provides
Lysosomes-contains enzymes
Intermediate Filaments-mechanical support
digestion for intracellar

activities

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 DNA

DEOXYRIBONUCLEIC ACID
Contains the information that directs protein
synthesis; a process called gene expression.
DNA molecule are composed of nucleotides joined
together to form two (2) nucleotide strands.
Two (2) strands are connected and resemble a
ladder that is twisted along its axis.
Each consists of a 5 - CARBON SUGAR, a
PHOSPHATE GROUP, and a NITROGENOUS
BASE.
Each nucleotide on one DNA strand has a
specific bonding pattern to another nucleotide
on the opposite strand.
- Microtubules are the largest among the three. - GENE is a sequence of nucleotides that
Example: 25 nm provides a chemical set of instructions for
- Intermediate filaments is the 10 nm making a specific protein.
- Microfilaments is the smallest 8 nm
GENE EXPRESSION
CENTRIOLES
Which is protein synthesis, involves
The centrosome is a specialized area of cytoplasm TRANSCRIPTION and TRANSLATION.
close to the nucleus where microtubule formation TRANSCRIPTION involves copying DNA into
occurs. messenger RNA.
It contains two centrioles, which are normally TRANSLATION involves messenger RNA being
oriented perpendicular to each other. used to produce a protein.
Each centriole is a small, cylindrical organelle
composed of microtubules. TRANSCRIPTION
The centriole is involved in the process of mitosis. Takes place in the nucleus of the cell.
Involves of copying of DNA inorder to be a
messenger
CILIA DNA (template) determines the structure of mRNA
CELL NUCLEUS through transcription
Project from the surface of certain cells. During transcriptions,the double strands of a DNA
Responsible for the movement of materials over the segment separate,
top of the cells, such as MUCUS. DNA nucleotides of the gene pair with a RNA
Are cylindrical structures that extend from the cell nucleotides that form the mRNA
and are composed of microtubules.
made up of MICROTUBULES
FLAGELLA

Have a structure like that of cilia but are much
longer, and they usually occur only one (1) per cell.
Sperm cells each have one flagellum, which
propels the sperm cell.
Tail-like
MICROVILLI

Specialized extensions of the cell membrane
that are supported by microfilaments.
Do not actively move as cilia and flagella do.
Are numerous on cells that have them, they
increase the surface area of those cells.
Abundant on the surface of cells that line the
intestine, kidney, and other areas in which TRANSCRIPTION
absorption is an important function.
DNA contains one of the following
Supported by MICROFILAMENTS
nucleobases:thymine,adenine,cytosine,or
WHOLE CELL ACTIVITY guanine
Messenger RNA (MRNA) contains
A cell’s characteristics are determined by the type uracil,adenine,cytosine or guanine
of proteins produced.
The proteins produced are in turn determined by the
genetic information in the nucleus.
Information in DNA provides the cell with a code for
its cellular processes.

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 TRANSCRIPTION TWO STRANDS of DNA SEPARATE from each
other, and each strand serves as a template to
DNA nucleotides pair only with a specific RNA produce a new strand of DNA.
nucleotides.
DNA’s thymine pairs with RNA’s adenine Nucleotides in the DNA of each template strand
DNA’s adenine pairs with RNA’s uracil pair with the new nucleotides that are
DNA’s cytosine pairs with RNA’s guanine subsequently joined by enzymes to form a new
DNA’s guanine pairs with RNA’s cytosine strand of DNA.

The sequence of nucleotides in the DNA template
determines the sequence of nucleotides in the
strand of DNA.

Replication of DNA gives two identical chromatids
joined at a centromere; both form one chromosome.

TRANSLATION
Occurs in the cell cytoplasm after mRNA has
exited the nucleus through the nucleus pores
The mRNa attaches to a ribosome
Codons (3 nucleotide bases which code for specific
amino acids) on the mRNA are read by anticodons
(3 nucleotide bases) on transfer RNA (tRNA)
A series of 3 nucleotides of each tRNA molecule
(the anticodon) pairs with the codon of the
mRNA.
DNA REPLICATION
Transfer RNA transports specific amino acids
from cytoplasm to ribosome-mRNA and initiates
formation of the polypeptide chain
○ Repeated until the entire polypeptide is
complete.
NOTE:
Some codons do not code for amino acids but
STOP CODONS perform other functions such as STOP CODON.
VAG ○ Stop Codon - codes for no AA
VAA START CODON Also acts as a signal for stopping
addition of AA to a protein
UGA AUG
THE CELL CYCLE

During growth and development, cell division
occurs to increase the number of cells or
replace damaged or dying ones.

The cell division involves a new cycle.

It has 2 major phases;
○ Interphase = nondividing phase
○ Mitosis = cell dividing phase

Cell spends most of its life in interphase performing
its normal functions.

INTERPHASE CELL GENETIC CONTENT
During INTERPHASE, the DNA is REPLICATED. Each human cell (except for gamete/sex cells)
○ DNA is located in the chromosomes in the contains 23 pairs of chormosomes, a total of 46
cell’s nucleus. (diploid).
○ Both sperm and egg cells contain 23
chromosomes (haploid) TOTAL.

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 One pair of chromosomes are the sex produced,
chromosomes
○ XX chromosome - FEMALE
○ XY chromosome - MALE

MITOSIS

Formation of 2 DAUGHTER CELLS from a single
parent cell.

Divided into 4 phases;
○ Prophase
○ Metaphase
○ Anaphase
○ Telophase

PROPHASE
During prophase, chromatin condenses to form
visible chromosomes.

Microtubules, termed spindle fibers, form to assist in
breaking the centromere between the chromatids DIFFERENTIATION
and move the chromosomes to opposite sides of A sperm cell and an oocyte unite to form a single
the cell. cell, then a great number of mitotic divisions occult
to give the trillions of cells of the body.
The nuclear membrane dissolves.
DIFFERENTIATION - process by which cells
METAPHASE develop with specialized structures and
During metaphase, the chromosomes align near the functions.
center of the cell.
During differentiation of a cell, some portions of
The movement of the chromosomes is regulated by DNA are active, but others are inactive.
the attached spindle fibers.

ANAPHASE
At the beginning of anaphase, the chromatids
separate and each chromatid is called
chromosome.

Each of the two sets of 46 chromosomes is moved
by the spindle fibers toward the cell centriole at
one of the poles of the cell.

At the end of anaphase, each set of chromosomes
has reached an opposite pole of the cell, and the
cytoplasm begins to divide.

TELOPHASE
During telophase, chromosomes in each of the
daughter cells become organized to form two
APOPTOSIS
separate nuclei, one in each newly formed
Termed cell death - a normal process by which
daughter cell.
cell numbers within various tissues are adjusted
and controlled.
Chromosomes begin to unravel and resemble the
genetic material during interphase.
In developing fetus, apoptosis removes extra
tissue, such as cells between the developing
Following telophase, cytoplasm division is
fingers and toes.
completed, and two separate daughter cells are
In some adults, it eliminates excess cells to
maintain a constant number of cells within the
tissue.

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 CELLULAR ASPECTS OF AGING

Various causes for cellular aging;
○ Existence of a cellular lock
○ Presence of death genes
○ DNA Damage
○ Formation of free radicals
○ Mitochondrial Damage

TUMORS

Abnormal proliferation of cells

Due to problems occurring in the cell cycle

Some tumors are benign, some are malignant
○ Malignant - Cancerous
Malignant tumors can spread by a
process termed METASTASIS.

SOURCES:
ANAPHY Cells structure and functions recorded lecture
Seeley’s Essentials Anatomy and Physiology 11th ed.

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