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GENERAL BIOLOGY ❖ He observed living cells, blood
cells from fish, birds, frogs, dogs,
CHAPTER 1: CELL HISTORY and humans.
1590 - Hans and Zacharias Janssen ❖ He used a microscope to magnify
❖ Father and son tandem spermatozoa (sperm).
❖ Known for inventing the
compound optical microscope. * Micrographia - small drawings.
❖ Produced the first compound ❖ An introduction to the previously
microscope by combining two unknown microscopic words.
convex lenses with a tube. ❖ Large etchings of insects or
plants.
1665 - Robert Hooke
❖ The first person to encounter Aristotle (384 - 322 BC)
cells. ❖ First person to propose the
❖ * Cytology - the study of cells. theory of spontaneous
❖ Cytologist - a person who studies generation.
cells. ❖ Spontaneous Generation
❖ Used microscope to examine - hypothetical process by
cork (plant) which living organisms
❖ Hooke called what he saw “cells”. develop from non-living
❖ He described the cells as tiny matter.
boxes or a honeycomb. - also known as
❖ He thought that cells only existed abiogenesis.
in plants and fungi. - The idea of spontaneous
❖ He observed that the cork generation lasted for
resembled the structure of the 2000 years.
honeycomb consisting of many Examples:
empty box-like cavities - cells. - Frogs developed from falling rain
drops.
1673 - Anton Van Leeuwenhoek - Dust creates fleas.
❖ Creates a microscope that can - Meats make maggots.
make any cell 200x - 300x bigger
than its original size. * Abiogenesis - old term for
❖ Used a handmade microscope to spontaneous generation
observe pond scum and - The original evolution of life or
discovered single-celled living organisms from inorganic to
organisms. inanimate substances.
❖ * Animalcules - microscopic - Abio - non-living; genesis -
organisms that included bacteria, creation.
protozoans, and very small
animals.
PEOPLE WHO DISPROVED Lazzaro Spallanzani
SPONTANEOUS GENERATION ❖ Italian scholar
Francesco Redi ❖ Improved upon Needham’s
❖ He TRIED to disprove experiment.
spontaneous generation for large ❖ Boiled flasks of gravy to kill life,
organisms by showing that sealed one jar, and left the
maggots arose from meat only other jar open.
when flies laid eggs on the ❖ Open jar had living
meat. microorganisms, sealed jar did
❖ Redi’s experiment: not.
❖ Concluded that the gravy did not
produce life, organisms entered
through air.

John Needham
❖ English scientist
❖ Tried to prove spontaneous
generation.
❖ Sealed a bottle of gravy, then
John Needham Lazzaro
heated it (to kill any life).
Spallanzani
❖ Found life several days later,
which he claimed came from the The “attack” on Spallanzani tests
gravy. Redi & Needham.
❖ Flaw with his experiment: the Spontaneous
Generation.
flask was not sealed and was
exposed to the air. The experiment: The experiment:
❖ Needham’s experiment:

The Controversy Over Spontaneous
Generation
Problem: What causes tiny living things
to appear in decaying broth?
Spallanzani’s Hypothesis: Microbes opaque than the surrounding
come from the air. Boiling will kill them. areas.
Needham’s Hypothesis: Spontaneous ❖ He claimed that the structure was
Generation. an integral part of the cell and
called the nucleus.
Louis Pasteur
❖ Father of Modern Microbiology. * Nucleus - also known as the brain of
❖ The FIRST scientist who the cell.
SUCCESSFULLY disproves - Contains the chromosomes
spontaneous generation. where inherited information is
❖ He devised a way to flask that formed.
allowed oxygen in, but prevented
dust from entering. The broth did Felix Dujardin (1835)
not show signs of life until he ❖ A french biologist who viewed
broke off the neck of the flask living cells with a microscope.
allowing dust, and therefore,
microbes to enter. MODERN CELL THEORY
❖ Pasteur’s experiment: - Consists of three statements
based on a large body of
scientific research. The original
work was done by Schleiden,
Schwann, and Virchow.

Matthias Schleiden (1838)
❖ A botanist who concluded that all
plants are made up of cells.

❖ The curve of the flask prevents Theodor Schwann (1839)
outside air from entering the ❖ A zoologist who concluded that
flask. No contamination occurs. all animals are made up of cells.
❖ When the neck of the flask is
broken off, bacteria reach the Rudolph Virchow (1858)
sterile broth and organism growth ❖ A viennese pathologist.
occurs. ❖ After extensive study of cellular
pathology, concluded that cells
Robert Brown (1831) must arise from pre-existing cells.
❖ First person to encounter a
nucleus. * Botanist - a person who studies
❖ In 1831, Robert Brown noticed a plants.
near-circular spot slightly more
* Zoologist - a person who studies * Multicellular organism - composed of
animals. two or more cells.
* Pathologist - a person who studies * Unicellular Organism - composed of
organisms that causes diseases. one cell (single-celled organisms).

The COMBINED work of Schleiden, * Sihay - short term for sisidlan ng
Schwann, and Virchow make up the buhay.
modern CELL THEORY. - Tagalog of cells

THE 3 BASIC COMPONENTS OF
CELL THEORY WERE NOW CHAPTER 2: CELL AND ITS
COMPLETE: ORGANELLES
1. All organisms are composed of Cells
one or more cells. ❖ Basic fundamental of life.
2. The cell is the basic unit of life. ❖ Are shaped according to its
3. All cells are produced by the function in the body.
division of pre-existing cells. ❖ Has 70% of water.
❖ Composed of elements, like;
PEOPLE WHO CONTRIBUTED TO carbon, hydrogen, oxygen, and
THE CELL THEORY nitrogen.
❖ Robert Hooke - credited with the ❖ 4 organic composition;
discovery and naming of cells. carbohydrates, lipids, protein,
❖ Felix Dujardin - discovered the nucleic acid.
living fluid in a cell called ❖ 1 inorganic composition;
protoplasm. vitamins and minerals.
❖ Matthias Schleiden - German
botanist who first proposed that Nerve Cell
all plants and all plant parts are ❖ Has long thin extensions that
made up of cells. Co-founder of reach out to the other nerve cells.
cell theory.
❖ Theodor Schwann - German White blood cells
zoologist who proposed that all ❖ Leukocytes
animals and all animal parts are ❖ Immune system, fight against
made up of cells. Co-founder of diseases/infections.
cell theory.
❖ Rudolf Virchow - published an Red Blood Cells (RBC)
influential theory that cells arose ❖ Carries oxygen.
from each other in a continuous ❖ Circulates oxygen throughout our
series of generations. body.
Intestinal Epithelial Cells 3 MAIN REGIONS OF THE CELL:
❖ line the surface of intestinal Nucleus
epithelium, where they play Cell/Plasma Membrane
important roles in the digestion of Cytoplasm
food, absorption of nutrients, and
protection of the human body Cytoplasm
from microbial infections, and ❖ Living substance of the cell.
others. ❖ Cellular material outside the
nucleus and inside the plasma
* Villi - tiny finger-like projections that membrane.
line up the entire length of the small ❖ Site of most cellular activities -
intestine. Absorbs nutrients from the “factory area”
food eaten and then shuttle it to the ❖ Three major elements:
bloodstream so it can travel where - Cytosol
they’re needed. - Organelles
- Inclusions
Bacteria vs. Viruses
Bacteria Viruses Cytosol
❖ Semi-transparent fluid that
Ability to Not a living thing. suspends the other elements.
reproduce. Needs a host. ❖ Composed largely water and
nutrients and a variety of other
Single-celled. Only infiltrates
solutes (dissolved substances).
cells
❖ Pigments, ions, cytoskeleton.
❖ 16.70 % of water
* Bacteriophage - viruses that solely kill
and selectively target bacteria.
Cytosol Cytoplasm
Protoplasm Cytosol is a fluid Cytoplasm is a
❖ Cytoplasm + Nucleus = present in the cell cell component
Protoplasm membrane. present inside the
❖ The living part of the cell that is cell membrane.
surrounded by the plasma
membrane. Organelles
❖ a mixture of various organic and ❖ “Little organs”
inorganic substances (as proteins ❖ The metabolic machinery of the
and water) that makes up the cell.
living nucleus, cytoplasm, ❖ Each type is specialized to carry
plastids, and mitochondria of the out a specific function for the cell
cell and is considered the as a whole.
physical basis of life.
Cell Membrane Other functions of Cell Membrane:
❖ Outermost covering of the cell. 1. Maintains the shape of the cell.
❖ Also known as Plasma 2. Contains cell content, and
membrane. entrance and exit of materials.
❖ For support and protection. 3. Prevents the contents of one cell
❖ A fragile, transparent barrier from mixing with other cells.
that contains the cell contents
and separates them from the Nucleus
surrounding environment. ❖ Control center of the cell.
❖ Controls the entrance and exit ❖ Usually located near the center
of substances. of the cell. Most often oval or
- Selectively permeable spherical, but its shape usually
membrane. conforms with the shape of the
❖ Similar to the sodium cell.
concentration in blood and tears. ❖ Contains the genetic material,
❖ Consist of two phospholipid deoxyribonucleic acid (DNA).
layers (bilayer) arranged “tail to ❖ Has three recognizable
tail” in which protein molecules regions:
float. - Nuclear membrane
❖ Arrangement: - Nucleoli
- Water soluble - Chromosomes
(hydrophilic) “heads”
containing phosphate Nuclear Membrane
groups form the surface ❖ Double-layered membrane.
of the membrane. ❖ Covering of the nucleus.
- Water insoluble
(hydrophobic) “tails” Nuclear Pores
consisting of fatty acid ❖ Allow certain dissolved
chains make up the substances to move between
interior of the the nucleus and the cytoplasm.
membrane.
Nucleolus
* Hydrophilic - Love of Water ❖ Small dark staining round bodies
* Hydrophobic - Fear of Water in the nucleus.
* Permeability - ability to pass ❖ Nucleolus produces ribosomes.
through the membrane barrier. ❖ Center of the nucleus.
* Semi-permeable - substances can Nucleoplasm
enter and exit but selectively only to ❖ Semi-liquid portion of the
carbon dioxide, water and oxygen. nucleus.
 helping the cell divide up its DNA during
Chromatin division (mitosis and meiosis).
❖ a mixture of DNA and proteins Specifically, it is the region where the
that form the chromosomes found cell's spindle fibers attach.
in the cells of humans and other * RNA - Ribonucleic acid (RNA) is a
higher organisms. molecule that is present in the majority
❖ Lowest order of the DNA of living organisms and viruses. It is
organization. made up of nucleotides, which are
ribose sugars attached to nitrogenous
Chromatid bases and phosphate groups.
❖ each of the two threadlike strands * rRNA - Ribosomal ribonucleic acid
into which a chromosome divides is a type of non-coding RNA which is the
longitudinally during cell division. primary component of ribosomes,
Each contains a double helix of essential to all cells.
DNA.
Mitochondria
Chromosome ❖ Powerhouse of the cell.
❖ Chromosomes are thread-like ❖ Provides most of the ATP
structures located inside the needed for all cellular work.
nucleus of animal and plant cells.
Each chromosome is made of 5 Roles Mitochondria Play in Cells
protein and a single molecule 1. Production of ATP.
of deoxyribonucleic acid 2. Regulation of Innate Immunity.
(DNA). Passed from parents to 3. Calcium Homeostasis.
offspring, DNA contains the 4. Programmed Cell Death.
specific instructions that make 5. Stem Cell Regulation
each type of living creature
unique. * Adenosine Triphosphate (ATP) - the
❖ Highest order of the DNA source of energy for use and storage at
organization the cellular level.

Histones Endoplasmic Reticulum
❖ A protein that provides ❖ Provides a network for
structural support for a channels/pathways for carrying
chromosome. substance from one part of the
❖ A special protein used to help cell to another.
pack DNA. ❖ 2 forms of Endoplasmic
Reticulum:
* Centromere - a constricted region of a - Smooth Endoplasmic
chromosome and plays a key role in Reticulum (SER)
 - Rough Endoplasmic Lysosome
Reticulum (RER) ❖ “Suicide bags”.
❖ Are membranous “bags
Rough Endoplasmic Reticulum (RER) containing powerful digestive
❖ Studded with Ribosomes enzymes.
❖ Abundant in cells that make
and export protein products. Apoptosis
❖ A form of programmed cell
Soft Endoplasmic reticulum (SER) death that occurs in
❖ Functions in lipid metabolism and multicellular organisms and in
manufacture of steroid hormones. some eukaryotic, single-celled
microorganisms such as yeast.
* Lipids - Lipids are fatty compounds
that perform a variety of functions in Necrosis
your body. (i.e. fats and oils). ❖ The death of body tissue. It
occurs when too little blood
Golgi Body flows to the tissue.
❖ Also known as dictyosome.
❖ A stack of flattened membranous Apoptosis vs. Necrosis
sacs called cisternae, Apoptosis Necrosis
❖ “Packaging center of the cell”.
Lumiliit Lumalaki
Vesicles
Nagiging blebs Occurs due to
❖ Vesicles form naturally during
injuries,
the processes of secretion, infections, or
uptake, and the transport of diseases.
materials within the plasma
membrane. Occurs during Loss of plasma
development and membrane
❖ 2 types of vesicles:
aging of cells. integrity. Leakage
- Transport Vesicle - help Also occurs as a of cellular
move materials, such as defense contents.
proteins and other mechanism when
molecules, from one part cells are
of a cell to another. damaged.
- Secretory Vesicle - play
an important role in Necrotizing Fasciitis (NecFas)
moving molecules ❖ an acute disease in which
outside of the cell, inflammation of the fasciae of
through a process called muscles or other organs results
exocytosis. in rapid destruction of overlying
tissues.
 ❖ Treated by antibiotics/ Chloroplast
❖ Site of photosynthesis.
* Oncosis - swelling of cells. ❖ Occurs in the leaves.
❖ Form of plastid containing
Vacuoles pigment
❖ Spherical empty sacs for
storage of: Chromoplast
- Food ❖ Are plastids, heterogeneous
- Waste organelles responsible for
- Waster pigment synthesis and storage
in specific photosynthetic
Ribosomes eukaryotes.
❖ “Site of Protein Synthesis”.
❖ Some are scattered in the * Chlorophyll - green pigment found in
cytoplasm and some are chloroplast.
attached to the organelles. * Carotenoids - orange pigment found
in chromoplast.
Cytoskeleton
❖ Cyto - cell; Skeleton - structure Cell Wall
❖ Internal framework that ❖ Outermost covering of Plant
determines cell shape, Cell.
supports other organelles, and ❖ ONLY present in plant cells.
provides the machinery ❖ Made up of cellulose.
needed for intracellular ❖ protects/serves as a barrier of the
transport and other cellular cell.
movements.
❖ Made up of Intermediate * Cellulose - complex carbohydrates.
filament, Microtubules,
Microfilament. CELL CLASSIFICATION
❖ Muscle and skeleton of the Prokaryotic Cells
cell. ❖ Pro - before; karyo - nucleus.
❖ Undergo mitosis.
* Microtubules - forms the spindle ❖ Have their nuclear material
fibers. (nucleoid) mixed with the
Centrioles protoplasm.
❖ Direct the formation of the ❖ Cells without a true nucleus.
mitotic spindle during cell ❖ The cytoplasm only contains
division. ribosomes, thylakoid, and
❖ Found ONLY in animal cells. enzymes.
 ❖ Reproduced by Binary Fission
(Duplication/Splitting). * Flagellum/Flagella - tail-like
projection for locomotion.
Eukaryotic Cells * Pilus/Pili - helps the bacteria to
❖ Eu - true; karyo - nucleus attach themselves in surface, DNA
❖ Undergo amitosis exchange.
❖ Has a variety of structure and * Cilia - hair-like projection for
parts. locomotion.
❖ Cells with nucleus. * Plasmodesmata - cytoplasmic
❖ Can be either plant cells or bridges between adjacent cells.
animal cells. - Regulates substance and
passage.
Prokaryotic Cells and Eukaryotic - Prevents the loss of water.
Cells * Peroxisome - contains enzymes that
Eukaryotic Similarities Prokaryotic produce hydrogen peroxide/destruction
cells Cells of hydrogen peroxide.

Membrane Cytoplasm No
bound membrane-b
CHAPTER 3: MEMBRANE
nucleus. ounded
nucleus TRANSPORT
Membrane Transport
Membrane DNA No ❖ Refers to the mechanisms that
bound membrane
regulate the passage of solutes
organelle bound
organelle such as ions and small molecules
through biological membranes,
Cytoskeleto Plasma No which are lipid bilayers that
n Membrane cytoskeleton contain protein embedded with
Complex Simple them.

Multicellular Unicellular * Epidermis - layer of skin that absorbs
or water.
Unicellular * Sebum - special oils that cover our
Does not Intercellular body.
contain pili links: pili for Homeostasis
DNA ❖ The dynamic state of
equilibrium.
Undergo Undergo
❖ Everything should be balanced.
amitosis mitosis

Small Large Perspiration/Sweating
ribosomes ribosomes ❖ To excrete waste
 ❖ To lose fats Hyperthermia
❖ To regulate body temperature ❖ High body temperature.

Anhidrosis Hypothermia
❖ Inability to sweat ❖ Low body temperature.
❖ Parang may lagnat pag
hinahawakan yung taong may * Pyrexia - also known as fever
anhidrosis. - Sudden rise of body
temperature.
Hypohidrosis
❖ Sweating, but not enough to PASSIVE TRANSPORT & ACTIVE
regulate body temperature. TRANSPORT
Passive Transport
Hyperhidrosis ❖ Transport of substances that
❖ Too much sweating. don’t need energy.
❖ Comes in naturally.
Eccrine Glands ❖ 3 types of Passive Transport
❖ Are the most common and are - Diffusion
all found all over the surface of - Osmosis
the body. - Facilitated Diffusion
❖ They are most numerous on the
palms of the hands and soles of * Solvent - can dissolve
the feet. * Solute - something that could be
dissolve
Apocrine Glands * Solution - solvent + solute
❖ Are common in armpits and
groin areas. Diffusion
❖ Sweat from the apocrine glands ❖ Movement of molecules from an
does not evaporate as quickly area of high concentration to
and could lead to foul body the area of low concentration.
odor.
❖ Apocrine sweat is often a result * High Concentration - focuses on the
of emotional stress or anxiety. direction of solute.
* Low Concentration - kung saan
* Pereanal - between the private area possible kumalat yung solute.
and anus.
Rate of Diffusion
Normothermia ❖ Depends on the size of the
❖ Normal body temperature. substance.
❖ Higher Temp.; Diffuse faster
 ❖ Larger surface; diffuse faster ❖ Channel P. - facilitates the
❖ Higher gradient; diffuse faster transport of substances across
❖ Smaller particles; diffuse faster a cell membrane.
❖ Solid; slowest ❖ Carrier P. - transport proteins
❖ Liquid; faster that bind to molecules and
❖ Gas; fastest change shape to shuttle them
across the membrane.
*DIFFUSION STOPS WHEN
EQUILIBRIUM* Osmosis
❖ Movement of water molecules
Equilibrium in a semi-permeable towards the
❖ “Net movement” = overall region of higher solute.
movement. ❖ The membrane allows solvent
to enter but not the solute.
Importance of Diffusion
1. Respiration - the process of Water Potential
breathing in oxygen and ❖ Amount of water in a particular
breathing out carbon dioxide. location inside and outside of
the membrane.
* Alveoli/ Alveolus - tiny air sacs ❖ The tendency of water to move
where gas exchange occurs. from one area to another.

Facilitated Diffusion Tonicity
❖ A type of passive transport that ❖ Determines the direction of
relies on carrier proteins in movement of water molecules
order for the substances to move across the membrane.
down their concentration ❖ 3 types of tonicity:
gradient. - Hypertonic - solute
concentration is higher
Concentration Gradient outside the cell, the cell
❖ Is present when a membrane would shrink.
separates two different - Isotonic - equal amount of
concentrations of molecules. solute inside and outside
❖ Difference within a given area the cell, nothing would
between the highest and lowest happen to the cell.
concentration of a substance. - Hypotonic - solute
concentration is lower
2 types of Membrane Proteins outside the cell, the cell
would swell/expand.
Tonicity in Plants Sodium-Potassium Pump Cycle
❖ Plasmolysis/Plasmolyzed - - Uses ATP to transport sodium
shrinking of plant cells. and potassium ions across the
❖ Flaccid/Flaccidity - normal cell membrane.
plant cells. - Moves sodium and potassium
❖ Turgid/Turgidity - expanding of ions against large
plant cells but not exploding. concentration gradients. It
moves two potassium ions into
* Cytolysis/Osmotic lysis - bursting the cell where potassium levels
of cells. are high, and pumps three
* Crenation - shrinking of cells. sodium ions out of the cell and
into the extracellular fluid.
Diffusion vs. Osmosis
Diffusion Osmosis Vesicular Transport
- Endocytosis
Spread solute. Spread solvent. - Exocytosis

Transport Transport water in
Endocytosis
materials in the the membrane.
membrane. ❖ Type of active transport that
moves particles toward the cell.
Movement of Movement of ❖ 2 Types of Endocytosis:
molecules from molecules from - Phagocytosis
high to low low to high
- Pinocytosis
concentration. concentration.

Phagocytosis
Active Transport ❖ Type of endocytosis where large
- Transport of substances that particles are taken in by the cell.
NEED energy. ❖ Also known as the “cell eating
- Substances move from an area process”.
of low to high concentration. ❖ When the vesicles enter the cell,
Passive Active Transport it will merge to the lysosomes.
Transport
5 Stages of Phagocytosis
High to low Low to high
1. Chemotaxis
concentration. concentration.
2. Adhesion
3. Ingestion
3 Types of Active Transport 4. Phagosome Formation
1. Membrane Pump 5. Digestion/Degradation
2. Endocytosis
3. Exocytosis * Chemoattractants - chemical signals.
* Pseudopods - cytoplasmic extensions Cell Cycle
❖ Ordered sequence of events that
3 Different White Blood Phagocytes occur in a cell in preparation for
❖ Monocyte cell division.
❖ Neutrophil
❖ Macrophage Cell Division
- Fixed Macrophage - ❖ “All cells came from preexisting
tissue resident cells.” - Rudolf Virchow
macrophage, ❖ “Omnis cellula e cellula.”
matatagpuan sa isang
❖ Reproduction of cells.
lugar.
❖ 3 Rs in Cell Division:
- Wandering Macrophage -
- Replace
also known as circulating
- Repair
macrophage,
- Reproduce
matatagpuan kahit saan.
❖ 2 types of Cell Division
Pinocytosis - Meiosis
❖ Cells’ purposeful intake of - Mitosis
extracellular fluid.
❖ Also known as the “cell drinking Cell Cycle
process” ❖ The cell cycle, or cell-division
cycle, is the series of events that
Exocytosis take place in a cell that causes it
❖ Reverse process of removing to divide into two daughter cells.
waste into cells. ❖ 3 Stages of Cell Cycle:
- Interphase
- Cell Division
CHAPTER 4: CELL DIVISION, - Cytokinesis
MITOSIS AND MEIOSIS.
* Platelets - traps the blood from
Cell Division coming out.
❖ Cell division is the process by
which a parent cell divides into Cancer
two daughter cells. Cell division ❖ A disease caused by an
usually occurs as part of a larger uncontrollable division of
cell cycle in which the cell grows abnormal cells in a part of the
and replicates its chromosome(s) body.
before dividing.
Cancer Cells
❖ Abnormality of Cells.
 - People who suffer from this
Cyst syndrome look identical.
❖ Benign - not cancerous.
❖ Malignant - easily spreads. G2 Phase (Growth Gap 2)
- Organelles of the cell duplicates.
Interphase - DNA complete replication and
❖ Preparatory stage before Cell Integrity.
division.
❖ Also known as the “resting CELL CHECKPOINTS
stage”. G1 Checkpoint
❖ Check for;
* Hair Follicle - keeps on growing, does - Nutrients
cell division frequently. - Growth factors
* Chemotherapy/Cancer Radiation - - DNA damage
targets cells that divide frequently.
* Scalp Cooling Caps - restrict/narrow G2 Checkpoint
blood vessels and limit cancer cells ❖ Check for;
from going into the skull. - Cell size
- Made up of silicone or cold liquid. - DNA replication

G1 Phase (Growth Gap 1) Metaphase or M Checkpoint
❖ Protein reproduction. ❖ Check for;
❖ Rapid growth of newly produced - Chromosome spindle
cells. attachment.
❖ Centrioles replicate.
❖ Apoptosis (programmed cell * Cell Limbo - when the cells stay in
death) their phase.
- Happens when a cell is still active
S Phase (DNA Replication) but unable to divide again.
- DNA replicates, producing 2 - Cells have to stay in a certain
identical chromatin. place until they fix the issue.
* Apoptosis - ensures that irreplaceable
* There are 46 chromosomes in a normal cells will not divide.
human body, 23 pairs of chromosomes,
and 92 chromatids. If the chromosomes Regulators
are unattached, 92 chromosomes.* ❖ Regulates the cell cycle.
❖ 2 Types of Regulators;
* Trisomy 21 (Down Syndrome) - 47 - Positive Regulator
chromosomes. - Negative Regulator
 ❖ Occurs during the mitosis phase
Positive Regulators (M).
❖ Allows something to move ❖ Check whether the mitosis is
forward to the next step. complete.
❖ CDK & Cyclin. ❖ If so, the cell divides, and the
cycle repeats.
Negative Regulators
❖ Make some thing to stop. Mitosis
❖ P53/TP53 (Tumor Protein 53). ❖ Production of 2 daughter cells
that have the same number of
G0 chromosomes.
❖ Cells that are not ready to divide ❖ The 2 daughter cells are
stay here. genetically identical
❖ They never get to divide any
further, but perform function Mutation
properly. ❖ Changes in the production of
❖ Brain cells, neurons, and spinal cells.
cells stay in this stage.
Progeria
Cell Growth Checkpoint ❖ An extremely rare and fatal
❖ Occurs towards the end of disease that causes the body to
growth phase 1 (G1). age rapidly.
❖ Checks whether the cell is big ❖ Sam Berns, American activist that
enough and has made proper has progeria.
proteins for the synthesis phase.
❖ If not, the cell goes through a
resting period (G0) until it is Ectrodactyly
ready to divide. ❖ Caused by a mutation in
chromosomes 10, 7, 3, or 2, this
DNA Synthesis Checkpoint x-linked condition results in
❖ Occurs during the synthesis “split” hands and feet.
phase (S).
❖ Checks whether DNA has been Albinism
replicated correctly. ❖ A genetic condition characterized
❖ If so, the cell continues on to by the absence or reduction of
mitosis (M). melanin, the pigment responsible
for the coloration of the skin, hair,
Mitosis Checkpoint and eyes. It is primarily caused by
 mutations in specific genes ❖ It is presented when a baby is
involved in melanin production. born with a single lower limb.

Diprosopus Sickled Red Blood Cells
❖ The condition is thought to be ❖ Abnormal hemoglobin molecules.
caused by a protein with the ❖ Moon-shaped RBC.
unusual name sonic hedgehog
homolog, which has a STAGES OF MITOSIS
corresponding gene. Sonic 1. Prophase
hedgehog proteins are 2. Metaphase
responsible for signaling cells 3. Anaphase
about the proper formation of 4. Telophase
limbs and organs during
embryonic development; the one Prophase
that causes diprosopus is said to ❖ Supercoiling of chromosomes.
be linked with brace and brain ❖ Chromosomes become visible to
patterning. the microscope.
❖ A person who had this mutation ❖ Nuclear membrane disappears.
was Edward Mordrake. ❖ Formation of Spindle fiber.

Janus cats Metaphase
❖ Felines with diprosopus ❖ Alignment of chromosomes in
condition. the metaphase plate or equatorial
❖ Earned the name “janus cats” plate.
after a Roman God who had two
faces. Anaphase
❖ Spindle fibers shorten and pull
Epidermodysplasia Verruciformis the sister chromatids in opposite
❖ Sometimes called the “tree man poles.
disease”.
❖ A very rare and autosomal
recessive skin disorder, meaning
that both parents must be Centrioles vs. Centrosome
carriers for the condition to Centrioles Centrosome
appear.
Microtubule unit Made up of two
Sirenomelia which makes the centrioles.
❖ Also known as mermaid centrosome.
syndrome.
Microtubules like Contains two * Spermatogenesis - creation of sperm
centrin, cenexin, centrioles cells.
and tektin are arranged in an * Oogenesis - creation of egg cells.
arranged in a orthogonal * Gametogenesis - creation of
cylindrical manner. gametes.
structure.

Mother centriole Forms spindle Spermatogenesis
forms flagella and apparatus during 1.) Spermatogonia
cilia in the cell division. 2.) 1st Spermatocyte
non-dividing cells. 3.) 2nd Spermatocyte
4.) Spermatid
Telophase 5.) Sperm
❖ Spindle fibers break down.
Oogenesis
❖ Nuclear envelope starts to form.
1.) Oogonium
❖ Chromosomes start to uncoil.
❖ Nucleolus forms. 2.) Primary oocyte
3.) Secondary oocyte & Primary
Cytokinesis polar body
❖ Division of the cytoplasm. 4.) Ovum
❖ Formation of cleavage furrows.
❖ In plants; * Spermarche - first ejaculation of a
- Cell plates are formed male.
instead of cleavage * Nocturnal Emissions - wet
furrows. dreams.
* Menarche - first menstrual period.
Meiosis * Menopause - marks the end of
❖ Type of cell division involved in menstrual period.
the production of gametes. * Diploid - reductional.
* Haploid - equational.
Gametes
❖ Reproductive cells that contain STAGES OF MEIOSIS
half the number of chromosomes * Interphase happens before the
as the normal body cells. process starts.*
❖ 23 chromosomes in sperm cell,
23 chromosomes in egg cell. Gametes
❖ 2 stages;
- Meiosis I (Reductional)
* Human Egg - ovum
- Meiosis II (Equational)
* Human Sperm - spermatozoa
Meiosis ❖ The paired homologous
❖ Produces four unidentical chromosomes align to the
daughter cells. metaphase plate.
❖ Spindle fibers attaches to the
Meiosis I Meiosis II homologous chromosomes.

Prophase I Prophase II Anaphase I
Metaphase I Metaphase II ❖ Homologous chromosomes
separate and moves toward the
Anaphase I Anaphase II opposite poles.
Telophase I Telophase II
Telophase I
MEIOTIC MITOTIC ❖ Chromosomes reach the
opposite poles followed by
Prophase I cytokinesis.
❖ Leptotene
- Condensation of
chromosomes.
❖ Zygotene
- Homologous
chromosomes pair with
each other.
- Formation of
synaptonemal complex.
❖ Pachytene Interkinesis
- Crossing over of ❖ The period between 2 set of
homologous meiotic division.
chromosomes/Exchange
* Homologous Chromosomes -
of genetic materials.
chromosomes that carry the same gene.
❖ Diplotene
* Homozygous Chromosomes -
- Chiasma visible within
having 2 identical alleles of a particular
bivalent.
gene.
❖ Diakinesis
- Occurs when the alleles are
- Nuclear membrane identical.
disintegrates. * Synapsis - finding the partner of the
chromosomes, forming tetrads.
* Alleles - variants of genes. * Locus/Loci - genetic address or
biomarker.
Metaphase I
Meiosis II PRACTICAL RESEARCH
❖ Same with the process of mitosis.
Research
❖ Produce 4 genetically
is a process of executing various
unidentical haploid
mental acts for you discovering
chromosomes.
and examining facts and
❖ No more crossing over because
information to prove the accuracy
it already happened.
or truthfulness of your claims or
conclusions about the topic of
your research.

Importance of Research
It promotes people’s
independence or interpersonal
relationships that the world needs
for solving its societal problems.
Research studies happen in any
Genetic Recombination
field of knowledge. Anthropology,
❖ Crossing over
Business, Communication,
❖ Independent assortment
Education, Engineering, Law and
❖ Random fertilization.
Nursing, among others.
* Sperm cell and Egg cell Haploid - 23
Process and Approaches
* Zygote Diploid - 46
1. Scientific and Positive
Approach
Karyotype
- You discover and measure
❖ An organized picture of the
information as well as
chromosomes of a human
observe and control
arranged in pairs by size from
variables in an impersonal
largest to smallest.
manner.
- It allows control of
* Autosomes - pairs 1-22.
variables
* Sex Chromosomes - last pair of
chromosomes.
2. Naturalistic Approach
- Uses words
Fertilization
- It directs you to deal with
❖ The fusion of a sperm and egg
qualitative data that speak
to form a zygote.
of how people behave
toward their surrounding.
* Zygote - fertilized egg.
- These are non-numerical
* Male - XY chromosomes
data that express truth
* Female - XX chromosomes
 about the way people work and the work of your
perceive or understand the peer.
world.
5. Openness
3. Triangulation Approach - Share data, results, ideas,
- Allowing you to combine or tools, resources. Be open
mix up research to criticism and new ideas.
approaches, research 6. Respect intellectual Properties
types, data gathering, and - Honor patents, copyrights,
data analysis techniques. and other forms of
- Gives you the opportunity intellectual property. Do
to view every angle of the not use unpublished data,
research from different methods w/o permission.
perspective. 7. Confidentiality
- Protect confidential
Ethics of Research communications, such as
1. Honesty papers or grant submitted
- Strive for honesty in all for publication, personnel
scientific communications records, patient records
- Do not fabricate, falsity, or 8. Social Responsibility
misrepresent data - Strive to promote social
2. Objectivity good and prevent or
- Strive to avoid bis in mitigate social harms
experimental design, data through research, public
analysis, data education, and advocacy.
interpretation, peer review, 9. Non-discrimination
personnel decision, grant - Avoid discrimination
writing, expert testimony, against colleagues or
etc. students on the basis of
3. Integrity sex, race, ethnicity, or
- Keep your promises or other factors that are not
agreement; act with related to the scientific
sincerity; strive competence and integrity
consistency of thought and 10. Legality
actions. - Know the obey relevant
4. Carefulness laws and institution
- Avoid careless errors and policies.
negligence; carefully and 11. Human Subject Protection
critically examine your Voluntary participation
Informed consent
 Anonymity Proper utilization of statistical tools to
check the reliability of tools and data.

Scientific approaches in Research 7. Conclusion
Conducting a research study involves Ruling out opinions; It should be
a systematic way of collecting data. objective and based from the analyzed
This usually involves the utilization of data.
SCIENTIFIC METHODS
8. Replication
1. Empirical Approach Doing the same study to different
Data and knowledge is obtained through participants.
direct observation and experimentation.
Opinions and personal beliefs are a. Establishment of reliability of findings
disregarded. b. Discovery of new knowledge
c. Ascertainment of the generalizability
2. Observation of results.
Awareness of the surroundings plays a
vital role in obtaining data. In addition,
tools can be used to verify what is being Characteristics of quantitative
observed. research

3. Inquiry 1. More structured research
Looking for answers by thoroughly instruments.
asking questions. 2. Bigger sample size
Scientific investigation is necessary to 3. Study can be replicated due to its
generate tangible proof. high reliability
4. Clearly defined research question
4. Hypothesis 5. Study is carefully designed
Educated guess; Researchers will 6. Numerical data
predict the result of a study. 7. Uses questionnaires
Findings will aide in the interpretation
and analysis of data. Strengths of Quantitative Research
1. Enables broader study.
5. Experimentation 2. Results are more accurate
Assure the testability in a crafted 3. Study can be replicated
condition for the accuracy and reliability 4. Comparisons can be made over time
of results. Findings are considered 5. Biases can be avoided
correct.
LImitations of Quantitative Research
6. Analyses 1. Data can be limited.
2. Results may not reflect a real-life
situation
3. Questionnaire is based on
researchers’ POV
Philippine Pre practical kind of science they
knew back then
Colonial Literature AKA Myths and Legends

Epics
Proverbs
Long-winded poems about a
Practical observations and
hero and his adventures and
philosophy of everyday life
misadventures
that is written usually in
Usually tells of a male hero
rhyming scheme
who is born with all pleasing
It is meant to entertain while
qualities
teaching basic skills in
The hero also has
surviving local life
superhuman capabilities
AKA Salawikain

Riddles
Used in battle of wits Spanish Colonial
Flippant nature
Refers to something Philippine Literature
laughable but in reality, the
answer is more serious than 1521 - When Ferdinand Magellan
expected explore claimed the island as
AKA Bugtong colony for the Spanish Empire

Folk Songs Christianity - The belief system and
Beautiful songs that are practices of the religion founded on
informal expressions of our the life and teachings of Jesus of
ancestors’ experiences in life Nazareth
Ranges from courtship to
lullabies, harvest and funerals Doctrina Christiana en lengua
Espanola y tagala
Tales By the Dominican Order at the San
Stories of origin for certain Gabriel Church
places,their names and their
creation Corrido
Used to explain certain A legendary religious
events or Phenomena in our narrative form usually details
ancestors’ lives that cannot
be explained by the limited
 the lives of saints or the Usually about battles to the
history of a tradition death and the proofs of faith
Long verse narrative on
chivalric-heroic and folklore Carillo
themes A play that uses shadows as
its main spectacle
Octosyllabic - Measures of eight Created by animating figures
syllables and recited to a martial made from cardboard that
beat are projected onto a white
Dodecasyllabic - Measures of screen
twelve syllables and slowly sang
Tibag
Awit Legendary religious narrative
A chivalric poem about hero, form that usually details the
or usually about a saint lives of saints or the history of
Usually sung and used in a tradition
religious processions A dramatic reenactment of
St. Helena’s search for Holy
Passion cross
The narrative poem about the Usually performed in May
life of Jesus Christ, beginning
from his birth and up to his Duplo or Karagatan
death Narrative dramas that are
connected to Catholic
Cenaculo mourning rituals and harvest
The dramatization of the celebrations
passion of Christ. It highlights
the sufferings and death of Zarzuela
Jesus Christ Musical comedies or
melodramas that deal with
Moro-Moro the elemental passions of
AKA Comedia de Capo y human beings
Espada
Blood-and thunder
melodrama depicting the
conflict of Christians and
Muslims
 Used by the writer to describe
their impressions of their
topic or object of writing
The writer uses carefully
chosen words to create an
imagery that the reader can
see through his or her senses

Types of Imagery
1. Visual Imagery - What the
writer wants you to see
2. Olfactory Imagery - What
the writer wants you to smell
Poetry of the 3. Gustatory Imagery - What
Archipelago the writer wants you to taste
4. Tactile Imagery - What the
Philippine Poetry writer wants you to feel
Early 1900s, Filipino poetry 5. Auditory Imagery - What the
celebrated romanticism and several writer wants you to hear
poems about love flourished
Carlos Angeles
What is Poetry? Born on May 25, 1921 in
Literary work in which special Tacloban, Leyte
intensity is given to the University of the Philippines
expression of feelings and Won the Republic Cultural
ideas by the use of distinctive Heritage in Literature in 1964
style and rhythm with his poetry collection
Poems collectively or as a Stun Jewels
genre of literature
Language of imagination
expressed in verse
A poem follows a particular
flow or rhythm and meter
Diction
Elements in Poetry The denotative and
connotative meaning of the
Senses and Images words in a sentence, phrase,
paragraph or poem
 Refers to the Refers as “‘I” or “me” or
speaking/writing style or the sometimes in third person
choice of words that a writer
uses Form - A poem’s form is its
appearance
Types of Diction
1. Formal Diction - Uses Line
complicated structures, Includes all the words in one
perfect grammatical form row
and a wide range of Couplet - contains two lines
vocabulary words Quatrain - contains four lines
2. Informal Diction - More
conversational and often Rhyme Scheme
used in narrative literature The ordered pattern of
3. Colloquial Diction - Informal rhyming words at the end of
in nature and generally each line of a poem
represents a certain region or This pattern in labeled using
time capital letters
4. Slang Diction - Originated
within a specific culture or
subgroup but gained
traction. Can be a new word, Alternate Rhyme (ABAB)
a shortened word or modified The first and third lines rhyme
word/words that take on a at the end and the second
new meaning and fourth lines rhyme at the
5. Concrete Diction - Use of end following pattern
words for their literal
meanings and often refer to Coupled Rhyme (AABB)
things that appeal to the Two-line stanza that
senses rhymes-following a rhyme
6. Abstract Diction - When a scheme AABB
writer uses words to describe A similar dual rhyming
something intangible scheme

Speaker Limerick Rhyme (AABBA)
The voice that talks to the A five-line poem with the
reader rhyme scheme AABBA
Simple Four-line Rhyme (ABCB) terms of a person or living
Follow a rhyme scheme of thing
ABCB throughout the entire
poem

Meter/Rhythm - Meter describes Close Reading of
the rhythm or pattern of beats in a Filipino Poetry
line of poetry

Figurative Language - Refers to The way to analyze the poem by
language which differs from carefully reading and rereading a
everyday “‘nonliterary” usage text until you have found its
interpretation
Figures were seen as stylistic
ornaments which writers dressed Organic Unity
up their language to make it more Relies internally on narration
entertaining, and to clarify the and drama to be cohesive,
meaning they wanted to convey but without balance between
the two sides, the work
Simile suffers
The comparison of two Its main theme relies on a
elements where each free-spirited style of writing
maintains its own identity and by following guidelines in
genre-based habits
Metaphor
The merging of two elements Close Reading
or ideas where one is used to The context
modify the meaning of the When it was written
other The settings
The reason why it was written
Metonym/Metonymy The elements
The use of part to represent a
whole Marjorie Evasco
Born in Bohol in September
Personification 1935
The description of a Writes bilingually in English
nonhuman force or object in and Cebuano-Visayan
 Country’s earliest feminist The person that opposes or
poets fights against another
Asian Write Award in 2010 character
Professor in DLSU Manila AKA the villain of the story
She wrote “Is it the
Kingfisher?” Symbolism
The representation of one
thing using another
Could be done via an object,
Fiction setting, character, or color

Fiction
Literature created from the
Plot Structure of
imagination, not presented Fiction
as fact
May be based on a true story The Landscape of Philippine
or situation Fiction
Narratives based in the
imagination of the author Plot
Not in literal, reportorial facts Describes the events and
their significance as the story
unfolds
Character
Someone in a story either a Exposition
human, a fantastical or The beginning of the story
mythical creature or talking The writer sets the scene by
animal introducing the character,
Have character traits that describing the settings, and
define them and influence sometimes will give a brief
how they act in the story background of the story

Protagonist Inciting Incident
The main character in a story The event that sets the main
The person that the story is character or characters on
written about the journey that will occupy
them throughout the
Antagonist narrative
 Typically will upset the Where the story reaches its
balance within the main final conclusion
character’s world The writer starts to get ready
to tell the ending
Also includes an explanation
of what had happened and
how the characters feel
Rising Action
When the complication Paz Marquez Benitez
begins to show itself on the Born in March 3, 1894
characters, setting, and Quezon City
events in the story Studied at the University of
When the story starts to the Philippines
become more exciting Editor of the Women’s
Journal from 1919-1924, the
Climax first feminine magazine in
The event with the greatest English published in the
tension in the story Philippines
When the characters know Married to Francisco Benitez,
the truth, act on their a noted educator
impulses and make rash
decisions or decide to do
somethin
Usually signals how the story
will end

Falling Action
The result of the climax
The part when things start
falling into place for the
characters
Reaching the conclusion of
the story

Denouement/Resolution
Denouement is a French
term that means “ending”
 4.) Dialogue - Speech that is
written down as a part of a
piece of narrative text

Technical Elements
1.) Scenery - Setting for a
theatrical production.
Immovable elements
2.) Costumes - Clothing and
accessories worn by the
dramatists
Philippine Literature 3.) Props (Properties) - Movable
objects used as a part of a
Drama dramatic production
Portrayal of fiction on stage,
on film, on radio
A written work that tells a
The History of
story through action and Philippine Theater
speech and is meant to be
acted on stage
Philippine Theater
Playwrights Began in Pre Colonial
Writers of a drama and/or a indigenous drama
play Rituals, verbal oust or games,
and songs and dances
Dramatists praising their respective gods
Actors of a drama and/or a These dramas were used to
play capture the imaginations and
hearts of the Filipino, whom
Elements of Drama the Spaniards have ust
1.) Plot - A sequence of events colonized
within a play that tells a story In Spanish Colonial period,
2.) Role/Character - Performs the indigenous drama was
action and speaks the discarded and were changed
dialogue into mainly two categories:
3.) Theme - Meaning of the play Comedy/Komedya and
Zarzuela/Sarswela
Zarzuela/Sarswela/Sarsuela Oraciones or Orations
Type of theater that is Formal address (speech)
musical in nature designed to inspire listeners
Spoken and sung and incite action
Play with songs and dances
Usually written in prose Declamation
containing from one to five Recitation of a speech from
acts memory with studied
Depicting the vagaries of gestures and intonation as an
romantic love among exercise in elocution or
idealized Filipino characters theoretical
Presented in a one-act and a Laos
three-act presentation Lao literature and the
Each may consist of four to conventions by which they
five songs were told owed much to oral
traditions of storytelling
History of Zarzuela
1800’s - Originated in Spain Comedy or Komedya
and was made popular in the Derived from the Spanish
Philippines comedia
1878 or 1879 - The first An art form of lyric theater
zarzuela in the Philippines drama
was staged Comical in nature
1855 - Francisco Asojo Singing, dancing, dialogue
Barbeiri wrote “Jugat Con Developed into different
Fuego” (Playing with fire) kinds
1893 - The Teatro Zorilla was One of the most popular ones
inaugurated as home of is the Moro-moro
Zarsuelas
History of Komedya
1880 - "Junto Al Pasig” was In 1598, the local komedya
written by Jose Rizal and was first appeared in Latitn and
staged Spanish in Cebu
In 1673, a famous komedya
Examples of Sarsuela depicted the defeat of
Walang Sugat Corralat at the hands of
Ang Karayom Kung Iduro
 Sebastian Hurtado de
Corcuera

Two types of Komedya
1.) Secular Komedya -
Performed at local fiesta
2.) Religious Komedya - Usually
seen during church
celebrations and it focuses on
the life of Christ or any saint

Recap
Moro-moro
Plays that depicts the lives,
loves, and wars of Moors and
Christians