General Biology Past Paper Q1 PDF

Summary

This document provides an overview of General Biology concepts, such as cell theory and microscopy. It details the work of important historical figures contributing to cell theory.

Full Transcript

REVIEWER GENERAL BIOLOGY | Q1

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Guide: ➔ the curator of Royal Society (London)

Topic
1674
Subtopic
Anton Van Leeuwenhoek
➔ observed tiny living organisms in drops of
L1: CELL THEORY TIMELINE
pond water through his simple microscope
Late 1500s in 1674
➔ discovered bacteria in 1683
1. Zacharias Janssen ➔ first to invent microscope with the highest
➔ son of Hans Janssen magnification with the use of small lenses
➔ spectacle-maker in Middleburg, ➔ invented the term “animalcules” which
Dutch refers to the microorganisms he observed
➔ associated with optical and which includes:
compound telescope; initially the tiger
only one who received credit for monkey
compound microscope cat
➔ his invention was related to enhance dog
optical capability in order to gain giraffe
more traction to object ➔ father of microscopy and microbiology

2. Hans Janssen
➔ father of Zacharias Janssen 1838
➔ soon received credit as well for
inventing the compound microscope Matthias Jakob Schleiden
in around 1590 for good ➔ German botanist
illumination ➔ all plants are made up of cells

The both are considered as Dutch lens
1839
grinders who produced the first compound
microscope.
Theodore Schwann
❖ First Compound Microscope ➔ German zoologist
➔ circa 1595 ➔ all animals are made up of cells
➔ the “Janssen Draw Tube ➔ the Schwann cells in the neuron were
Microscope” named after him
➔ credited to Zacharias Janssen in late
sixteenth century 1855
➔ eyeglasses were beginning to enjoy
widespread use at that time and this Rudolf Virchow
focused a great deal of attention on ➔ German physician who studied cell
optics and lenses reproduction
➔ believed that “where a cell exists, there
1665 must have been pre-existing cells”
Robert Hooke ➔ omnis cellula e cellula
➔ used light microscope to look at thin slices ➔ father of oncology
of plant tissues ─ cork
➔ looked empty like a monk’s chamber Summary of Cell Theory
➔ coined the word “cells” which are the tiny
chambers
1. All living things are composed of one or
➔ the author of Micrographia (little notes)
more cells.
which contains his drawings of a section of
2. Cells are the basic unit of life in all living
cork (oak tree) as seen through one of the
things.
first microscopes
3. All cells came from pre-existing cells.
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➔ located below the stage and is
L2: PARTS OF A MICROSCOPE
usually controlled by a round dial
➔ how to set the diaphragm is
determined by the magnification, the
transparency of the specimen, and
the degree of contrast you wish to
have in your image
➔ condenser diaphragm

9. Illuminator
➔ most light microscopes use a low
voltage bulb which supplies light
through the stage and onto the
1. Eyepiece or Ocular Lens specimen
➔ magnifies the image of the ➔ mirrors are sometimes used instead
specimen of built-in lights
➔ also known as ocular lens ➔ provide light reflected from ambient
➔ most school microscopes have an light sources
eyepiece with 10x magnification
10. Coarse Focus
2. Eyepiece Tube or Body Tube ➔ moves the stage in larger
➔ holds the eyepiece increments to provide general focus
on the specimen
3. Nosepiece
➔ when bringing a specimen into
➔ holds the objective lenses and is
focus, the coarse dial is the first one
sometimes called a revolving turret
used
➔ choose the objective lens by
rotating the specific lens you want 11. Fine Focus
to use ➔ moves the stage in smaller
increments to provide a clear view
4. Objective Lens
of the specimen
➔ most compound microscopes come
➔ when bringing a specimen into
with 3 or 4 objective lenses that
focus, the fine focus dial is the
revolve on the nosepiece
second one used
➔ the most common objective lenses
have power of 4x, 10x, and 40x 12. Base
➔ combined with the magnification of ➔ main support of the microscope
the eyepiece the resulting ➔ the bottom where all the other parts
magnification is 40x, 100x, and 400x of the microscope stand

5. Arm
➔ connects the base to the nosepiece
L3: PARTS OF THE ANIMAL CELL
and eyepiece
➔ structural part used to carry the
microscope The cell contains different parts which act as small
organs, called organelles that need to execute
6. Stage
specific functions and processes.
➔ where the specimen is placed
➔ place for observation Cell is made up of a communication network of
organelles, These organelles communicate with
7. Stage Clips
each other in order to carry out cellular activities.
➔ supports that hold the slides in
place on the stage

8. Diaphragm or Iris
➔ controls the amount of light
passing through the slide
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Nucleolus
➔ creates ribosomes
➔ site of rRNA transcription and processing,
and of ribosome assembly

Chromatin
➔ combination of DNA and protein
➔ each strand further condenses to form
chromosomes during cell division
➔ single strand with centromere in the center

Nuclear Envelope

Plasma Membrane ➔ boundary of the nucleus
➔ composed of outer and inner nuclear
➔ can also be called as cytoplasmic
membranes
membrane, plasmalemma, or cell
membrane Nuclear Pore
➔ phospholipid bilayer ➔ passage of the substances that move in
➔ separates cell from external environment and out of the nucleus
➔ controls passage of organic molecules,
ions, water, oxygen, and wastes into and Ribosomes
out of the cell ➔ assembly of proteins for synthesis
➔ attaches to the RER during protein
Structure: double-layered fat (phospholipid bilayer);
synthesis
receptor molecules (proteins that receive signals)
Structure: some free in cytoplasm, some attached
Head: phosphate, water-loving, hydrophilic,
to endoplasmic reticulum
negatively charged, polar

Tail: lipid (semi-permeable), water-fearing, Lysosomes
hydrophobic, uncharged, nonpolar ➔ digests food
➔ recycles old components of the cell and
Amphiphatic: carries one water-loving and one
kills invading microorganisms
water-fearing characteristic
➔ suicide bag of the cell
➔ acidic and low pH environment
Cytoplasm
➔ digestive hydrolytic enzymes are
➔ enclosed within the cell membrane responsible for breaking down of larger
➔ provides structure to cell molecules
➔ site of many metabolic reactions
➔ contains cytosol where organelles are ➔ Structure: membrane sac of digestive
suspended enzymes

Structure: jelly-like material holding the organelles Apoptosis: programmed cell death
in place
Mitochondria
Nucleus ➔ make ATP energy from cellular respiration
➔ cell organelle that houses the DNA sugar + O2 → ATP
➔ directs synthesis of ribosomes and proteins fuels the work of life
➔ where genetic processes take place
Structure: double membrane
Structure: nuclear membrane, nucleolus (ribosome
factory), chromosomes (DNA)

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Vesicles and Vacuoles

➔ moving material around cell storage
➔ vacuoles are large vesicles

Vesicles: smaller; has the capacity to attach;
digestive nutrients (already converted)

Vacuoles: larger; no affinity to attach to
neighboring membranes; transport; digestive
enzymes; no need to maintain acid and low pH
environment

Centrioles

➔ help in the separation and transfer of the Cilia and Flagella
replicated genetic materials in the cells
➔ structural support of cells ➔ appendages responsible for the locomotion
➔ 9 sets of triplets microtubules of the cell
➔ surrounded by dense mass, making up a ➔ filters dust and harmful microorganisms
structure called centromere
Structure: made up of microtubules, motile
Structure: one pair in each cell
Microvilli: expands or increases the surface area
Endoplasmic Reticulum as it is smaller; responsible for absorption

Cilia: longer and thicker than microvilli; responsible
➔ factory for protein synthesis to filter dust and pollen
➔ works on proteins
➔ helps complete the proteins after ribosome Flagella: mostly seen in sperm cell; responsible for
builds them faster movement
➔ makes membranes
Centrosomes
Structure: RER (ribosomes attached works on
proteins), SER (makes membranes; no ribosomes;
➔ ensuring the organization of microtubules
has a detoxification function through steroid
during mitosis
hormones; abundant in liver)
➔ ensure that sister chromatids are duplicated
in an orderly manner
Golgi Apparatus

Peroxisome
➔ prepares proteins for specific jobs and
packages them into vesicles
➔ responsible for oxidative process, lipid
➔ protein packaging center
synthesis, and synthesis of bile acids
➔ found in plant and animal cells
➔ also abundant in liver
Cis face: entry point or entrance
Trans face: exit point
L4: PARTS OF THE PLANT CELL
The organelles of a plant cell and their functions
are almost similar to those found in the animal cell.

There are only a few organelles that can be
exclusively seen in a plant cell for they have
specialized functions.

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➔ stacked like poker chips

Granum
➔ stack of thylakoid discs

Cell Wall Central Vacuole
➔ located outside the cell membrane and is ➔ storage
primarily made of cellulose ➔ maintains the turgor pressure to keep the
➔ maintains the shape and protects the plant plant cell from wilting
cell ➔ water, carbohydrates, and protein

Structure: structural layer of a cell which can be Structure: surrounded by a membrane called
tough, flexible, and sometimes, rigid tonoplast

Layers or Compartments of Cell Wall Cell Sap: the fluid inside the vacuole, containing
1. Middle Lamella/e: next to plasma water, enzymes, and nutrients
membrane (seen in all types of plant cells) Tonoplast: membrane
2. Primary Cell Wall: flexible for expansion
and growth (seen in all types of plant cells) Turgor Pressure: water pressure that presses or
3. Secondary Cell Wall: seen in bulky plants pushes all membrane to cell wall; hydrostatic
4. Tertiary Cell Wall: seen in bulky plants pressure

Other Substances in the Cell Wall Turgid State (Rigid): healthy state
➔ hemicellulose Flaccid State (Wilter): unhealthy state
➔ chitin
↑ turgor pressure, ↑ volume of cell sap
➔ pectin
↑ volume of cell sap, ↑ growth of central v.
Chloroplast ↑ growth of central v., ↑ storage for nutrients
➔ substances inside the chloroplast help a
Plasmodesmata
green plant cell trap the sun’s energy and
➔ can only be seen in plant cells
then produce food
➔ bridge of communication between
➔ contains chlorophyll, the green pigment
exchange of nutrients among organelles in
responsible for capturing light during
the cell
photosynthesis
➔ traverse the cell walls of plant cells and
Chloroplast: green organelle in a plant some algal cells, enabling transport and
Chlorophyll: green pigment in Chloroplast communication between them

Stroma Structure: contains a narrow tube-like structure
➔ the compartment interior (desmotubule)
➔ the inmost membrane holds a tenacious
Peroxisome
fluid
➔ converts fatty acids to sugar and assisting
Thylakoid chloroplasts in photorespiration
➔ network of interconnected sacs inside the
Structure: contains a single membrane which
chloroplast
surrounds digestive enzymes
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➔ boundary or outer lining
L5: PROKARYOTES AND EUKARYOTES
9. Cytoplasm
Bacteria and archaea consist of prokaryotic cells,
➔ responsible for cell growth and
whereas all other forms of life (protists, fungi,
metabolism
animals, and plants) are composed of eukaryotic
cells.
Eukaryotes vs. Prokaryotes
Eukaryotic cells are distinguished by having a
membrane-enclosed nucleus, which houses most
of their DNA. The word prokaryote means before
nucleus, reflecting the fact that prokaryotic cells
evolved before eukaryotic cells.

Unicellular: composed of a single cell

Parts of Prokaryotes Cell

1. Fimbriae
➔ attachment structure on the surface
➔ a.k.a. pilli
➔ hair-like structure
2. Capsule
➔ jelly-like outer coating
➔ holds the organelles in place and
makes sure they are in position

All bacteria are prokaryotes.
3. Cell Wall
➔ rigid structure outside the cell Escherichia coli, which resides in your intestines, is
membrane an example of prokaryotes.
4. Nucleoid
Staphylococcus aureus, which can be a source of
➔ region where the DNA is located
skin infection.
5. Plasmid
➔ facilitates the process of replication Prokaryotes are in participation in every activity
and duplication associated with life. They develop, replicate, and
6. Ribosomes respond to changes in the environment.
➔ synthesizes proteins
7. Flagella
➔ responsible for locomotion and
faster movement
8. Plasma Membrane
➔ membrane enclosing the cytoplasm
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Summary of the Parts of the Cell Lesson 6: Microscope Slides

Cells and Tissue Samples

Organelles Pro A P

Cell Wall ✓ ✓ Simple columnar
epithelium sec. -
Cell Membrane ✓ ✓ ✓

Central Vacuoles ✓

Lysosomes ✓ ✓

Golgi Apparatus ✓ ✓
Stratified squamous
Nucleus ✓ ✓ epithelium sec. -
Cytoplasm ✓ ✓ ✓

Flagella ✓ ✓

Chromosomes ✓ ✓ ✓

Mitochondria ✓ ✓ Dense connective
tissue (Tendon L.S.) -
ER ✓ ✓

Ribosomes ✓ ✓ ✓

Chloroplast ✓

Note: Lysosomes can also be seen in plant cells
(aquatic plants) but not all plant cells have Blood of Human smear
lysosomes. -

Skeletal Muscle L.S. -

Smooth muscle
isolated W.M. -

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Cardiac muscle sec - Epithelial Tissue
Tightly-joined closely packed cells
Covers outside of the body
Absorption, excretion, transport of
molecules
a. Cell Shape

Squamous Description
Neurocytes isolated Thin, scaly,
W.M. - flattened on the
surface.
Fried-egg
appearance
with rounded
nucleus.
Location
Kidney
glomeruli, airs
Epithelium cells of sacs, lining of
cavitas oris of Human heart, blood
W.M. - vessels,
lymphatic
vessels, and
lining of the
ventral body
cavities
Function
Diffusion
Ciliated epithelium of Filtration
gill T.S. - Secretion
Protection

Cuboidal Description
Dice shape,
square like
shape with
large and
spherical nuclei
Location
Kidney tubules,
ducts and
Cell Types
secretory,
Cell is the lowest level structure capable of position of
performing all activities of life. small glands,
Most organisms are made up of thousands egg and sperm
cells.
or millions of cells and referred to as
Function
“MULTICELLULAR”. Secretion
Cells grouped together to form “TISSUE” Absorption
and fulfill similar functions. Tissues are then
grouped to form “ORGAN”, which perform Columnar Description
Taller rather
a particular function.
than wide,
Animal organs are composed of many cells
column in
and tissues like epithelial tissue, connective shape, long,
tissue, muscle tissue, nerve tissue rectangular
shape with
oblong nuclei or
elongated
nucleus contain

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goblet cells.
Location
Digestive tubes,
gall bladder,
excretory ducts,
some glands,
bronchi, uterine
tubes, uterus,
nose, ears, and
tongue.
Function
Absorption
Secretion
Reception
Sensory

b. Number of Cell Layers

Simple = single-layer

Ciliated columnar cell Description
Fine hair-like
projection
Location
Nose, uterus,
fallopian tubes,
and egg cells
Stratified = doubled or multiple layer Function
Move mucus
and other
substances
across the cell,
ciliary action

Pseudostratified Description
Pseudostratified = (false) False
columnar cell
appeared to be arranged, stratification or
but there's actually just appearances,
one layer of cells free surfaces
with hair-like
projection.
Nuclei seen at
different levels
c. Relate Structure to Function that contain
goblet cells
Stratified Squamous (Esophagus) Location
Simple Squamous (Respiratory Ducts of large
System) glands, ductus
Simple Columnar (stomach; deferens,
digestive system) trachea, throat,
Pseudostratified Ciliated and mouth
Function
Columnar (upper respiratory tract)
Filtration
Simple Cuboidal (Spleen, Absorption
Pancreas) Secretion
Stratified Columnar (urinary Ciliary action
system; bladder, sphincters)

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Connective Tissue
Ex. chondrocytes
- connect, bind, support, and hold one part
Adipose Reticular collagen, lipid
to another part of the body.
storage and energy
- the most vascularized and widely building
distributed inside of the body
- supporting the muscles to produce Ex. fat cells (adipose)
movement, protects the internal and
delicate organs, and connect tissues of the
body Muscle Tissue

Tissue Type Description - designed for contraction and movement
- also called muscle fibers
Bone hard/calcified,
supports, protects,
provides lever, and Cell Type Description
hematopoiesis
Skeletal (Voluntary) Unbranched, striated,
Ex. bone cell long cylindrical shape,
(osteocytes) bundle forms, many
nucleus

Blood Fluid matrix (plasma), Cardiac (Involuntary) Branched, striated,
transport short branching, one or
two nucleus
Ex. RBC, WBC, and
Smooth (Visceral) Branched, unstriated,
platelets
spindle in shape of
Hyaline Cartilage Firm collagenous cells, one nucleus at
fibers, support, the center
cushion properties

Ex. chondrocytes Nervous Tissue
Fibro Cartilage Collagenous fibers,
absorb compressive - is a specialized tissue in the body
shocks responsible for transmitting signals and
controlling bodily functions. It plays a key
Ex. chondrocytes role in the nervous system, which includes
the brain, spinal cord, and nerves.
Areolar Cartilage Gel-like matrix,
collagenous and elastic 1. Neurons/ Neurocyte:
fibers, holds and
These are the functional cells that
conveys tissue fluid
inflammation transmit electrical and chemical
signals. Neurons have three main
Ex. mast cells, WBC, parts:
fibroblast,
macrophages ○ Dendrites: Receive signals from
other cells.
Elastic Cartilage Elastic fibers, support
○ Axon: Carries signals away from the
the external
neuron.
Ex. chondrocytes ○ Cell Body: is the central part of the
neuron that contains the nucleus
Cartilage Rubbery collagen, and other organelles.
elastic fibrous
secretion of
chondroitin substance, Plant Tissue
support and provide
structure
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1. Parenchyma Tissues and Cell - Their primary function is for
- Parenchyma is a simple plant mechanical support and
tissue made of living cells with protection.
spaces between them. It forms a - The presence of numerous sclereids
major part of ground tissues and form the cores of apples and
supports functions like produce the gritty texture of guavas.
photosynthesis, storage,
secretion, and transport of water
B. Meristem
and solutes. Parenchyma also
- allows plant stems and roots to
combines with other cells in
grow longer (primary growth) and
complex tissues, such as xylem and
wider (secondary growth).
phloem.

2. Collenchyma Tissue and Cells
- is a cellular tissue, found in the
secondary phloem of plants.
- It composes the bulk of plant
tissues.
- It has cellulose cell walls - filled
with water to help the plants to
keep their shape.
- It contains flatter chloroplasts
than parenchyma cells and they
give plants elasticity and rigidity
by joining together to form fibres in
bundles or bundles in strips
throughout the plant’s body.

3. Sclerenchyma Tissue and Cells
- It is a type of simple permanent
tissue found in mature parts of the
plants.
- They attain a definite shape, size
and function.
- It is a supportive tissue and is
usually made up of dead cells with
highly thickened lignified walls.
- made up of a group of uniform
cells having similar structures and
perform the same function.

A. Sclereids
- are a reduced form of sclerenchyma
cells.
- highly thickened, lignified cellular
walls that form small bundles of
durable layers of tissue and are
developed in leaves of most
halophytes.

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