1st Mastery Test HO PDF

Summary

This document contains information about cell theory and the contributions of various scientists to the development of this theory. It looks at the postulates and components of the theory, along with detailed descriptions of various cell structures and their functions.

Full Transcript

22/08/2024

King Charles II of England in
commissioned a
microscopic investigation of
the natural world, during
that time the focus of the
interest was on insect
anatomy.

Robert Hooke’s Compound Boxes in the thin
Micrographia
Microscope slices of Cork
He is an English Botanist.

He examined thin slices of
cork from the bark of an oak
tree with his compound
microscope.
He discovered boxes and
called it cellulae

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He was the first biologist to discover the following:
He is a Dutch Naturalist.
Made over microscopes
With his microscopes, he observed
what he called “ANIMALCULES” –
known today as protozoa (1674) and Bacteria Protozoa Nematodes Rotifers
bacteria

He was the first biologist to discover the following:

Spermatozoa of both Insects and Other
insects and humans Microorganisms

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He is a Scottish Botanist. He is a German Botanist.

He successfully discovered the Co-founder with Theodor Schwann
center of a cell in of the Cell Theory
He referred such structure as nucleus He studied microscopic plant
structures and observed different
parts of the plant are composed of
cells

He is a German Physiologist. He is a German Pathologist.

Founded modern histology by He pioneered the modern concept of
defining cell as the basic unit of pathological processes by his
animal structure application of the cell theory.
He accepted the idea that the
origin of cells was the division of
pre-existing cells

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a biologist who was credited for helping an American biologist who
with the discovery of cell membrane in revolutionized the endosymbiotic theory
which states that modern-day
mitochondria and chloroplasts are
according to her, the cell membrane is a descendants of ancient bacteria-like
physical biological membrane, not an organisms that lived inside prokaryotic
interface between two different liquids. cells two billion years ago when Earth
was still hot and mostly barren.

Historic scientific theory that is universally accepted.

It is comprised of three principles or postulates.

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Hairlike structure that acts primarily as an organelle of locomotion
in the cells of many living organisms

Flagella is made of a globular Have a complex structure
protein called flagellin that creates a consisting of microtubules and an
rigid, hollow cylinder and uses the associated complex of motor and
movement of hydrogen ions across connective proteins.
the membrane

Glycocalyx is a highly charged layer
of membrane-bound biological Prokaryotic cells produce
macromolecules attached to a cell glycocalyx coatings, such
membrane. This layer functions as a
as capsules and slime
barrier between a cell and its
surroundings. layers, that aid in
attachment to surfaces
Most glycocalyx-associated proteins and/or evasion of the host
are transmembranes that can be immune system.
linked to the cytoskeleton.

Present in cells that lack cell walls.

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Every cell in the human
body – endothelial cells,
immune cells, muscle cells,
blood cells, neurons, and
all the others – exhibits a
glycocalyx.

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the gelatinous liquid that fills the inside of a cell. It is composed of
water, salts, and various organic molecules.
Prokaryotic plasma
membrane generally
lacks sterols No cytoskeleton and no cytoplasmic
streaming

In Eukaryotic plasma
membrane, Sterols and Cytoskeleton is present; cytoplasmic
carbohydrates are streaming occur
present and serves as
receptor.

Chromosomes are threadlike structures of nucleic acids and
proteins found in living cells, carrying genetic information in
the form of genes.

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An organism duplicates its genetic Mitosis is a process where a single cell
material, or deoxyribonucleic acid divides into two identical daughter cells. Bacterial conjugation is a process A type of cell division in sexually
(DNA), and then divides into two parts During mitosis, one cell divides once to of genetic transfer between reproducing organisms that reduces
(cytokinesis), with each new organism form two identical cells. bacterial that requires direct the number of chromosomes in
receiving one copy of DNA. contact in between cells gametes

PROKARYOTIC EUKARYOTIC
0.1 – 5.0 MICROMETERS Size 10 – 100 MICROMETERS
NO NUCLEUS (NUCLEOID) Nucleus HAS TRUE NUCLEUS
NO MEMBRANE-BOUND ORGANELLES Organelles WITH MEMBRANE-BOUND ORGANELLES
GLOBULAR PROTEIN (FLAGELLIN) Flagella MICROTUBULES & CONNECTIVE PROTEINS
GENERALLY PRESENT Glycocalyx PRESENT IN CELLS WITHOUT CELL WALL
CHEMICALLY COMPLEX (PEPTIDOGLYCAN) Cell Wall CHEMICALLY SIMPLE (CELLULOSE)
NO STEROLS Plasma Membrane STEROLS FOR SUPPORT AND TRANSPORT
NO CYTOSKELETON, NSTREAMING Cytoplasm WITH CYTOSKELETON AND STREAMING
70S Ribosomes 80S
IN AREA CALLED NUCLEOID Chromosomes INSIDE NUCLEUS
BINARY FISSION Division MITOSIS
CONJUGATION Reproduction MEIOSIS

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Present in all organisms including
plants.

Controls both solute and solvent
entry and exit between the cell
and the environment.

Can be semi-permeable,
impermeable, permeable, and
selectively permeable in nature.

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Protecting the integrity of the
interior cell.
Providing support and
maintaining the shape of the
cell.
Helps in regulating cell growth
through the balance of
endocytosis and exocytosis.
Plays an important role in cell
signaling and communication.
Selectively permeable
membrane by allowing the
entry of only selected
substances into the cell.

The main functions of the cell wall are:
The cell wall is present only in plants,
fungi and bacteria. Protecting the cell against physical
damage and invading pathogens.
The cell wall is the outermost covering
of plant cells. Controls and regulates the direction of
cell growth.
It is present outside the cell membrane
and is tough, flexible, and sometimes Providing the strength, structural
rigid in its texture. support and maintaining the shape of
the cell.
(PLANTS) It is mainly composed of
cellulose, long fibers of carbohydrates Functions as a storage unit by storing
including hemicellulose, lignin, and carbohydrates for use in plant
pectin. growth, especially in seeds.

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The nucleus is responsible for regulating almost
all forms of cellular activities.

A nucleus is a double-membraned eukaryotic
cell organelle containing the genetic material.

Considered as the central unit of a cell.

The organelle responsible for controlling
cellular activities like metabolism and division.

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Hierarchy of Biological Organization

EPITHELIUM CONNECTIVE

1. Cuboidal Epithelium 1. Loose 2. Dense 3. Specialized

2.1 Dense
2. Simple Columnar 1.1 Areolar 3.1 Cartilage
Regular

2.2 Dense
3. Simple Squamous 1.2. Adipose 3.2 Bone
Irregular
2.3 Dense
4. Stratified Squamous 1.3. Reticular 3.3 Blood
Elastic

5. Pseudostratified
Columnar

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They are closely joined cells with tight junctions.

It lines the outer surfaces of organs Tight junctions serve as barriers for pathogens Mechanical injuries,
and blood vessels throughout the and fluid loss.
body.

It is also found in the inner surfaces
of cavities in many internal organs.

DISTINCT ARRANGEMENT OF EPITHELIAL TISSUE
1. CUBOIDAL An epithelial tissue comprised of cuboidal
EPITHELIUM epithelial cells, and is involved in secretory,
absorptive, or excretory functions

The cell comprising the cuboidal epithelium is
approximately as wide as it is tall. It is therefore
cube-like (thus, the name).

Cuboidal epithelia can be found lining the
collecting ducts of the kidney, the pancreas,
the salivary gland, the sweat glands, and
the mammary glands.

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DISTINCT ARRANGEMENT OF EPITHELIAL TISSUE
CUBOIDAL
EPITHELIUM 2. SIMPLE For secretion and active absorption
COLUMNAR
Consist of a single layer of cells that
are taller than they are wide
Secretion of Glandular Products --------- Salivary Glands
Synthesis and Packaging -------------------- Pancreas
Ion and Fluid Regulation -------------------- Mammary Glands This type of epithelium lines the
Barrier Function ---------------------------------- Lining of the Small Intestine small intestine and stomach where it
Protection ------------------------------------------- Respiratory Tract absorbs nutrients from the lumen of
Hormone Release ------------------------------- Thyroid Gland the intestine

DISTINCT ARRANGEMENT OF EPITHELIAL TISSUE
3. SIMPLE Characterized by being flat, possessing
SQUAMOUS an oblong nucleus, and having a scale- Absorption and Secretion
like appearance. The cells are wider
Protection
than they are tall and appear somewhat
hexagonal when viewed from above. Movement
Secretion of Glandular Products
Protection Against Chemicals
Plate – like cells Selective Permeability

For exchange of material
through diffusion

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DISTINCT ARRANGEMENT OF EPITHELIAL TISSUE STRATIFIED SQUAMOUS
STRATIFIED Stratified squamous epithelium is a type
SQUAMOUS of tissue consisting of multiple layers of
flat, scale-like cells.
1.Multiple Cell Layers
The main role of stratified squamous
epithelium is to provide protection 2.Keratinization
against mechanical and chemical 3.Tight Cell Junctions
stresses, as well as to minimize water 4.Rapid Cell Replacement
loss.
5.Protection Against Chemicals
It serves as a protective barrier in
areas subjected to wear and tear

DISTINCT ARRANGEMENT OF EPITHELIAL TISSUE CONNECTIVE TISSUES
Appears stratified but is actually a single layer CONNECTS, SUPPORTS AND
PSEUDOSTRATIFIED of cells of varying heights. This gives the false BINDS.
COLUMNAR impression of multiple cell layers.

Commonly found in the respiratory tract, Provide support, connect, and
where it is ciliated to move mucus and trapped anchor different structures in the
particles out of the airways, aiding in
respiratory defense mechanisms.
body. This includes supporting
organs, connecting bones, and
Functions to protect underlying tissues and even insulating body parts.
secrete mucus, such as in the trachea and
bronchi of the respiratory system.
Separate other tissue or organs.

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THREE MAIN GROUPS OF CONNECTIVE TISSUES 1.1 AREOLAR CONNECTIVE TISSUE

It is found surrounding blood
1. Loose (Areolar) 2. Dense Connective 3. Specialized vessels, nerve bundles, muscles,
Connective Tissue Tissue Connective Tissue
and organs.

It fills the spaces between organs
and connects the skin to the
underlying muscle.

Contains a network of blood
vessels that facilitate the exchange
of nutrients, gases, and waste
products between the bloodstream
and surrounding cells.

1.2 ADIPOSE TISSUE
It is composed of adipocytes
or “fat cells”

It stores energy in the form
of fat and provide cushions
and insulates the body.

It also plays a role in
regulating body temperature

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1.3 RETICULAR TISSUE 2. DENSE CONNECTIVE TISSUE
It is a type of connective tissue with fibers as its main matrix element.

It is present in locations with Reticular Fibers
high cellular content. Dense Regular Dense Dense Elastic
Connective Tissue Irregular Connective Connective Tissue
Tissue

It has a branched and mesh-
like pattern called reticulum.

It provides structural support.

2.1 Dense Regular Connective Tissue 2.2 Dense Irregular Connective Tissue
It is made up of type 1 collagen
fibers. Collagen fibers are The fibers are not arranged in parallel
bundles.
densely packed together and
arranged in parallel to each
other. It is found in deep layer of the dermis
and sclera in eye.
It is found in areas of the body
where large amount of tensile It provides strength and support to
tissues and organs subjected to tension
strength are required such as and stretching from multiple directions,
ligaments, tendons and such as the dermis of the skin and the
aponeurosis. capsules surrounding organs.

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2.3 DENSE ELASTIC TISSUE 3. SPECIALIZED CONNECTIVE TISSUE
It is made up of a series of similar cells put together to perform a
specific function.
It provides tissues with elastic recoil
and resilience.
Cartilage Bone Blood/Vascular
It is found throughout the body but
most abundant in the reticular tissues
of soft organs or organs that require
stretching as it function.

It is necessary for the proper
structure and function of various
systems.

3.1 CARTILAGE 3.2 BONE TISSUE
MATRIX

Has a firmly gelated A hard tissue that has a
consistency that endows this honeycomb-like matrix internally
tissue with unusual rigidity and which helps to give the bone
resistance to compression. rigidity.

Functions involve: It provides support, facilitation of
Support / Flexible Support movement, protection of internal
Shock Absorption organs, storage of minerals and
Growth and Development fat, metabolic regulation, and
hematopoiesis.
CHONDROCYTES
LACUNAE

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3.3 BLOOD
primarily responsible for generating
It is a connective tissue that has a mechanical force and facilitating movement.
fluid matrix called plasma.
characterized by its contractility, excitability,
extensibility, and elasticity.
Vital connective tissue that plays a
central role in transporting classified into Smooth, Cardiac, and Skeletal
substances, defending against
Muscle cells (fibers) can be multinucleated
infections, maintaining (skeletal), single-nucleated (smooth), or have
homeostasis, and supporting one or two nuclei (cardiac), reflecting their
various physiological processes structural diversity.
throughout the body.

An involuntary muscle that contracts slowly and
automatically.

Smooth muscle fibers or myocytes, have a
distinctive elongated and tapered appearance.

Each smooth muscle cell usually contains a single, NUCLEUS
centrally located nucleus.

Have the ability to contract spontaneously
without external nerve stimulation.

Smooth muscle is found in the walls of various
internal organs and structures, including the
digestive tract, blood vessels, respiratory
airways, urinary tract, and reproductive organs.

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It is a specialized and organized type of
tissue exist only in the heart.
Intercalated discs in cardiac muscle are like communication
bridges. They help heart muscle cells (cardiomyocytes) work
together to pump blood effectively.
It is responsible for heart pumping and
blood circulation.

NUCLEUS
Cardiac muscle cell typically contains one
or two centrally-located nuclei.

Have a branched, striated appearance
and are interconnected by intercalated
discs

Long, multinucleated, and exhibit a striated
appearance
It is responsible for the control of the body and
With cells among the largest cells in the human the communication among its parts through
body, with some reaching several centimeters in electrical signals.
length.

They are under voluntary control and are It consist of neurons and supporting cells called
responsible for the voluntary movements of the neuroglia.
body, including actions like walking, running,
and lifting objects.

Connected to bones by tendons, which are Nervous cells and tissues are distributed
strong, fibrous connective tissues. throughout the human body to facilitate various
functions, including sensory perception, motor
Capable of rapid and forceful contractions, control, and regulation of bodily processes.
making them well-suited for activities that
require strength and speed.

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DENDRITES - branch-like structures that
receive messages from other neurons
and allow the transmission of messages MYELIN SHEATH serves as an insulating
to the cell body. and accelerating structure that
enhances the speed and efficiency of
nerve impulse transmission along
AXON is a tube-like structure that axons
carries electrical impulse from the cell
body to the axon terminals that pass
the impulse to another neuron. AXON TERMINALS - send messages
from one neuron to another or to a
muscle or gland by releasing chemical
CELL BODY - Contains Golgi body, messengers called neurotransmitters.
endoplasmic reticulum, mitochondria and
other components.

non-neuronal cells that provide support and non-neuronal cells that provide support and
protection to neurons. protection to neurons.

ASTROCYTES - support the structural MICROGLIA - immune cells
and metabolic needs of neurons.
that protect against
pathogens.
OLIGODENDROCYTES - form the myelin
sheath around axons in the central
GLIAL CELL nervous system. GLIAL CELL
EPENDYMAL CELLS - line the
SCWANN CELLS - which form the myelin fluid-filled cavities in the brain
sheath in the peripheral nervous and spinal cord.
system.

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