FUNDAMENTAL UNIT OF LIFE CLASS99999 IX.ppt
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Aug 29, 2025
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About This Presentation
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Slide Content
THE FUNDAMENTAL UNIT OF LIFE:CELL
CLASS IX
CLASS IX
Cells
Smallest living unit
Most are microscopic
Smallest living unit
Most are microscopic
Discovery of Cells
Robert Hooke (1665)
Observed sliver of cork
Saw “row of empty boxes”
Coined the term cell
Robert Hooke (1665)
Observed sliver of cork
Saw “row of empty boxes”
Coined the term cell
Cell theory
(1839)Theodor Schwann & Matthias Schleiden
“ all living things are made of cells”
(1855) Rudolf Virchow
“Omnis cellula e cellula ” all cells arise from pre-
existing cells
(1839)Theodor Schwann & Matthias Schleiden
“ all living things are made of cells”
(1855) Rudolf Virchow
“Omnis cellula e cellula ” all cells arise from pre-
existing cells
Principles of Cell Theory
All living things are made of cells
Smallest living unit of structure and function
of all organisms is the cell
All cells arise from preexisting cells
(this principle discarded the idea of
spontaneous generation)
All living things are made of cells
Smallest living unit of structure and function
of all organisms is the cell
All cells arise from preexisting cells
(this principle discarded the idea of
spontaneous generation)
Cell Size
Cells Have Large Surface
Area-to-Volume Ratio
Area-to-Volume Ratio
Characteristics of All Cells
A surrounding membrane
Protoplasm – cell contents in thick fluid
Organelles – structures for cell function
Control center with DNA
A surrounding membrane
Protoplasm – cell contents in thick fluid
Organelles – structures for cell function
Control center with DNA
Cell Types
Prokaryotic
Eukaryotic
Prokaryotic
Eukaryotic
Prokaryotic Cells
First cell type on earth
Cell type of Bacteria and Archaea
First cell type on earth
Cell type of Bacteria and Archaea
Prokaryotic Cells
No membrane bound nucleus
Nucleoid = region of DNA concentration
Organelles not bound by membranes
No membrane bound nucleus
Nucleoid = region of DNA concentration
Organelles not bound by membranes
Eukaryotic Cells
Nucleus bound by membrane
Include fungi, protists, plant, and
animal cells
Possess many organelles
Protozoan
Nucleus bound by membrane
Include fungi, protists, plant, and
animal cells
Possess many organelles
Protozoan
THE UNIVERSE INSIDE OUR CELLS
Zoom into your own body to see the
different cells that make up your
heart, brain and bones.
These trillions building block of cells
are communicating with each other
every moment of our lives.
As the house is made by BRICKS.
Zoom into your own body to see the
different cells that make up your
heart, brain and bones.
These trillions building block of cells
are communicating with each other
every moment of our lives.
As the house is made by BRICKS.
ANIMAL CELL
PLANT CELL
CELL ORGANELLES
The cellular components are called the Cell
Organelles.
These cell organelles are membrane-bound, present
within the cells and are distinct in their structures
and functions.
They coordinate with their functions efficiently for
the normal functioning of the cell.
There are various organelles present within the cell
and are classified into three categories based on
the presence or absence of membrane.
The cellular components are called the Cell
Organelles.
These cell organelles are membrane-bound, present
within the cells and are distinct in their structures
and functions.
They coordinate with their functions efficiently for
the normal functioning of the cell.
There are various organelles present within the cell
and are classified into three categories based on
the presence or absence of membrane.
TYPES OF CELL ORGANELLES
Organelles without membrane: The Cell wall,
Ribosomes, Centrosome and Cytoskeleton are without
membrane-bound cell organelles.
Single membrane-bound organelles: Vacuole,
Lysosome, Golgi Apparatus, Endoplasmic Reticulum are
single membrane-bound organelles present only in a
eukaryotic cell.
Double membrane-bound organelles: Mitochondria
and chloroplast are double membrane-bound
organelles present only in a eukaryotic cell.
Organelles without membrane: The Cell wall,
Ribosomes, Centrosome and Cytoskeleton are without
membrane-bound cell organelles.
Single membrane-bound organelles: Vacuole,
Lysosome, Golgi Apparatus, Endoplasmic Reticulum are
single membrane-bound organelles present only in a
eukaryotic cell.
Double membrane-bound organelles: Mitochondria
and chloroplast are double membrane-bound
organelles present only in a eukaryotic cell.
CELL ORGANELLES
Movement Across the Plasma Membrane
A few molecules move freely
Water, Carbon dioxide, Ammonia, Oxygen
Carrier proteins transport some molecules
Proteins embedded in lipid bilayer
Fluid mosaic model – describes fluid nature of a lipid
bilayer with proteins
A few molecules move freely
Water, Carbon dioxide, Ammonia, Oxygen
Carrier proteins transport some molecules
Proteins embedded in lipid bilayer
Fluid mosaic model – describes fluid nature of a lipid
bilayer with proteins
Membrane Proteins
1. Channels or transporters
Move molecules in one direction
2. Receptors
Recognize certain chemicals
1. Channels or transporters
Move molecules in one direction
2. Receptors
Recognize certain chemicals
Membrane Proteins
3. Glycoproteins
Identify cell type
4. Enzymes
Catalyze production of substances
3. Glycoproteins
Identify cell type
4. Enzymes
Catalyze production of substances
CELL MEMBRANE FUNCTION
Passive Transport
Active Transport
Endocytosis
(phagocytosis & pinocytosis)
Exocytosis
Passive Transport
Active Transport
Endocytosis
(phagocytosis & pinocytosis)
Exocytosis
Passive Transport
No energy required
Move due to gradient
differences in concentration, pressure, charge
Move to equalize gradient
High moves toward low
No energy required
Move due to gradient
differences in concentration, pressure, charge
Move to equalize gradient
High moves toward low
Types of Passive Transport
1. Diffusion
2. Osmosis
3. Facilitated diffusion
1. Diffusion
2. Osmosis
3. Facilitated diffusion
Diffusion
Molecules move to equalize concentration
Molecules move to equalize concentration
Osmosis
Special form of diffusion
Fluid flows from lower solute concentration
Often involves movement of water
Into cell
Out of cell
Special form of diffusion
Fluid flows from lower solute concentration
Often involves movement of water
Into cell
Out of cell
Solution Differences & Cells
solvent + solute = solution
Hypotonic
Solutes in cell more than outside
Outside solvent will flow into cell And
cell will swell
Isotonic
Solutes equal inside & out of cell no
transport
Hypertonic
Solutes greater outside cell
Fluid will flow out and shrink
solvent + solute = solution
Hypotonic
Solutes in cell more than outside
Outside solvent will flow into cell And
cell will swell
Isotonic
Solutes equal inside & out of cell no
transport
Hypertonic
Solutes greater outside cell
Fluid will flow out and shrink
Facilitated Diffusion
Differentially permeable membrane
Channels (are specific) help molecule or ions
enter or leave the cell
Channels usually are transport proteins
(aquaporins facilitate the movement of water)
No energy is used
Differentially permeable membrane
Channels (are specific) help molecule or ions
enter or leave the cell
Channels usually are transport proteins
(aquaporins facilitate the movement of water)
No energy is used
Process of Facilitated Transport
Protein binds with molecule
Shape of protein changes
Molecule moves across membrane
Protein binds with molecule
Shape of protein changes
Molecule moves across membrane
Active Transport
Molecular movement
Requires energy (against gradient)
Example is sodium-potassium pump
Molecular movement
Requires energy (against gradient)
Example is sodium-potassium pump
Endocytosis
Movement of large material
Particles
Organisms
Large molecules
Movement is into cells
Types of endocytosis
bulk-phase (nonspecific)
receptor-mediated (specific)
Movement of large material
Particles
Organisms
Large molecules
Movement is into cells
Types of endocytosis
bulk-phase (nonspecific)
receptor-mediated (specific)
Process of Endocytosis
Plasma membrane surrounds material
Edges of membrane meet
Membranes fuse to form vesicle
Plasma membrane surrounds material
Edges of membrane meet
Membranes fuse to form vesicle
Forms of Endocytosis
Phagocytosis – cell eating
Pinocytosis – cell drinking
Phagocytosis – cell eating
Pinocytosis – cell drinking
Exocytosis
Reverse of endocytosis
Cell discharges material
Reverse of endocytosis
Cell discharges material
Exocytosis
Vesicle moves to cell surface
Membrane of vesicle fuses
Materials expelled
Vesicle moves to cell surface
Membrane of vesicle fuses
Materials expelled
Cell Walls
Found in plants, fungi, & many protists
Surrounds plasma membrane
Found in plants, fungi, & many protists
Surrounds plasma membrane
Cell Wall Differences
Plants – mostly cellulose
Fungi – contain chitin
Bactria- Peptidoglycon or Murin
Plants – mostly cellulose
Fungi – contain chitin
Bactria- Peptidoglycon or Murin
Cytoplasm
Viscous fluid containing organelles
components of cytoplasm
Interconnected filaments & fibers
Fluid = cytosol
Organelles (not nucleus)
storage substances
Viscous fluid containing organelles
components of cytoplasm
Interconnected filaments & fibers
Fluid = cytosol
Organelles (not nucleus)
storage substances
Centrioles
Pairs of microtubular structures
Play a role in cell division
Pairs of microtubular structures
Play a role in cell division
DNA
Hereditary material
Chromosomes
DNA
Protiens
Form for cell division
Chromatin
Hereditary material
Chromosomes
DNA
Protiens
Form for cell division
Chromatin
Nucleolus
Most cells have 2 or more
Directs synthesis of RNA
Forms ribosomes
Most cells have 2 or more
Directs synthesis of RNA
Forms ribosomes
Endoplasmic Reticulum
Helps move substances within cells
Network of interconnected membranes
Two types
Rough endoplasmic reticulum
Smooth endoplasmic reticulum
Helps move substances within cells
Network of interconnected membranes
Two types
Rough endoplasmic reticulum
Smooth endoplasmic reticulum
Rough Endoplasmic Reticulum
Ribosomes attached to surface
Manufacture protiens
Not all ribosomes attached to rough ER
May modify proteins from ribosomes
Ribosomes attached to surface
Manufacture protiens
Not all ribosomes attached to rough ER
May modify proteins from ribosomes
Smooth Endoplasmic Reticulum
No attached ribosome
Has enzymes that help build molecules
Carbohydrates
Lipids
No attached ribosome
Has enzymes that help build molecules
Carbohydrates
Lipids
Golgi Apparatus
Involved in synthesis of plant cell wall
Packaging & shipping station of cell
Involved in synthesis of plant cell wall
Packaging & shipping station of cell
Golgi Apparatus Function
1. Molecules come in vesicles
2. Vesicles fuse with Golgi membrane
3. Molecules may be modified by Golgi
1. Molecules come in vesicles
2. Vesicles fuse with Golgi membrane
3. Molecules may be modified by Golgi
Golgi Apparatus Function (Continued)
4. Molecules pinched-off in separate vesicle
5. Vesicle leaves Golgi apparatus
6. Vesicles may combine with plasma membrane to
secrete contents
4. Molecules pinched-off in separate vesicle
5. Vesicle leaves Golgi apparatus
6. Vesicles may combine with plasma membrane to
secrete contents
Lysosomes
Contain digestive enzymes
Functions
Aid in cell renewal
Break down old cell parts
Digests invaders
Contain digestive enzymes
Functions
Aid in cell renewal
Break down old cell parts
Digests invaders
CELL ORGANELLES
1 NUCLEUS
2 GOLGI BODY
3 PLASMA MEMBRANE
4 CYTOPLASM
5 ENDOPLASMIC RETICULUM
6 MITOCHONDRIA
7 LYSOSOME
8 VACUOLES
9 RIBOSOMES
10 MICROBODIES
(a)PEROXIXOMES
(b)GLYOXYSOME
DISCOVERY
1 ROBERT BROWN(1831)
2 CAMEILLIO GOLGI
3 SCHWANN(1838)
4 STRASBURGER(1882)
5 PORTER(1943)AND NAMED
IN(1953)
6 ALTAMAN(1894)AND NAMED
BY BENDA(1897)
7 de DUVE(1955)
8 SPALLANZONI
9 ROBINSON AND BROWN (1953)
IN PLANT CELL AND
PALADE(1955) IN ANIMAL CELL
10 RHODIN(1954)
(a)de DUVE(1965)
(b)BRIEDENBACH(1967)
1 NUCLEUS
2 GOLGI BODY
3 PLASMA MEMBRANE
4 CYTOPLASM
5 ENDOPLASMIC RETICULUM
6 MITOCHONDRIA
7 LYSOSOME
8 VACUOLES
9 RIBOSOMES
10 MICROBODIES
(a)PEROXIXOMES
(b)GLYOXYSOME
DISCOVERY
1 ROBERT BROWN(1831)
2 CAMEILLIO GOLGI
3 SCHWANN(1838)
4 STRASBURGER(1882)
5 PORTER(1943)AND NAMED
IN(1953)
6 ALTAMAN(1894)AND NAMED
BY BENDA(1897)
7 de DUVE(1955)
8 SPALLANZONI
9 ROBINSON AND BROWN (1953)
IN PLANT CELL AND
PALADE(1955) IN ANIMAL CELL
10 RHODIN(1954)
(a)de DUVE(1965)
(b)BRIEDENBACH(1967)
End Chapter
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