Week_1-2__Cell_biology 2.pdf

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Cell Biology
CELL STRUCTURE AND
FUNCTION

Slides prepared by Prof. Dr. Mekky Abouzied
Professor of Biochemistry and Molecular biology
 Outline

By the end of this session, the students
1. Introduction will be able to:

1. Define cell, cell theory, and organelle
2. History of cell
2. List differences between eukaryotic and
prokaryotic cell
3. Cell theory 3. Demonstrate plant and animal cell
4. Describe plant cell wall and cell membrane
5. Describe the movement of substance across
4. Cell types the cell membrane
6. Identify and describe the major cell
organelles
5. Cell organelles 7. Define cytoskeleton
 1. Introduction

❖Cell biology: It is a branch of biological science which
deals with the study of structure, function, molecular
organization, growth, reproduction and genetics of the
cells.

❖ Cell biology is mainly concerned with the study of the
structure and function of specialized cells.
Cell What is cell?

CELL is the basic unit of life

It performs all life functions like:

Nutrition, Excretion, Metabolism, Respiration, etc.

in latin “cella” means a "Small room“
It is The basic structural, functional, and biological unit of all known
living organisms
Often called the "building blocks of life"
 2. History of cell

‫لإلطالع‬
 Robert Hooke
̶ Observed sliver of cork
̶ Saw “row of empty boxes”
̶ Coined the term “Cell”

‫لإلطالع‬
 Cell Size

‫لإلطالع‬
 Examples of Cells

Amoeba Proteus

Plant Stem

Bacteria

Red Blood Cell

Nerve Cell
Cell shape A cell’s shape reflects its function

Bacteria cell

Red blood cell

Plant cell
 3. Cell theory
The theory states that:

1. All living organisms are made up of cell and their products.
2. Cell is the structural and functional unit of the organism.
3. New cells are formed by division of pre-existing cells.
(this principle discarded the idea of spontaneous generation)

( Viruses are an exception to cell theory.)
 Properties of a Cell

Cells are
Highly complex and organized
Possess a genetic program and the means to use it
Capable of producing more of themselves
Acquire and utilize energy
Carry out a variety of chemical reactions
Able to respond to stimuli
Capable of self-regulation
 Organisms

Organisms which are made The organisms which are made
up of a single cell are called up of a number of cells are called
Unicellular organisms. Multicellular Organisms.
Examples are Amoeba, Examples are Fungi, plants,
bacteria, etc animals.
 Unicellular Organisms Multicellular Organisms

Organism is represented by a single cell. A large number of cells are present.

A single cell performs all the functions. Different tissues perform various
functions of the in the body.

They reproduce by asexual methods. Some specialized cells take part in
reproduction.

nutrients enter and leave the cell by Each cells perform special functions.
diffusion.

The life span of the individual is short. Life span is long.
 4. Cell types

Cell
Prokaryotic cell
e.g Bacteria

Eukaryotic cell
Plant cell
Animal cell
 Prokaryotic cell vs. Eukaryotic cell
Prokaryote Cell Eukaryote Cell
Size small Large
Number of cells Unicellular Multicellular

Membrane Has single membrane and cell Membrane bilayer
wall
Nucleus No nucleus. well defined nucleus
Cell division by fission By mitosis.

DNA Circular DNA Linear DNA.
Histone proteins No Histones. Histones found
Organelles No organelles Membrane bound
Organelles.
Ribosomes free in cytoplasm. on ER surface
50S +30S {70S} 60S+40S {80S}
Cytoskeleton Absent, has flagella Present. Ex- fungi,
Ex- bacteria, rickettsia plants, animals
Animal cell v/s plant cell
 Eukaryotic cell A) Animal cell

ENDOPLASMIC RETICULUM (ER)
Nuclear
Rough Smooth envelope
Flagellum ER ER Nucleolus NUCLEUS
Chromatin
Centrosome
Plasma
membrane
CYTOSKELETON:
Microfilaments
Intermediate filaments
Microtubules
Ribosomes

Microvilli
Golgi apparatus
Peroxisome
Mitochondrion Lysosome
Eukaryotic cells: B) Plant cell
5. Cell organelles
A cell is composed of cytoplasm and various structures or cell
organelles like cell wall, cell membrane (plasma lemma),
endoplasmic reticulum, ribosomes, golgi bodies, lysosomes,
spherosomes, chloroplasts, mitochondria, centriole and nucleus.

Cell Organelles: are sub-cellular, microscopic structures which
have characteristic form and function where certain life processes
take place.
They are bounded by a membrane to keep their contents separate
from the external environment. Based On their membranes, there
are three types,
I. double membraned (Nucleus)
II. single membraned (Peroxisomes),
III. and no membrane (Ribosomes).
 Cell wall
A nonliving and rigid coat which forms a Protective
layer that surrounds the plasma membrane in
plant cells
Functions :
❖Provide plants with a definite shape, mechanical
support and strength.
❖Plant cell wall consist primarily of cellulose

plasma membrane
❖Boundary of the cell.
❖Made of a phospholipid bilayer, with protein molecules
scattered all over.
❖Functions :
1. it is a selectively permeable membrane, allowing
the entry and exit of selected materials into the
cell.
2. It protects the cells from injury
 MOVEMENT ACROSS CELL MEMBRANES

Few molecules move freely across plasma membrane whereas
others find it difficult. Molecules like those below move freely

Water (H20)
Carbon dioxide (CO2)
Ammonia (NH3)
Oxygen (O2)

There are two major ways in which substances can
enter or leave a cell:
1.passive transport
2.active transport
1. Passive Transport
❖ Simple Diffusion
❖ Facilitated Diffusion
❖ Osmosis (water only)

2. Active Transport
❖ Molecules
❖ Particles

3. Endocytosis
( Phagocytosis & Pinocytosis)
4. Exocytosis
 Passive Transport
No energy required
Movement From High concentration to low concentration

Simple Diffusion: Facilitated Diffusion:
no carrier via specific carrier protein
It continues until the concentration of Selection depends on size, shape, charge
substances is uniform throughout Channels (are specific) help molecule or
EXAMPLES OF MAJOR DIFFUSION ions enter or leave the cell
IN BIOLOGY Channels usually are transport proteins
Gas exchange at the alveoli (Aquaporin facilitate the movement of
Gas exchange for photosynthesis water)
Gas exchange for respiration
 Osmosis:

It’s the movement of water molecule
from lower solute concentration to
higher solute concentration through a
selective permeable membrane

Special form of diffusion
Fluid flows from lower solute
concentration to higher
Requires selective permeable
membrane

‫الصورة لإلطالع‬
 Active Transport
Molecular movement requires energy (against concentration gradient)
Eg: Sodium-potassium pump

A uniporter carries one molecule or ion.
A symporter carries two different molecules or ions, both in the same direction.
An antiporter also carries two different molecules or ions, but in different directions
An electrochemical gradient (Na+ concentration - green), is generated by primary active transport.
The energy stored in the Na+ gradient provides the energy to move other substances against their
concentration gradients (Glucose - blue), a process called co-transport or secondary active transport

‫لإلطالع‬
 Endocytosis &Exocytosis

Endocytosis
Movement of large
Exocytosis
material Particles, Reverse of endocytosis
organisms ,large Cell discharges material
molecules From outside
into inside the cell.
 Forms of Endocytosis

Phagocytosis – “cell eating”
Pinocytosis – “cell drinking”
Receptor- mediated endocytosis

‫الصورة لإلطالع‬
 Cytoplasm
❖Everything in a cell except the nucleus is cytoplasm.
❖ Clear, gelly-like, watery substance surrounding the organelles.
❖ Composition: Water (90%), Organic and inorganic compounds (10%)
❖Function
✓Maintains the shape and consistency of the cell.
✓ Allows for chemical reactions necessary in metabolism.
✓Site for many metabolic pathways. Ex: Glycolysis, Protein synthesis , fatty
acid synthesis, purine synthesis.
✓Functional components within cytoplasm
❖ Mitochondria (animal cells) /Chloroplast (plant cells)
❖ Nucleus
❖ Ribosomes
❖ Endoplasmic reticulum
❖ Golgi Apparatus
❖ Lysosomes
❖ Vacuole
❖ Microbodies
 Mitochondria
Chloroplast

Release & store energy

Types: Mitochondria (release energy) Chloroplasts (store energy)
 Mitochondria

1. Mitochondria are found in most aerobic
eukaryotic cells and produce ATP.
2. Mitochondria are semi-autonomous, containing
their own ribosomes and DNA for protein synthesis.
Function of Mitochondria
✓ Sites where aerobic part of respiration called
Kreb's Cycle is performed.
✓ Provide energy for vital activities of living
cells.
✓ Provide intermediates for synthesis of
various chemicals like fatty acids, steroids,
amino acids, etc.
 Nucleus:

Control center of cell
Large & Spherical in shape
Most prominent cell organelle (Double membrane).
Home for chromosome
Function
❖ DNA replication and RNA transcription of DNA occur in the nucleus.
❖ It contains a nucleolus inside, which is responsible for RNA processing
 Ribosomes: Protein Factories
The ribosome is a large complex of RNA and protein
molecules.
Ribosomes can be found either floating freely or bound to
rough endoplasmatic reticulum in eukaryotes,

Have two subunits (large & small)
70s: 50s + 30s, 80s: 60s + 40s

‫الصورة لإلطالع‬
 Endoplasmic reticulum
❖E.R (endo means inside + cytoplasmic) reticulum means network network
of membranes inside the cytoplasm)
❖Interconnected network of tubules and vesicles extended throughout
cytoplasm.

Two types of ER
Rough ER - studded with ribosomes
❖Site of proteins synthesis

Smooth ER –
❖site for synthesis of steroids and other lipids, Ca++ storage in muscles
❖Detoxification of drugs, toxins, alcohol (especially in liver)
❖Site of Glycogen metabolism.
 Golgi complex/Apparatus
POST OFFICE OF CELL
Cluster of membrane vesicles
Appears like : Stacks of flattened sacs
Function:
Receive and modify the proteins made by rough ER
protein packaging, modification & secretion
glycosylation and sulfation of protein
moving proteins within the cell
Vesicle fuses with plasma membrane
protein is released by exocytosis
E.g. pancreatic enzymes & insulin

“ sorting sites”
‫الصورة لإلطالع‬
 Lysosomes (Suicidal bags)

Spherical vesicles with a single membrane. filled with digestive
enzymes - used for intracellular digestion.
It contains Hydrolytic enzymes ( glucosidase, cathepsin, lipase,
ribonuclease
It has an Acidic pH 4.6-5
Function
They are responsible for decomposing cellular waste products.
Digest food [used to make energy]
Clean up & recycle [digest broken organelles] Garbage disposal.
Breakdown bacteria entering cell, worn out organelles,
intracellular digestion.
‫الصورة لإلطالع‬
 Peroxisomes
Spherical or oval in shape
Contain TWO enzymes
catalase
peroxidase
Function
Protects the cell from free radicals and antioxidant.

Vacuole
❖Membrane bound sac
❖ Contains liquids or solids
❖ Larger than vesicles
Function
Storage container for water, food, enzymes, wastes,
pigments, etc.
 Cytoskeleton

❖ A network of protein filaments that extends throughout the
cytoplasm.
❖There are Three types of filamentous proteins -
1. Microtubules
2. Intermediate filaments
3. Microfilaments
❖Functions: Role in
cell morphology,
intracellular transport,
cell motility,
cell division
 ‫‪Structure‬‬
‫‪.‬‬

‫الصورة لإلطالع‬
 FACTS RELATED TO CELL
✓ The Smallest organelle: RIBOSOME
✓ The Largest organelle: PLASTID(plant)
MITOCHONDRIA (animal)
✓ The Largest cell structure: NUCLEUS
✓ VIRUSES are neither prokaryotic nor eukaryotic.
✓ MITOCHONDRIA and PLASTIDS can replicate
themselves.
Organelles – “factory components with
function”
Support: Cell wall , cell membrane, cytoskeleton, microtubules
Controls material entering and leaving: Cell membrane, pores
Internal transport system: Endoplasmic reticulum
Powerhouse: mitochondria
Control center: nucleus, organelle DNA for mitochondria and chloroplast
Production of key products: ribosomes, endoplastic reticulum, chloroplasts
Packaging center for shipment of products: Golgi Apparatus, ER
Shipment of materials out of cell: Golgi Apparatus, vesicles
Storage of liquids and solids: Vacuole, vesicles, plastids,
Recycling center: Lysosomes and perixosomes
Convert light energy to chemical energy: chloroplasts
Allows new cell factories to be produced: nuclear DNA, centrioles, cell wall
Thank you