Introduction and Structure of Bacteria PDF

Summary

This document provides an introduction to and the structure of bacteria. It covers essential components like cell walls, membranes, and ribosomes, as well as accessory components found in some bacterial species. The document also includes sections on classification, shapes, and arrangements, as well as the role of bacteria.

Full Transcript

Introduction and
Structure of bacteria

Asst. prof. Dr. Wasan Abdul-elah Bakir
 Objective
1. Define of medical microbiology
2. Classification of Microorganisms
3. Microbes that Cause Infectious Diseases
4. Important Features of Microbes
5. Eukaryotes & Prokaryotes
6. Shape & Size of Bacteria
7. Structure of Bacteria
a. Cell wall
b. Cytoplasmic membrane
c. Cytoplasm
d. Structures outside the cell wall
e. Bacterial spore
Questions 2
 Microbiology
Medical microbiology is the study of the causative agents of infectious
diseases of humans and the reaction to such infections. In other words it
deals with pathogenesis, laboratory diagnosis, specific treatment and control
of infection (immunization).
Medical microbiology includes:
Bacteriology – The science that study bacteria,
the causative agents of a number of infectious
diseases.
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Virology – The science that study viruses, non-
cellular living systems, capable of causing
infectious diseases in human being.
Immunology – The science which concerned with
mechanisms of body protection against
pathogenic microorganisms and foreign cells and
substances.
Mycology – The science that deals with the study
of fungi.
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Parasitology – study of protozoa and parasitic
worms.
 Microbiology
Classification of Microorganisms:-
Classification by structure

Subcellular – DNA or RNA surrounded by a protein coat – viruses

Prokaryotic – simple cell structure with no nucleus or organelles –
bacteria

Eukaryotic – complex cell structure with nucleus and specialized
organelles – protozoa, fungi and worms.
 Bacteriology
What are bacteria?
Bacteria are prokaryote cells (unicellular organisms) that reproduce by
&
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binary fission whereas eukaryotes divide by mitosis.
T
They have:
1- No nucleus
2-No organelles (endoplasmic reticulum, mitochondria, Golgi apparatus,
lysosomes).
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They possess a cell wall which characteristically contains peptidoglycan.

They have different ribosomes from eukaryotic cells with
a sedimentation value 70S.

Bacteria vary in size from 0.3 µm, to 5 µm, it is visible with the light
microscope.

The smallest bacteria (Mycoplasma) are about the same size as the largest
viruses (poxviruses)
 Bacteriology
location i
Bacteria can be found in every where on the earth.
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They can live in variety of environment including
~
a wide range of temperature, PH, and salt
concentration.

Most bacteria are capable of independent survival
and growth, but species Chlamydia and Rickettsia
can only survive as intracellular organisms.

They can be beneficial or harmful by causing diseases.
&

C &
The bacteria in our bodies help degrade the food we eat, help make
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nutrients available to us and neutralize toxins.
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Also, they play an essential role in the defense against infections by
protecting colonized surfaces from invading pathogens
 Bacteriology

SHAPE AND SIZE OF BACTERIA
Bacteria are classified by shape into three basic
groups:
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cocci, bacilli, and spirochetes.
The cocci are round, the bacilli are rods, and the
spirochetes are spiral-shaped.
Some bacteria, called vibrio, are shaped like slightly
curved rods or comma-shaped
Some bacteria are variable in shape and are said to be
pleomorphic (many-shaped).
The shape of a bacterium is determined by its rigid
cell wall.
 Bacteriology
SHAPE AND SIZE OF BACTERIA
The arrangement of bacteria is important. For example, certain cocci occur in pairs
(diplococci), some in chains (streptococci), and others in grapelike clusters
(staphylococci).

among Cocci :
¨ Pairs………Diplococci
¨ Chains……streptococci
¨ Clusters…..Staphylococci
¨ In four……Tetrad
 Structure of Bacteria

*Essential components such as:

Cell wall
Cytoplasmic membrane
Ribosome
Nucleoid

*Accessory components (not every
bacteria has):

Capsule
havisecurePilus or fimbria, Flagella
Spores, Plasmid, Transposons
 Cell wall
Cell wall: is a layer located outside the cell membrane which is rigid, porous
and relatively permeable. Cell wall is the common component to all bacteria
(except Mycoplasma species and Halobacterium halobium, which are bounded by a
cell membrane, not a cell wall).

Importance of cell wall:

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1. Bacterial rigidity and shape
2. protection against osmotic changes
3. Porous to allow nutrients passage.
4. Take part in cell division
5. Has a target sites of antibiotics, lysozyme
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and bacteriophges.
-

o Structure differs in Gramlayer
It has peptidoglycan positive
made& of
negative bacteria.
long polysaccharide chains cross-linked
by peptide bridges.

o it provides rigidity and protection.
 Cell wall

The peptidoglycan layer in the bacterial
cell wall: is a structure formed from linear
chains of two alternating amino sugars,
namely N-
acetylglucosamine and N-
acetylmuramic acid.

The alternating sugars are connected by β-
(1,4)- glycosidic bond.
(this bond is the target of lysozyme).

Loss of cell wall leads to death (this can be affected by some antibiotics and by
lysozyme).

Note: Lysozyme is a natural body defense substance that cleaves the link between N-
acetylglucosamine and N-acetylmuramic acid, which leads to cell death. Found in
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bodily secretions such as tears, saliva, and milk.
skin-respiritory + carical tract
 Cell wall
Most bacteria are classified as gram positive or gram negative cording to their
response to the Gram-staining procedure.

In 1884, a bacteriologist named Christian Gram created a test (Gram's stain ) that
could determine if a bacterium had a thick, mesh-like membrane called
peptidoglycan.
Bacteria with thick peptidoglycan are called gram positive. If the peptidoglycan
layer is thin, it's classified as gram negative.
Gram's stain differentiates all bacteria into two distinct groups:
a. Gram-positive organisms
b. Gram-negative organisms
gram-positive bacteria purple in Colour while gram negative are red
 Cell wall
Why gram-positive bacteria purple in Colour while gram negative are
red?
During the procedure, crystal violet dye is applied to a sample of bacteria. Gram-positive
bacteria have a thick layer of peptidoglycan in their cell walls (50–90% of cell wall), which
retains the crystal violet and as a result are stained purple, whereas gram-negative bacteria
have a thinner layer (10% of cell wall), so do not retain the purple stain and are counter-stained
pink or red by safranin.
 Cell wall
*What is the difference between Gram positive and Gram negative cell
wall?
The gram-positive bacterial cell wall: thick layer of peptidoglycan, plasma membrane.

The gram-negative bacterial cell wall: Outer membrane “ made of lipopolysaccharide
and protein”, thin layer of peptidoglycan, plasma membrane. and have a periplasmic
space where β-lactamases are found. Beta-lactamases are enzymes (EC 3.5.2.6) produced by bacteria that
provide multi-resistance to beta-lactam antibiotics such as penicillins,
cephalosporins,.

The gram-positive cell wall: has a large amount of “teichoic acid” that binds to
peptidoglycan and “lipoteichoic acid” that binds to plasma membrane.

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 Cell wall

The outer membrane which is unique to gram negative bacteria.
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The outer membrane (which protects the bacteria) differs from the
cytoplasmic membrane in that it contains a special different lipid called
lipopolysaccharide (LPS).

o LPS is also known as endotoxin which is only found in gram negative
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bacteria.
It is responsible for many of the features of disease, such as fever and
shock (especially hypotension), caused by these organisms.
LPS is called endotoxin because it is an integral part of the cell wall, in
contrast to exotoxins
 Structure of Bacteria
Cytoplasmic membrane:
This elementary membrane, also known as the plasma membrane, semipermeable
membrane. It is basically a double
-
layer of phospholipids with numerous proteins
integrated into its structure.
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Components of plasma membrane:
lipid bilayer, integral and peripheral proteins, carbohydrates and cholesterol.

Functions:

1. active transport of molecules into
the cell

2. synthesis of precursors of the cell wall

3. Energy generation.

4. Secretion of toxins and enzymes 17
 Structure of Bacteria
Teichoic Acids:
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They are composed either glycerol phosphate or ribitol phosphate. bearing a
strong negative charge (Give negative charge to outer surface of Gram positive).
located in the outer layer of the gram-positive cell wall. They are strongly
antigenic, but are generally absent in Gram-negative bacteria.

Some of glycerol teichoic acid penetrate the
peptidoglycan layer and are covalently linked
to the lipid in the cytoplasmic membrane, in
which case they are called lipoteichoic acid
that are considered as bridges
connecting cell membrane to cell wall in
Gram positive bacteria. They are antigenic
other molecule that
and cytotoxic. toxin or
indue immune response
toxic to cen
living
 Structure of Bacteria
Teichoic Acids:

The medical importance of teichoic acid lies in their ability to:
1. Induce inflammation and septic shock when caused by certain Gram
positive bacteria.
2. Teichoic acid also mediate the attachment of staphylococci to mucosal cell.
COMPARISON OF CELL WALLS OF GRAM-POSITIVE
AND GRAM-NEGATIVE BACTERIA
 Structure of Bacteria
Periplasmic space:
Between the inner cell membrane and the outer membrane of gram-
negative bacteria lies the periplasmic space, which is the location of β-
lactamases—the enzymes that degrade β-lactam antibiotics, such as penicillins
and cephalosporins.
 Structure of Bacteria

Cytoplasm:

Is an aqueous environment.
The cytoplasm has two distinct areas
when seen in the electron microscope:

1. An amorphous matrix that contains
ribosomes, nutrient granules, metabolites,
and plasmids.

2. An inner, nucleoid region composed of
DNA.
 Structure of Bacteria

RIBOSOMES
Bacterial ribosomes are the site of protein synthesis as in eukaryotic cells.
Bacterial ribosomes are 70S in size, with 50S and 30S subunits, whereas
eukaryotic ribosomes are 80S in size, with 60S and 40S subunits.
The ribosomes are the target of some antibiotics.
 THE NUCLEOID

Area of cytoplasm where bacterial DNA is located. DNA features are:
The prokaryote Nucleoid ( the equivalent of the
eukaryotic Nucleus) consists of a very thin, long,
circular DNA molecular double strand that is
not surrounded by a membrane and localized in the
cytoplasm.

PLASMIDS
Some (not all) bacteria also have (an extra circular chromosomal DNA)
called PLASMIDS, they are important at the gene transfer.
 These are extra chromosomal circular DNA that are capable of replicating independent
of the bacterial chromosome.
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The plasmids mainly carry genes responsible for characteristics like fertility, antibiotic
B
resistance and production of bacteriocin (a protein that kills closely related bacteria).
+ &

Plasmids occur in both gram-positive and gram-negative bacteria.

and several different types of plasmids can exist in one
cell:
1- Transmissible plasmids can be transferred from cell to
cell by conjugation.
2- Non transmissible plasmids are small, since they do not
contain the transfer genes.
 Inclusion bodies (granules):

Are nuclear or cytoplasmic aggregates of proteins.
These granules function as: Food and energy storage
e.g. glycogen, starch and metachromatic granules are a
characteristic feature of Corynebacterium diphtheriae, the cause of
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diphtheria
 SURFACE APPENDAGES
Flagella:
a S

The long filament, which acts as a propeller, is
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composed of many subunits of a single protein,
flagellin.
They are responsible for motility.
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Typical arrangements of bacterial flagella

some bacteria have one, and others have many.
In some, the flagella are located at one end, and in
others, they are all over the outer surface.
Only certain bacteria have flagella. Many rods do,
but most cocci do not and are therefore non motile.

rod have
may
not
not have -
most coce
motive
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⑤
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&
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E. coli pseudomanas
 PILI (FIMBRIAE)
Is a hair-like structures of protein subunits called
pilin
arranged uniformly along the whole surface of the
bacterium
Using these structures, for attachment to host cell
receptors
Pili have two important roles:

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(1) Short, they mediate the attachment of bacteria to
specific receptors on the human cell surface, which is a
necessary step in the initiation of infection for some
organisms.
(2) Long, a specialized kind of pilus, the sex pilus, forms
the attachment between the male (donor) and the female
(recipient) bacteria during conjugation and thus for transfer
of plasmids
 CAPSULES AND LOOSE SLIME

The capsule is a gelatinous layer covering the entire bacterium. It is composed of
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polysaccharide, except in the anthrax bacillus, which has
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a capsule of
polymerized D-glutamic acid.

E s
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It is considered as a virulence factor
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Antiphagocytic
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and as an adherence factor.
Not all bacterial species can produce capsules,
Encapsulated species are found among both Gram-
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positive and Gram-negative bacteria.
Capsular polysaccharides are used as the antigens in
certain vaccines.
 LOOSE SLIME (GLYCOCALYX)

Polysaccharide coat similar to capsule but secreted
extracellularly, thinner and less rigid than
capsule.

Allows the bacteria to adhere firmly to various

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structures (e.g., skin, heart valves, prosthetic joints,
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catheters and surface of the teeth).

The finding that it is the glycocalyx-producing strains of:
1. Staphylococcus epidermidis and viridans streptococci that cause endocarditis.
2. The glycocalyx also mediates adherence of Streptococcus mutans, to the surface of
teeth. This plays an important role in the formation of plaque, the precursor of dental
caries.
 SPORES
o Some gram-positive bacteria but NEVER gram-negative ones produce spores
-G
under harsh conditions.
o Endospore “spores”: is a highly resistant phase, the organism can survive in a
~ & &
sig dormant state through a long period of dehydration, starvation and under harsh
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environmental conditions even if there aren’t any nutrition.

What are the stimuli for sporulation?
Starvation (when nutrients, such as sources of carbon and nitrogen, are depleted).
These highly resistant structures are formed by two genera of medically important
gram-positive
- rods:-
the genus Bacillus,
- which includes the
- agent of anthrax, and the
genus Clostridium, which includes the agents of tetanus and botulism.
-
 SPORES
What are the layers of an endospore?
& &
1- The central core: contains a single strand of DNA and high content of Calicium
dipicolinate.
2- The cortex layer: which contains a double layer of peptidoglycan, which is more
-

resistant.
3- The spore coat: contains special hard resistant protein.
4- The keratinized exosporium: contains keratinized resistible

Spores resistance due to many factors as:
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impermeability of their cortex and outer coat.
their high content of calcium and dipicolinic acid.
low content of water.
All these factors enable spores to remain viable for many
years in the dry state.
 SPORES
Spores stained by specific methods, appearance of
mature spores vary according to species being:
spherical ovoid or elongated, occupying a terminal, sub
terminal or central position and being narrower than the
cell or broader and bulging it.
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jo
They are highly heat resistant and are not killed by many disinfectants.

Germination: is the reactivation of spores and occurs under stimulation of
external condition that favors growth.
Water and nutrients: they are required for germination which leads to a
bacterium identical to the original one.
 REFERENCE
S
1. Reidle, S., Morse, S. A., Meitzner, T., and Miller, S. 2019. Jawetz, Melnick
& Adelberg’s Medical Microbiology , Twenty-Eight Edition. The McGraw-Hill
education, Inc. USA.

2. Review of Medical Microbiology & Immunology: A Guide to Clinical
Infectious Diseases, 16th edition 2020