Introduction

What is Microbiology

Microbiology :
Is The branch of biology that deals with microorganisms and their effects on other living organisms.
Microorganisms are those organisms that are too small to see with the naked eye and include things like bacteria, fungi, and viruses. protozoa.

Microbiology is Greek word mikros mean small; bios mean life

• Current classification of all forms of life based on the genetic relatedness into 3 domains :
• Archea
• ,Bacteria
• Eucarya
• Archea and Bacteria called Prokaryotes
• Eukaryotes (Fugi , protista ,animal, plant and human)

Viruses

are not included in this classification as they are unique , metabolically inert organisms and therefore replicate only within living cells.


• Cell component
Prokaryotes
Eukaryotes
Nucleus
no membrane, single circular chromosome
membrane bound, a number of individual chromosomes.
Extra-chromosomal DNA
present in form of plasmid
Present as mitochondrial DNA
Organelles in cytoplasm
Non
Mitochondria and chloroplast in photosynthetic organisms
Cytoplasmic membrane
Contain enzyme of respiration, sit of phospholipids and DNA synthesis
Semi-permeable layer not possessing function
Cell wall
Rigid layer of peptidoglycan
No peptidoglycan
Sterols
Absent
Present
Ribosome
70 S in cytoplasm
80 S in cytoplasmic reticulum


• Basis of Classification
Phenotypic classification
• Morphological
• Anatomical
• Staining
• Cultural characteristics
• Nutrition
• Environmental factors
• Biochemical reactions
• Antigenic structure
Genotypic classification
• DNA-DNA hybridization
• G+C content

Bacteria can be classified into six major groups on morphological basis.

1. TRUE BACTERIA
Cocci – These are spherical or oval cells. On the basis of arrangement of individual organisms they can be described as
Monococci (Cocci in singles) – Monococcus spp.
Diplococci (Cocci in pairs) – Streptococcus pneumoniae

Staphylococci (Cocci in grape-like clusters) – Staphylococcus aureus

Streptococci (Cocci in chains) – Streptococcus pyogenes
Tetrad (Cocci in group of four) - Micrococcus spp.
Sarcina (Cocci in group of eight)


Morphological classification

Streptococcus

• Staphylococcus

tetrad

• Morphological classification

Bacilli – These are rod-shaped bacteria. On the basis of arrangement of organisms, they can be described as
Diplobacilli
Streptobacilli
Chinese-letter form
Coccobacilli
Comma-shaped

bacilli

•

Coryneform bacteria

bifidobacterium

vibrio cholerae

Morphological classification

2. ACTINOMYCETES (actin- ray, mykes-fungus)
These are rigid organisms like true bacteria but they resemble fungi in that they exhibit branching and tend to form filaments.
They are termed such because of their resemblance to sun rays when seen in tissue sections.

Morphological classification

3. Spirochaetes
These are relatively longer, slender, non-branched microorganisms of spiral shape having several coils.

4. Mycoplasmas

These bacteria lack in rigid cell wall (cell wall lacking) and are highly pleomorphic and of indefinite shape.
They occur in round or oval bodies and in interlacing filaments.

5. Rickettsiae and Chlamydiae

These are very small, obligate parasites, and at one time were considered closely related to the viruses. Now, these are regarded as bacteria.


Morphological classification

Capsule

Capsulate– Streptococcus pneumoniae
Non-capsulate – Viridans streptococci
Flagella
Flagellate –
Monotrichous
Lophotrichous
Amphitrichous
Peritrichous
Aflagellate – Shigella spp.
Spore
Spore-forming – Bacillus spp.
Non-sporing – Escherichia coli

Based on Staining reaction

GRAM’S STAIN
Gram-positive cocci – Staphylococcus aureus
Gram-negative cocci – Neisseria gonorrhoeae
Gram-positive rods – Clostridium spp.
Gram-negative rods – E. coli


ACID FAST STAIN
Acid-fast bacilli –Mycobacterium tuberculosis
Non-acid-fast bacilli – Staphylococcus aureus

Extra growth factors requirements

Fastidious – Hemophilus influenzae
Non-fastidious – Escherichia coli

Hemolysis on Sheep Blood Agar

Alpha-hemolysis – Streptococcus pneumoniae
Beta-hemolysis – Streptococcus pyogenes

Utilization of carbohydrates

Oxidative - Micrococcus
Fermentative – Escherichia coli

Based on Cultural characteristics

Growth rate
Rapid growers– Vibrio cholerae
Slow growers – Mycobacterium tuberculosis


Pigment production
Pigment producer – Staphylococcus aureus
Pigment non-producer – Escherichia coli

Based on Cultural characteristics

Based on Nutrition
Autotrophs
Heterotrophs

Temperature

Oxygen dependence
pH
Salt concentration
Atmospheric pressure

Based on environmental factors

Based on environmental factors
• Temperature
• Ph
• Oxygen dependence
• Salt concentration
2-


Other ways of classification
Motile/Non-motile
Pathogenic/Non-pathogenic
Sensitive/Resistant (to particular antibiotic/ chemicals)
Lactose fermenter/Lactose non-fermenter
Bergey’s Manual of Determinative Bacteriology
Gram-negative eubacteria that have cell walls
Gram-positive eubacteria that have cell walls
Cell wall-less eubacteria: Mycoplasma
Archaeobacteria

Structure

Structures external to the cell wall
Flagellum:-
is the organelle of locomotion in the bacteria. It is a fine hollow tube of a helically wound protein called flagellin.
Flagella may be borne in several configuations

Flagella may be

A- located at one end Monotrichous
B- Tufts of flagella at one or both sides Lophotrichous
C- Located at the polar ends Amphitrichous


D- All over the outer surface Peritrichous

Fimbriae and pili

1-are fine, hair-like filaments, shorter than flagella, that extend from the cell surface.

2- Pili found mainly on Gram-negative organisms

3- Composed of subunits protein, pilin.

4- mediate the adhesion of bacteria to receptors on the human cell surface – a necessary first step in the initiation of infection.
.

A specialized type of pilus,

the sex pilus, forms the attachment between the male (donor) and the female (recipient) bacteria during conjugation, when genes are transferred from one bacterium to another.

THE STRUCTURES EXTERNAL TO THE CELL WALL

AXIAL FILAMENTS
Anchored at one end of the spirochete.
Have a structure similar to flagella.
Filament rotation produces a movement of the outer sheath. Propels the bacteria in a spiral motion (corkscrew motion).
E.g. Treponema pallidum – syphilis

Glycocalyx (slime layer)

1- is a polysaccharide

2-coating that covers the outer surfaces of many bacteria

3-allows the bacteria to adhere firmly to various structures, e.g. oral mucosa, teeth, heart valves and catheters.

4-contribute to the formation of bioflms.

This is especially true in the case of Streptococcus mutans


Capsule
1-An amorphous, gelatinous layer (usually more substantial than the glycocalyx) surrounds the entire bacterium.
2- it is composed of polysaccharide, and sometimes protein (e.g.anthrax bacillus).

The capsule is important

• It mediates the adhesion of bacteria to human tissues or prosthesis such as dentures or implants prerequisite
colonization and infection.

It hinders or inhibits phagocytosis; hence, the presence of a capsule correlates with virulence.

The capsule is important

It helps in laboratory identifcation of organisms (in the presence of antiserum against the capsular polysaccharide the capsule will swell greatly – a phenomenon called the quelling reaction).

Its polysaccharides are used as antigens in certain vaccines because they elicit protective antibodies (e.g. polysaccharide vaccine of S. pneumoniae

THE CELL WALL

Cell wall – a complex, semirigid structure
Protects cell from adverse changes in the outside environment.
Almost all prokaryotes have cell walls.
Major function is to prevent bacterial cells from rupturing.
Maintain the shape of the bacterium.
Serve as point of anchorage for flagella.


THE CELL WALL
Contributes to Pathogenecity
Site of action of some antibiotics.
Cell wall composition used to differentiate major types of bacteria.

Cell Wall In Gram positive bacteria

Peptidoglycan layer forms 50% of cell wall material.
Peptidoglycan is responsible for cell wall rigidity.
Peptidoglycan is formed of N-acetyl glucosamine and N-acetyl muramic acid.
Attached to each muramic acid molecule is a tetra peptide.
Then the tetra peptide chains are cross-linked together by identical inter bridge peptide (penta Glycine inter bridge.

In addition to peptidoglycan, there is

teichoic acid which:
is highly immunogenic adheres the bacteria to mucosal surfaces.
Lipoteichoic acid links peptidoglycan layer to the cell membrane.

Gram-negative organisms

Inner peptidoglycan layer forms only 5-10% of the cell wall material.
Outer membrane layer formed of Lipopolysaccharides: T he lipid portion (lipid A) is called endotoxin. It is released when the bacterial cells are lysed. It is highly toxic.

The polysaccharide portion is called somatic or O antigen. It is highly immunogenic.

The space between the inner and outer layers is called periplasmic space which contains beta lactamase enzyme that degrades beta lactam antibiotics.

Lipoprotein molecules cross-link the peptidoglycan layer and the outer membrane

Grame Negative Cell

Gram Positive Cell
3 Layers
1-Inner cytoplasmic membrane
2- Thin peptidoglycan layer (5-10%)
3-Outer membrane with Lipopolysaccharide(LPS)
2 Layers
1-Inner cytoplasmic membrane
2-Outer thick peptidoglycan layer (60-100%)
High lipid content
Low lipid content
Endotoxine(LPS). Lipid A
No endotoxine (except Listeria monocytogenes)
periplasmic space
No periplasmic space
porin channel
No porin channel
Resist to Lysozyme and penicillin attack
Susceptible to Lysozyme and penicillin attack


In acid fast bacteria
1- These bacteria contain high concentration of mycolic acid and wax in their cell wall.

These bacteria are not stained by Gram stain but stained by Ziehl- Neelsen stain.

Example: Mycobacterium tuberculosis.

Bacteria with defective cell walls

Mycoplasma spp
Lacks cell wall.
Pleomorphic in shape.
Not affected by penicillin.
Not stained by Gram stain.
The only bacteria that contains sterol in its cell membrane.

Protoplast , Spheroplast, L-Form

When bacterial cell wall is lost under the effect of certain conditions like penicillin:
Gram positive bacteria form protoplasts.
Gram negative bacteria form spheroplasts.
If protoplasts and spheroplasts grow and divide, they are called L-forms.
Unlike mycoplasma, L-forms can revert to the parental form on removal of the cell wall inhibitor.


Cytoplasmic membrane
The cytoplasmic membrane lies just inside the peptidoglycan layer of the cell wall and is a ‘unit membrane’ composed of a phospholipid bilayer similar in appearance to that of eukaryotic cells. However, eukaryotic membranes contain sterols, whereas prokaryotes generally do not (the only
exception being mycoplasmas.

The membrane has the following major functions

active transport and selective diffusion of molecules and solutes in and out of the cell
.• electron transport and oxidative phosphorylation in aerobic specie.
• synthesis of cell wall precursors
• secretion of enzymes and toxins

Mesosome

This is a convoluted invagination of the cytoplasmic membrane that functions as the origin of the transverse septum that divides the cell in half during cell division.

It is also the binding site of the DNA that will become the genetic material of each daughter cell

Cytoplasm

The cytoplasm comprises an inner, nucleoid region (composed of DNA), which is surrounded by an amorphous matrix that contains ribosomes, nutrient granules, metabolites and various ions.

Nuclear material or nucleoid

Bacterial DNA comprises a single, supercoiled, circular chromosome that contains about 2000 genes(It is analogous to a single, haploid chromosome.)
During cell division, it undergoes semiconservative replication bidirectionally from a fixed point.


Electron micrograph of a thin section of Neisseria gonorrhoeae showing the organizational features of prokaryotic cells. Note the electron-transparent nuclear region (n) packed with DNA fibrils, the dense distribution of ribosomal particles in the cytoplasm, and the absence of intracellular membranous organelles

Ribosomes

Ribosomes are the sites of protein synthesis. Bacterial ribosomes differ from those of eukaryotic cells in both size and chemical composition.

They are organized in units of 70S, compared with eukaryotic ribosomes of 80S. These differences are the basis of the selective action of some antibiotics
that inhibit bacterial, but not human.

Cytoplasmic inclusion granules

The cytoplasm contains different types of inclusions, which serve as sources of stored energy; examples include polymetaphosphate, polysaccharide and β-hydroxybutyrate.

Bacterial spore

Spores are formed in response to adverse conditions by the medically important bacteria
that belong to the genus
Bacillus (which includes the agent of B.anthrax) and Clostridium (which includes the agents of
Cl. tetanus and CL.botulism).
These bacteria sporulate (form spores) when nutrients, such as sources of carbon and nitrogen, are scarce

When appropriate conditions presented (i.e water ,nutrient)

enzymatic degradation of the coat and the spore transform itself into metabolizing , reproducing bacterial cell again

The scientific name of an organism is classically a binomial its i.e. combination of the generic name followed by the species name (e.g. Staphylococcus aureus)

On hand writing with pen we have to draw a line under each name of bacteria e.g Staphylocccus aureus
or we can write it in italics Staph. aureus

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