Microbe Scope and History of Microbiology PDF

Summary

These lecture notes provide a scope and history of microbiology, covering topics such as characteristics of prokaryotic and eukaryotic cells, bacterial taxonomy, growth, and culturing of bacteria, fungi, and viruses. Key figures in microbiology are also presented.

Full Transcript

Dr. Wan Syaidatul Aqma Wan Mohd Noor

BSc Microbiology (UKM),
PhD Environmental Microbiology (Dublin City
University, Ireland)

Email: [email protected]
Office: 3176, Level 3, Bangunan Biologi

WSAqma_UKM 1
Lecture contents
1. Scope and History 7. Sterilization and
of Microbiology Disinfection
2. Characteristics of 8. Antimicrobial
Prokaryotic & theraphy
Eukaryotic Cells 9. Disease and
3. Bacterial Epidemiology
Taxonomy 10. Nonspecific Defences
4. Growth and 11. Specific Defences
Culturing of Bacteria
5. Fungi 12. Important Diseases
6. Viruses 13. Environmental
Microbiology
14. Applied Microbiology
WSAqma_UKM 2
 Scope &
History of
Microbiology
Dr. Wan Syaidatul Aqma

WSAqma_UKM 3
CONTRIBUTION OF EACH SCIENTIST?
a) Robert Hook
b) van Leeuwenhoek
c) Louise Pasteur
d) Robert Koch
e) Alexander Fleming
f) Joseph Lister
g) Paul Ehrlich

WSAqma_UKM 4
 HISTORY of the
golden age of Microbiology

Louis Pasteur
Leuwenhoek
Robert Koch

WSAqma_UKM 5
“The Triumph of Death” by Pieter Breughel, the Elder

Italy-France-
Year: 1347 Bubonic plague England-
‘’The Black Death’’ northern
Europe
epidemic
10 millions
died
*widespread occurrence of an infectious
disease in a community at a particular time. 300 years!!!

WSAqma_UKM 6
Museo del Prado, Madrid
WSAqma_UKM 7
 1665 Robert Hooke

Compound
microscope Observed
Used simple magnifying slices of cork
lens

“Little boxes” or Cells
-all living things are made of
cells
Hooke's Microscope

Antonie van Leeuwenhoek was
inspired by this publication
WSAqma_UKM 8
(1632-1723) Anton van
Leeuwenhoek
(“layu-wen-hook”)

First “Animalcules”
observation of described live
living cells (200- microorganisms that he
300X mag.) observed in teeth
scrapings, rain water,
Diarrheal feces
and food.

Publish paper:
Protozoa, algae,yeast, fungi,
WSAqma_UKM bacteria 9
Antonie van Leeuwenhoek’s
microscope
3-4” microscope
Required good
lighting and PATIENCE

He
constructed
more than 400
microscopes!
WSAqma_UKM 10
Theories of The Cell Theory
1. All cells are the fundamental
units of life and 2. carry out all
MICROBIOLOGY basic functions of living things

The Germ Theory of Disease
States that : microorganisms can invade other organisms and cause disease

DISEASE!!!
Microorganism/ GERMS

Mid 19th
People THINK: SPONTANEOUS
‘‘Microorganisms Broth Broth GENERATION
arose from
Living organisms arise
non-living thing’’
from nonliving matter

Clear Cloudy
WSAqma_UKM 11
The Germ Theory of Disease
1835
Agostino Bassi showed a silkworm
disease was caused by a fungus.
1865
Pasteur believed that another silkworm
disease was caused by a protozoan.
1840s
Ignaz Semmelwise advocated handwashing to prevent
transmission of puerperal fever (Postpartum infections,
also known as childbed fever) from one Obstetrics (OB)
patient to another.
WSAqma_UKM 12
The Germ Theory of Disease
1860s
Joseph Lister used a chemical disinfectant to
prevent surgical wound infections after looking at
Pasteur’s work showing microbes are in the air,
can spoil food, and cause animal diseases.

1876
Robert Koch provided proof that a bacterium
causes anthrax and provided the experimental
steps, Koch’s postulates, used to prove that a
specific microbe causes a specific disease.
WSAqma_UKM 13
 The idea that life could arise spontaneously
Spontaneous from nonliving matter
Ex: Toads and Mice could arise from soil
Generation Until the 18th century this believe existed

1668 FRANCESCO REDI’S EXPERIMENTS WITH MEAT
Francesco Redi
1st one to disprove Flies laid eggseggs developed into larvae
spontaneous generation

covered covered uncovered

No maggots Maggots
Disproved that maggots arise from decaying meat!!
Maggots did not arise spontaneously from decaying meat
Maggots appeared ONLY when flies were allowed to leave their eggs
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on the meat
 Spontaneous Generation
John Needham’s Italian priest Lazzaro
experiments (1745) Spallanzani (1765)
Proved (??) Similar to Needham’s
Experiments
spontaneous generation He showed that heating a
in chicken broth sealed flask of meat broth
Heated Nutrient Fluids prevented growth of
and poured them into organism
Skeptics claimed—lack of
covered flasks
O2 prevented growth!!

Hot Mutton Turbid Claim: ‘vital force’ CLEAR
necessary for SG
gravy broth destroyed by heat broth
and was kept out
Maybe air contaminate the broth of the flasks by 15
WSAqma_UKM
after boiled? the seal
WSAqma_UKM 16
COMPETITION (1859)
French Academy of Science
To throw new light on the
question of SPONTANEOUS
GENERATION
Louis Pasteur (French chemist) & John Tyndall (English)

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1861: The Theory of Biogenesis
Pasteur’s S-shaped flask kept microbes out but let air
in.
A “swan-necked” flask that Pasteur used in refuting the
theory of spontaneous generation

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1861: The Theory of Biogenesis living cells arise only from preexisting living cells

PASTEUR’S
EXPERIMENT
Pasteur’s S-shaped flask kept
microbes out but let air in.
A “swan-necked” flask that Pasteur
used in refuting the theory of
spontaneous generation

*In this way Pasteur disprovedWSAqma_UKM
the theory of spontaneous generation 19
Louis Pasteur (1861)
Spontaneous Generation finally
disproved
Boiled broth in long-s-shaped necked
flasks (unsealed)
Remained sterile
Proved that microorganisms are
present in air, but air does not create
microbes
Beginning of the golden age of
microbiology
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 The Golden Age of Microbiology!
1857-1914
Louis Pasteur (finally disproved
spontaneous generation after many
years of debate)
Robert Koch (proof of germ theory)
Other pioneers in Microbiology
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Who’s Louis Pasteur???
1822 – 1895

Developed pasteurization
technique
Development of vaccines –
rabies vaccine from the dried
spinal cords of infected
rabbits
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 Pasteur — Father of Microbiology

1857- Louis Pasteur saves France’s wine industry
Napoleon III begged Pasteur (a chemist by training) to help solve
a problem
Sailors were rebelling b/c their wine was spoiling after only a few
weeks at sea
Pasteur armed with his trusty microscope accepted the challenge

Microbes can be destroyed by heat
Aseptic Technique
Pasteurization to prevent wine and beer spoilage (by bacteria)

Pasteurization?
WSAqma_UKM 23
1857-Louis Pasteur saves France’s wine

FUN facts!
1) Good wine contained yeast
2) Sour wine contained bacterium
(Bacteria that use alcohol and produce acetic acid spoil wine by turning it to
vinegar (acetic acid).

1) He reasoned that ‘if wine is heated to
destroy the harmful bacteria, it wouldn’t
spoil’ (process known as Pasteurization)
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1) Fermentation and Pasteurization

Pasteur showed that microbes are
responsible for fermentation.
Fermentation is the conversation of sugar to
alcohol to make beer and wine.
Microbial growth is also responsible for
spoilage of food.
Bacteria that use alcohol and produce acetic
acid spoil wine by turning it to vinegar (acetic
acid). WSAqma_UKM 25
Fermentation and Pasteurization

Pasteur demonstrated
that these spoilage
bacteria could be killed
by heat that was not hot
enough to evaporate the
alcohol in wine.
This application of a high
heat for a short time is
called pasteurization.
WSAqma_UKM 26 1.4
Figure
 Pasteur’s Tomb in the Crypt of
the Pasteur Institute in Paris

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 Who’s Robert Koch
(1843-1910)

Physician in Germany
Identified bacterium causes
anthrax
Found a way to grow
bacteria in pure cultures
Koch’s postulates: one
organism-one disease
concept
Identified bacterium causes
tuberculosis

Bacillus anthracis Nobel prizes in 1905

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Techniques for So;
Studying Hesse suggested that agar could be
used as a solidifying agent
Microorganisms
Method to grow bacteria in
‘pure cultures’

Streaking bacterial
suspension on potato Richard Petri developed the petri dish
which was used to contain the solid
slices and then on culture media (agar and nutrients)
solidified gelatin
MELT in incubator!!!

Robert Koch used these techniques to
isolate the bacterium that caused
tuberculosis
(pure cultures)

Early Contributors to Bacteriology
Angelina and Walther Hesse 29
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Pure cultures

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 1.
Koch’s Postulates
(1884)

1. The microbe must be present
in every case of the disease
but absent from healthy 2.
organisms
2. The suspected microbe must
be isolated and grown in a
pure culture
3. The same disease must result 3.
when the isolated microbe is
inoculated into a healthy host
4. The same microbe must be
isolated again from the
diseased host 4.

31
ONE organism, ONE disease
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The steps of Koch's postulates used to relate a
specific microorganism to a specific disease.

1-Microorganisms are observed in a sick animal
and cultivated in the lab.
2-The organisms are injected into a healthy
animal, and the animal develops the disease.
3-The organisms are observed in the sick animal
4-Reisolated in the lab.

LIKE IT OR NOT YOU HAVE TO REMEMBER
THIS STEPS!
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 Koch also discovered:

Koch and his coworkers
Bacterium cause
discovered that bacteria
tuberculosis caused:
-staining technique TUBERCULOSIS
-DISPROVED: TB CHOLERA
was inherited DIPTHERIA
TYPHOID FEVER
GONORRHEA
PNEUMONIA

1905: Nobel Prize for Physiology & Medicine
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Work toward Controlling Infections

Washing hand in labor
Encourage sanitary
practice
Prevent childbirth
fever

Ignaz Philipp Semmelweis (1818-1865)
Austria

WSAqma_UKM 34
Joseph Lister & Antiseptic Surgery (1869)
‘FATHER OF ANTISEPTIC SURGERY’

Dilute carbolic
acid on
bandages and
instruments to
reduce infection
Decreased
surgical wound
infections in his
surgical wards
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 1)Immunology
4)Genetics and
molecular biology

2)Virology Emergence of special
fields of Microbiology

3)Chemotherapy
5)Genomics

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 Immunology is the study of immunity. Vaccines and
interferons are being investigated to prevent and
cure viral diseases.

1) Immunology
VACCINIA: (Vacca, Latin name for cow)

Edward Janner Ancient Chinese: smallpox
Louis Pasteur took dried scabs from lesions
Elie Metchnikoff of people who were
Disease depends on: recovering
Microorganisms ground into
invading host powder>sniff>PROTECTED!
Host response to
invasion WSAqma_UKM 37
 1) Immunology Pioneer in
Immunology:
Elie
1) Edward Jenner (1796) 2) Pasteur: rabies &
Metchnikoff
-Milkmaid who got cholera (1879)
cowpox: did not get
Certain cells in the
smallpox
body-ingest
-Jenner heard a milkmaid
microbes
say, “I shall never have
smallpox for I have had
Phagocytes
cowpox. Old
‘cell eating’
-Inoculate 8 y/o with chicken
cowpox---after 8 weeks--- cholera NO disease
culture 1st STEP in
inoculate smallpox--- symptoms understanding
PROTECTED!
IMMUNITY

HEALTHY! Identification of
phagocytes as
cells defend the
Fresh chicken cholera
culture
body against
Vaccination w/ cowpox provided
invading m/o
immunity for smallpox
Chicken immunised
HOW? against chicken cholera
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WSAqma_UKM 39
 Vaccination:
Inoculation of healthy individuals with weakened (or
attenuated) forms of microorganisms, that would otherwise
cause disease, to provide protection, or active immunity
from disease upon later exposure.
Pasteur and Roux reported that incubating cultures longer than
normal in the lab resulted in ATTENUATED bacteria that could
no longer cause disease.
Working with chicken cholera (caused by Pasteurella
multocida), they noticed that animals injected with
attenuated cultures were resistant to the disease.
Pasteur and Chamberland developed other vaccines:
Attenuated anthrax vaccine
Chemical and heat treatment (potassium bichromate)
Attenuated rabies vaccine
Propagated the virus in rabbit following injection of
infected brain and spinal cord extracts
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Vaccination

WSAqma_UKM 41
 2)Virology

Charles
Porcelain filter: The agent remain infectious after
Chamberland
filtered out
(1884)

Martinus 1st characterised Virus
Beijerinck -replicate in host cells

Wendell
Crystalised Tobacco Mosaic Virus
Stanley protein + RNA
(1935)
TOBACCO MOSAIC VIRUS
A helical core of RNA surrounded by a coat consisting of
repeating protein units. The structure of the particles is so
regular that the viruses can beWSAqma_UKM
crystallized. 42
 History
Reska (1938) –
First Electron Microscope

The electron microscope is capable of
magnifying biological specimens up to one
million times.
Enhanced images of 1. smallpox, 2. herpes
simplex, and 3. mumps are magnified,
respectively, 150,000, 150,000 and 90,000
times.

To study detail structures of
viruses.
1st VIRUS observed with an electron microscope
(1939)
WSAqma_UKM 43
 Opium poppy: morphine
3) Chemotherapy
Treatment with chemicals is chemotherapy.
Chemotherapeutic agents used to treat infectious disease can be
synthetic drugs or antibiotics.
Antibiotics are chemicals produced by bacteria and fungi that inhibit or
kill other microbes.
Thomas Sydenham: Quinine from tree bark was long used to treat
malaria.

Paul Ehrlich (1910)
Hospital dermatologist
Pioneer in the development of
chemotherapy for infectious disease
‘’Magic bullet”: chemical would destroy
specific bacteria w/o damaging
surrounding tissues
Salvarsan (arsenic derivative
Paul Ehrlich
/Compound 606
WSAqma_UKM >>>>Syphilis 44
 Antibiotics
1928: Alexander
Fleming discovered
the first antibiotic.
>>>He observed that
Penicillium fungus made
an antibiotic, penicillin,
that killed S. aureus.
1940s: Penicillin was
tested clinically and mass
produced.
WSAqma_UKM 45 1.5
Figure
 Selected Nobel Prizes in Physiology or Medicine

1901* von Behring Diphtheria antitoxin
1902 Ross Malaria
transmission
1905 Koch TB bacterium
1908 Metchnikoff Phagocytes
1945 Fleming, Chain, Florey Penicillin
1952 Waksman Streptomycin
1969 Delbrück, Hershey, Luria Viral replication
1987 Tonegawa Antibody genetics
1997 Prusiner Prions
WSAqma_UKM 46
* The first Nobel Prize in Physiology or Medicine.
CONTRIBUTION OF EACH SCIENTIST?
a) Robert Hook
b) van Leeuwenhoek
c) Louise Pasteur
d) Robert Koch
e) Alexander Fleming
f) Joseph Lister
g) Paul Ehrlich

WSAqma_UKM 47
Checklist
Cell theory
Spontaneous generation
Germ theory of disease
Koch’s postulates

WSAqma_UKM 48
 Founders of Microbiology
(Review)

First observed microbes—
Leeuwenhoek
Proved living cells can arise only
from other living cells---Pasteur
Confirmed the Germ Theory of
Disease --Koch WSAqma_UKM 49
Scope of Microbiology

1. The
variety 2. The kinds
kinds of of work
microbes microbiologist
do

WSAqma_UKM 50
Domain1: Domain 2:

Classification of
Microorganisms
Domain 3:

Animals Protists

Plants Fungi

WSAqma_UKM 51
Domain1: Domain 2:
Bacteria Archaea

Classification of
Microorganisms
Domain 3:
Eukarya

Animals Protists

Plants Fungi

WSAqma_UKM 52
 1.

7.
Microorganisms
2.

6. 3.

5. 4.

WSAqma_UKM 53
Bacteria Algal bloom

Fungi
Protozoa
AIDS virus WSAqma_UKM 54
Giardia intestinalis
1. Bacteria (singular: bacterium)
Prokaryotes
Single-celled, no nucleus, lack membrane-enclosed
intracellular structure
Peptidoglycan cell walls
Shapes: spherical, rod, spiral
Binary fission
For energy, use organic chemicals, inorganic chemicals,
or photosynthesis
Stationary/motile

WSAqma_UKM 55
Figure 1.1a
 2. Archaea
Very similar group to bacteria
Prokaryotic-single celled, no
nucleus
Lack peptidoglycan
Lipids, cell wall and flagella
differ from those of bacteria
Live in extreme environments
Include:
Methanogens:produce methane
as a metabolic byproduct
Extreme halophiles
Extreme thermophiles
WSAqma_UKM 564.5b
Figure
WSAqma_UKM 57
 DEEP SEA
HYDROTHERMAL VENT
‘Black smoker’
Suhu sehingga 400 °C!!!

WSAqma_UKM 58
3. Fungi (singular: fungus)
Eukaryotes
Chitin cell walls
Use organic chemicals for
energy
Molds and mushrooms are
multicellular consisting of
masses of mycelia, which are
composed of filaments called
hyphae
Yeasts are unicellular
Widely distributed in water
and soil as decomposers of
dead organisms
Some are important in
medicine: antibiotics WSAqma_UKM 591.1b
Figure
Struktur kulat
Filamen = Hifa
Keseluruhan hifa = miselium
Struktur pembiakan =kandul spora/fruiting
body

WSAqma_UKM 60
Yis - Saccharomyces cerevisiae

Pembiakan: Pewarnaan menggunakan
pertunasan/budding methylene blue

WSAqma_UKM 61
 4. Viruses
Acellular - too small to be seen with a light microscope
Composed of nucleic acid and protein
Consist of DNA or RNA core
Core is surrounded by a protein coat
Coat may be enclosed in a lipid envelope
Viruses are replicated only when they are in a living host cell
Bacteriophage: viruses that infect bacteria
Viroids: nucleic acid without a protein coating
Prions: Infectious proteinaeceous particles

WSAqma_UKM 62
WSAqma_UKM 63
5. Algae (singular: alga)
Defined cell nucleus
and membrane-
enclosed intracellular
structure
Cellulose cell walls
Use photosynthesis for
energy
Produce molecular
oxygen and organic
compounds
Fresh water and
marine environmentsWSAqma_UKM 641.1d
Figure
6. Algae

Figure 1.1d

WSAqma_UKM 65
6. Protozoa (singular: protozoan)
Single-celled
Have a nucleus
(membrane-bound) and
other intracellular
structures
Absorb or ingest organic
chemicals
May be motile via
pseudopods, cilia, or
flagella
Water and soil
environment
WSAqma_UKM 661.1c
Figure
 Protozoa

WSAqma_UKM 67
7. Multicellular Animal Parasites

Eukaryote
Multicellular
animals
Parasitic flatworms
and round worms
are called
helminths.
Microscopic stages
in life cycles.

WSAqma_UKM Figure68
12.28
FUN facts!

WSAqma_UKM 69
 FUN facts!

WSAqma_UKM 70
Microbes in OUR life

WSAqma_UKM 71
Are producers in the ecosystem
by photosynthesis

WSAqma_UKM 72
Produce industrial chemicals such as
ethyl alcohol and acetone

WSAqma_UKM 73
Produce products used in manufacturing (e.g.,
cellulase) and treatment (e.g., insulin)

WSAqma_UKM 74
nzyme

WSAqma_UKM 75
Designer jeans: Made by microbes

Stone washing/softener:
Trichoderma cellulases
Cotton fabric: G. xylinus
cellulose
Bleaching: Yeast peroxidase
Indigo: P. putida
Plastic zip and packaging:
25 bacteria (biodegradable)

WSAqma_UKM 76
Produce fermented foods such
as vinegar, cheese and bread

WSAqma_UKM 77
DECONTAMINATE WASTES

WSAqma_UKM 78
 Deepwater Horizon oil spill

The last (and only) defense against the ongoing Deepwater Horizon oil
spill in the Gulf of Mexico is tiny—billions of hydrocarbon-chewing
microbes, such as Alcanivorax borkumensis.
“Microbial degradation is much quicker," says microbial ecologist
Kenneth Lee
The dispersants can also stimulate microbial growth. Bacteria will chew
on the dispersants as well as the oil."

WSAqma_UKM 79
Modern era of the vaccine

1885 1960s
Rabies vaccine Mumps measles
and rubella virus
(Pasteur)
Sabin polio
1920
1985
Diphtheria and
Tetanus Haemophilus
1934 1990s
Pertussis Hepatitis and
varicella
1954  2000
Salk polio Human Papillomavirus
WSAqma_UKM (HPV) 80
80
Herd
Immunity
a form of indirect
protection from infectious
disease that occurs
when
a large percentage of a
population has
become IMMUNE to an
infection,
thereby
providing a measure of
protection for individuals
who are not immune

WSAqma_UKM 81
Antibiotics

WSAqma_UKM 82
Knowledge of microorganisms

Allows humans to
 Prevent food spoilage
 Prevent disease occurrence

Led to aseptic techniques to prevent
contamination in medicine and in
microbiology laboratories.

WSAqma_UKM 83
Decompose organic waste

WSAqma_UKM 84
Microbes and Agriculture

Nitrogen fixation
1. association between plants (legumes) and
bacteria
2. reduce need for fertilizer

Rumen microbes in cattle and sheep allow
them to breakdown/digest grass and hay

Nutrient cycling (C, N and S)

Plant and animal diseases

WSAqma_UKM 85
WHY microorganisms are
especially useful in research?
1. Have relatively simple structures

2. Large numbers of microbes can be used
in an experiment to obtain statistically
reliable results at a reasonable cost

3. Reproduce quickly so they are useful for
studies involving transfer of genetic
information
WSAqma_UKM 86
 CDC
(US Centers for Disease
Control and Prevention)
Federal agency
Collects data about diseases
Developing ways to control them.

WSAqma_UKM 87
Fields of Microbiology

WSAqma_UKM 89
Bio-fuel

WSAqma_UKM 90
 Inspecting plastics made
with as much as 40%
starch (pieces inside
baskets) for signs that
aquatic microbes are
degrading them

WSAqma_UKM 91
WSAqma_UKM 92
Using beating nets to survey for ticks that can spread
disease to livestock and humans

WSAqma_UKM 93
Keeping pets and domestic animals healthy, as well as
improving their productivity, by means of advances in
veterinary science

WSAqma_UKM 94
WSAqma_UKM 95
 Water
safety

WSAqma_UKM 96
WSAqma_UKM 97
WSAqma_UKM 98
WSAqma_UKM 99