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Transcript
Dr. Yoga Sundram
DVM., MS., PhD.
South Georgia College
The main themes of
Microbiology
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
Microbiology is the study of organisms too
small to be seen with the naked eye. A
microscope is needed to view them.
Microorganisms include:
bacteria
viruses
fungi
protozoa
helminths (worms)
algae
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
Immunology

Public health microbiology and epidemiology

Food, dairy and aquatic microbiology

Biotechnology

Genetic engineering and recombinant DNA
technology
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Nutrient production and energy flow

Decomposition
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Biotechnology
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Genetic engineering
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Bioremediation
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Infectious disease
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Nearly 2,000 different microbes cause
diseases.

10 B new infections/year worldwide

13 M deaths from infections/year worldwide
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Procaryotes and eukaryotes
 Procaryotes – Microscopic, unicellular organisms.
Lack nuclei and membrane-bound organelles
 Eucaryotes – Unicellular and multicellular
organisms. Have nuclei and membrane-bound
organelles

Viruses
Acellular, parasitic particles composed of a nucleic
acid and protein
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Insert figure 1.5
basic cell and virus structures
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Procaryotes are measured in micrometers.
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Viruses in nanometers
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Helminths are measured in millimeters.
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Insert figure 1.7
measurements
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300 years of contributions by many

Prominent discoveries include:
◦
◦
◦
◦
microscopy
scientific method
development of medical microbiology
microbiology techniques
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
Dutch linen
merchant
Insert figure 1.8
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First to observe
living microbes
Single-lens
magnified up to
300X
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Insert figure 1.9 (a)
microscope
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Early belief that some forms of life could arise
from vital forces present in nonliving or
decomposing matter (flies from manure, etc)
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A general approach to explain a natural
phenomenon
Form a hypothesis - a tentative explanation
that can be supported or refuted by
observation and experimentation
A lengthy process of experimentation, analysis
and testing either supports or refutes the
hypothesis.
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Results must be published and repeated by
other investigators.
If hypothesis is supported by a growing body
of evidence and survives rigorous scrutiny, it
moves to the next level of confidence - it
becomes a theory.
If evidence of a theory is so compelling that
the next level of confidence is reached - it
becomes a Law or principle.
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
John Tyndall and Ferdinand Cohn each
demonstrated the presence of heat
resistant forms of some microbes.
*Cohn determined these forms to be endospores.

Sterility requires the elimination of all life
forms including endospores and viruses.
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Dr. Oliver Wendell Holmes – observed that
mothers of home births had fewer infections
than those who gave birth in hospital
Dr. Ignaz Semmelweis – correlated infections
with physicians coming directly from
autopsy room to maternity ward
Nosocomial Infections - infections acquired
during stay in hospitals
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
Joseph Lister – introduced aseptic
techniques reducing microbes in medical
settings to prevent infections
◦ involved disinfection of hands using chemicals
prior to surgery
◦ use of heat for sterilization
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Many diseases are caused by the growth of
microbes in the body and not by sins, bad
character, or poverty, etc.
Two major contributors:
Louis Pasteur and Robert Koch
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Insert figure 1.11
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Showed microbes caused
fermentation and spoilage
Disproved spontaneous
generation of
microorganisms
Developed pasteurization
Demonstrated what is now
known as Germ Theory of
Disease
Developed a rabies vaccine
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
Established Koch’s
postulates - a sequence of
experimental steps that
verified the germ theory
Insert figure 1.12
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Identified cause of
anthrax, TB, and cholera
Developed pure culture
methods
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Formal system originated by Carl von Linné
(1701-1778)
Concerned with:
◦ classification – orderly arrangement of organisms
into groups
◦ nomenclature – assigning names
◦ identification – discovering and recording traits of
organisms for placement into taxonomic schemes
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Domain - Archaea, Bacteria & Eukarya
Kingdom
Phylum
Class
Order
Family
Genus
species
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Binomial (scientific) nomenclature
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Gives each microbe 2 names:
◦ Genus - noun, always capitalized
◦ species - adjective, lowercase

Both italicized or underlined
◦ Staphylococcus aureus (S. aureus)
◦ Bacillus subtilis
(B. subtilis)
◦ Escherichia coli
(E. coli)
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Changes favoring survival are retained and
less beneficial changes are lost.
All new species originate from preexisting
species.
Closely related organism have similar
features because they evolved from
common ancestral forms.
Evolution usually progresses toward greater
complexity.
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Bacteria - true bacteria, peptidoglycan
Archaea - odd bacteria that live in extreme
environments, high salt, heat, etc.
Eukarya- have a nucleus and organelles
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Insert figure 1.15
Woese-Fox System
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