2. Introduction
• What is microbiology?
the branch of biology that studies microorganisms and their effects on
humans
• Microorganisms
a collection of organisms that share the characteristic of being visible only
with a microscope
• contribute to the quality of human life
o maintain the balance of chemical elements in nature
o breakdown the remains of all that die
o recycle carbon, nitrogen, sulfur, phosphorus and other elements
• some cause infectious disease called Pathogenic
o overwhelm body systems by sheer force of numbers
o produce powerful toxins that interfere with body physiology
o viruses inflict damage by replicating themselves within tissue cells
causing tissue degeneration
3. Classification of Microorganisms
• Taxonomy - the science of classification
• Kingdom (5 major divisions)
• Phylum (groups of related Classes)
• Class (groups of related Orders)
• Order (groups of related Families)
• Family (groups of related Genera)
• Genus (groups of related Species)
• Species (living organisms that are alike)
• The Five Kingdoms
1. Monera (unicellular prokaryotes: bacteria,
cyanobacteria, blue-green algae)
2. Protista (unicellular eukaryotes: protozoa,
unicellular algae, slime molds)
3. Fungi (multicellular eukaryotes: molds, mushrooms, yeasts)
4. Plantae (multicellular eukaryotes: plants)
5. Animalia (multicellular eukaryotes: animals)
• Species
• a population of individuals that breed among themselves
• microorganisms that are 70% similar from a biochemical standpoint
4. Classification of Microorganisms
Microorganisms and all other living organisms are classified as
Prokaryotes and Eukaryotes. They are distinguished on the
basis of their cellular characteristics.
• Prokaryotes and Eukaryotes
enclosed by cell (plasma) membranes
use DNA for genetic information
• Prokaryotes
lack a nucleus
lack organelles
include bacteria and cyanobacteria (blue-green algae)
• Eukaryotes
have a nucleus
have organelles
include fungi, protozoa and simple algae
• Viruses
are neither Prokaryotes or Eukaryotes
lack the characteristics of living things
are able to replicate only in their host (living cells)
5.
6. Prokaryotic Cell
Eukaryotic Cell
All bacteria
All animals and protozoa
Biological distribution
Absent
Presents
Nuclear membrane
Generally absents
Presents
Membranous structures
other than cell
membrane
70s
80s
Cytoplasmic
ribosome's (density)
Present (complex
chemical constitution)
Absent
Cell wall
Composed of DNA only
Composed of DNA and
Proteins
Chromosomes
7. Historical Background
• mid 1600s – English scientist Robert Hooke viewed cells and
observed strands of fungi
• 1670s – Dutch merchant Anton van Leeuwenhook made a
simple one-lens microscope and observed and provided
accurate descriptions of protozoa, fungi and bacteria
• 1750-1760 – Carolus Linnaeus classified all known plants and
animals and set down rules for classification
• 1875-1900 – The Golden Age of Microbiology
8. Historical Theories
• The Theory of Spontaneous Generation
a long-held theory that life springs up from non-living or decaying organic
matter, was based on observations of rotting food seemingly producing living
organisms. Francesco Redi (1626-1678) was an Italian physician who
showed that rotting meat carefully kept from flies will not spontaneously
produce maggots.
• The germ theory
1861: Louis Pasteur's
famous experiments with
swan-necked flasks finally
proved that microorganisms
do not arise by spontaneous
generation
• This led to: Development
of sterilization
9. Historical Theories
• Koch’s postulates
1890s: Robert Koch sets guidelines for how to prove that a
particular microbial agent is responsible for a particular
disease. Koch's postulates state that:
• The suspect microorganism must be routinely isolated
from patients with a particular illness;
• The microorganism must be grown in pure culture in
vitro;
• When the pure culture is inoculated into a new host, it
must cause the same illness;
• The same microorganisms must be reisolated from new
host.