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HISTORICAL ASPECTS OF MICROBIOLOGY. Dr.Rouchelle M.D, PGDBE, (PhD ) Assoc Prof, Microbiology. Microbiology is the study of microorganisms usually less than 1mm in diameter which require some form of magnification ( Microscope) Examples: Viruses Bacteria Fungi Algae Protozoa.
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HISTORICAL ASPECTS OF MICROBIOLOGY Dr.RouchelleM.D, PGDBE, (PhD) Assoc Prof, Microbiology
Microbiology is the study of microorganisms usually less than 1mm in diameter which require some form of magnification • ( Microscope) • Examples: • Viruses • Bacteria • Fungi • Algae • Protozoa
ANTONY VAN LEEUWENHOEK • First to observe living microbes • His single-lens magnified 50-300X magnification • He wrote papers describing his observations of bacteria, algae, protozoa, and fungi (Little Animalcules)
SPONTANEOUS GENERATION Early belief that some forms of life could arise from “vital forces” present in non-living or decomposing matter, abio-genesis. In other words, organisms can arise form non-living matter.
LOUIS PASTEUR (1822 - 1895) FATHER OF MICROBIOLOGY • Professor of chemistry in France • Proposed GERM THEORY OF DISEASE
Disprovedspontaneous generation of microbesby preventing “dust particles” from reaching the sterile broth • In 1861: SWAN NECK EXPERIMENT • Showed microbes caused fermentation
Louis Pasteur 1822 – 1895 • Also developed vaccine against anthrax, fowl cholera and rabies. • Pasteurizationtechnique • Developed methods of sterilization : steam sterilizer, hot air oven, autoclave • Liquid media concept • Founder of Pasteur Institute , Paris
History • 1885 - Vaccine against Rabies: Louis Pasteur
EDWARD JENNER: Developed the first vaccine and used a vaccination procedure to protect individuals from smallpox (1796)
History • 1796 – First vaccine (smallpox) Edward Jenner
Joseph Lister (1867) • Father of ‘ASEPTIC SURGERY’ • Use of disinfectant (dilute carbolic acid) to reduce post operative infections
History: Joseph Lister 1867 Antiseptic Surgery( Carbolic acid- Phenol)
Development of Vaccines and Antisera • Edward Jenner in 1796 discovered that cowpox (vaccinia) induced protection against human smallpox • Called procedure vaccination
Robert Koch 1843 – 1910 • In 1860 developed an elaborate technique to isolate & identify specific Pathogens that cause specific diseases. • He isolated the anthrax bacterium, tubercle bacilli & cholera bacilli. • Introduced HANGING DROP to study motility
History • 1884 Koch’s Postulates of Disease Transmission
Robert Koch (1843 - 1910) • Established the relationship between Bacillus anthracis and anthrax. • His criteria became known as Koch’s Postulates and are still used to establish the link between a particular micro-organism and its disease
Koch’s Postulates • Causative agent must be present in all affected organisms • The agent must be capable of being isolated and cultured in pure form • When cultured agent is introduced to a healthy organism, same disease must occur • The same causative agent must be isolated again from the affected host • Abs directed against the gene products should be protective
Development of Culture Media • Introduced solid media to grow bacteria. • Gelatin not useful as solidifying agent (melts at >28 ºC and some bacteria hydrolyze it with enzymes) • Eilshemius Hesse, wife of one of Koch’s assistants, proposed using AGAR • Not digested by most bacteria • Melts at 100 ºC • Used today - ~2% in solid media • Richard Petri, another of Koch’s assistants, developed the Petri dish
GOLDEN AGE OF MICROBIOLOGY • The period from 1860 to 1900 is often named the Golden Age of Microbiology. • During this period, rapid advances, spear-headed by Louis Pasteur and Robert Koch, led to the establishment of microbiology as a science.
ROBERT KOCH • Developed pure culture methods • Identified cause of anthrax ( Bacillus anthrax) , TB (Mycobacterium tubercullosis) , & cholera ( Vibrio cholera).
PAUL EHRLICH • In the 1890’s Ehrlich proposed a theory of immunity: antibodies were responsible for immunity( Antitoxin) • FATHER OF MODERN CHEMOTHERAPY. • He speculated about some “magic bullet” that would selectively find and destroy pathogens but not harm the host (SELECTIVE TOXICITY). • He also develop a staining procedure to identify tubercle bacilli.
ALEXANDER FLEMING In 1928 Fleming observed that the growth of the bacterium Staphyloccus aureus was inhibited in the areas surrounding the colony of a mold that had contaminated a Petri plate. The mold was identified as Penicillium notatum, and its active compound was named penicillin.
History • 1929 Discovery of Penicillin (first antibiotic) Alexander Fleming
History • Reska (1938) – First Electron Microscope • The electron microscope is capable of magnifying biological specimens up to one million times. These computer 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.
WATSON and CRICK, FRANKLIN, and WILKINS In 1953 Watson and Crick determined the structure of DNA. They used their research, together with the research of Franklin and Wilkins to determine the structure of the DNA molecule.
In the 1970s new discoveries in microbiology led to the development of recombinant DNA technology and genetic engineering, PCR