Microbiology Concepts & History PDF

Summary

This document discusses various aspects of microbiology, including the history of life on Earth, the roles of microbes in different ecosystems, the impact of microbes on human society, and various techniques employed for research in the field. Key figures and principles like Koch's postulates are highlighted.

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Used until today to prove the causative agent
of an infection disease for e.g. Covid-19

Figure 1.29
A hand-colored photograph taken by Walther Hesse of colonies formed on agar. The
colonies include those of molds and bacteria obtained during Hesse’s studies of the
microbial content of air in Berlin, Germany, in 1882. From Hesse, W. 1884. “Ueber
quantitative Bestimmung der in der Luft enthaltenen Mikroorganismen.” Mittheilungen
aus dem Kaiserlichen Gesundheitsamte. 2: 182–207.

Figure 1.30
 Microbial diversity: focuses on nonmedical
aspects of microbiology in soil and water
Enrichment culture
Martinus Beijerinck
(1851–1931)
Developed enrichment
culture technique
Microbes can be isolated
from natural samples in
a highly selective fashion
by manipulating nutrient
and incubation
conditions:
example: nitrogen-fixing
rhizobia (Figure 1.9)

Figure 1.9
 Discovery of chemolithotrophy
Sergei Winogradsky (1856–1953) and the
concept of chemolithotrophy
demonstrated that specific bacteria are linked to specific
biogeochemical transformations (e.g., N and S cycles) (see
Figure 1.32)
proposed concept of chemolithotrophy:
oxidation of inorganic compounds to yield energy
demonstrated chemolithotrophs use carbon from CO2
(autotrophy)
first to demonstrate nitrogen fixation (Clostridium
pasteurianum) and nitrification
 The start of modern antibiotics

Penicillium in culture
Antibiotic
susceptibility test
Sir Alexander Fleming

Fleming discovered, by “accident”,
antibiotic substance benzylpenicillin
(Penicillin G) from the mold (fungus)
Penicillium notatum in 1928.
β-Lactam ring β-Lactam antibiotics inhibit the formation
Wikipedia
of peptidoglycan cross-links in the
bacterial cell wall.
 Microorganisms and the biosphere
History of Life on Earth
Earth is 4.6 billion years old.
First cells appeared between
3.8 and 4.3 billion
years ago.
The atmosphere was anoxic
(no O2) until ~2.6 billion years
ago.
only anaerobic metabolisms
first anoxygenic phototrophs ~3.6
billion years ago
plants and animals ~0.5
billion years ago
LUCA : the last universal common
ancestor Figure 1.5
 Microbial ecology

Notable umbers:
– ~2 x 1030 microbial cells on Earth
– in humans, 1–10 microbial cells per human cell

Ecosystem refers to all living organisms plus
physical and chemical constituents of their
environment.
Metabolic activities can change habitats and affect other
organisms.
Structures and colors formed by microbes in
the environment

Halobacteria
http://www.biochem.mpg.de/522218/Org_Hasal
http://halo.umbc.edu/haloed/motility

Lake Hillier of Australia’s
Recherche Archipelago; Pink
color possibly caused pink
bacteria halobacteria living in
high salinity lake water.
https://www.tumblr.com/search/halobacteria
Extremophiles live in habitats too harsh for other life forms.
examples: hot springs, glaciers, high salt, high
acidity/alkalinity, high pressure (Table 1.1)

Table 1.1
The Impact of Microorganisms on Human
Society
Microorganisms can be both beneficial and
harmful to humans.
agents of disease
food and agriculture
valuable human products, energy generation,
environmental clean-up

For plant: nitrogen-fixing bacteria
For animal: cellulose-degrading microbes in
rumen