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| title | chunk | source | category | tags | date_saved | instance |
|---|---|---|---|---|---|---|
| Bacteria | 9/9 | https://en.wikipedia.org/wiki/Bacteria | reference | science, encyclopedia | 2026-05-05T07:15:08.686083+00:00 | kb-cron |
Bacteria were first observed by the Dutch microscopist Antonie van Leeuwenhoek in 1676, using a single-lens microscope of his own design. Leeuwenhoek did not recognize bacteria as a distinct category of microorganisms, referring to all microorganisms that he observed, including bacteria, protists, and microscopic animals, as animalcules. He published his observations in a series of letters to the Royal Society of London. Bacteria were Leeuwenhoek's most remarkable microscopic discovery. Their size was just at the limit of what his simple lenses could resolve, and, in one of the most striking hiatuses in the history of science, no one else would see them again for over a century. His observations also included protozoans, and his findings were looked at again in the light of the more recent findings of cell theory. Christian Gottfried Ehrenberg introduced the word "bacterium" in 1828. In fact, his Bacterium was a genus that contained non-spore-forming rod-shaped bacteria, as opposed to Bacillus, a genus of spore-forming rod-shaped bacteria defined by Ehrenberg in 1835. Louis Pasteur demonstrated in 1859 that the growth of microorganisms causes the fermentation process and that this growth is not due to spontaneous generation (yeasts and molds, commonly associated with fermentation, are not bacteria, but rather fungi). Along with his contemporary Robert Koch, Pasteur was an early advocate of the germ theory of disease. Before them, Ignaz Semmelweis and Joseph Lister had realised the importance of sanitised hands in medical work. Semmelweis, who in the 1840s formulated his rules for handwashing in the hospital, prior to the advent of germ theory, attributed disease to "decomposing animal organic matter". His ideas were rejected and his book on the topic condemned by the medical community. After Lister, however, doctors started sanitising their hands in the 1870s. Robert Koch, a pioneer in medical microbiology, worked on cholera, anthrax and tuberculosis. In his research into tuberculosis, Koch finally proved the germ theory, for which he received a Nobel Prize in 1905. In Koch's postulates, he set out criteria to test if an organism is the cause of a disease, and these postulates are still used today. Ferdinand Cohn is said to be a founder of bacteriology, studying bacteria from 1870. Cohn was the first to classify bacteria based on their morphology. Though it was known in the nineteenth century that bacteria are the cause of many diseases, no effective antibacterial treatments were available. In 1910, Paul Ehrlich developed the first antibiotic, by changing dyes that selectively stained Treponema pallidum—the spirochaete that causes syphilis—into compounds that selectively killed the pathogen. Ehrlich, who had been awarded a 1908 Nobel Prize for his work on immunology, pioneered the use of stains to detect and identify bacteria, with his work being the basis of the Gram stain and the Ziehl–Neelsen stain. A major step forward in the study of bacteria came in 1977 when Carl Woese recognised that archaea have a separate line of evolutionary descent from bacteria. This new phylogenetic taxonomy depended on the sequencing of 16S ribosomal RNA and divided prokaryotes into two evolutionary domains, as part of the three-domain system.
== See also == Bacteriohopanepolyol Genetically modified bacteria Marine prokaryotes
== References ==
== Bibliography == Clark D (2010). Germs, Genes, & Civilization: how epidemics shaped who we are today. Upper Saddle River, N.J: FT Press. ISBN 978-0-13-701996-0. OCLC 473120711. Crawford D (2007). Deadly Companions: how microbes shaped our history. Oxford New York: Oxford University Press. ISBN 978-0-19-956144-5. OCLC 183198723. Hall B (2008). Strickberger's Evolution: the integration of genes, organisms and populations. Sudbury, Mass: Jones and Bartlett. ISBN 978-0-7637-0066-9. OCLC 85814089. Krasner R (2014). The Microbial Challenge: a public health perspective. Burlington, Mass: Jones & Bartlett Learning. ISBN 978-1-4496-7375-8. OCLC 794228026. Pommerville JC (2014). Fundamentals of Microbiology (10th ed.). Boston: Jones and Bartlett. ISBN 978-1-284-03968-9. Wheelis M (2008). Principles of modern microbiology. Sudbury, Mass: Jones and Bartlett Publishers. ISBN 978-0-7637-1075-0. OCLC 67392796.
== External links == On-line text book on bacteriology (2015) Archived 13 September 2008 at the Wayback Machine