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Streptomycin also is used as a pesticide, to combat the growth of bacteria beyond human applications. Streptomycin controls bacterial diseases of certain fruit, vegetables, seed, and ornamental crops. A major use is in the control of fireblight on apple and pear trees. As in medical applications, extensive use can be associated with the ...
Streptomycin is noteworthy because it is the first significant antibiotic discovered after penicillin, the first systemic antibiotic discovered in America, the first antibiotic active against tuberculosis, and the first-line treatment for plague.
Albert Israel Schatz (2 February 1920 – 17 January 2005) was an American microbiologist and academic who discovered streptomycin, [1] the first antibiotic known to be effective for the treatment of tuberculosis. [2]
Selman Abraham Waksman (July 22, 1888 – August 16, 1973) was a Jewish American inventor, Nobel Prize laureate, biochemist and microbiologist whose research into the decomposition of organisms that live in soil enabled the discovery of streptomycin and several other antibiotics.
Streptomycin is the first-in-class aminoglycoside antibiotic. It is derived from Streptomyces griseus and is the earliest modern agent used against tuberculosis. Streptomycin lacks the common 2-deoxystreptamine moiety (image right, below) present in most other members of this class.
1944 – streptomycin, the first aminoglycoside [2] 1947 – sulfadiazine; 1948 – chlortetracycline, the first tetracycline; 1949 – chloramphenicol, the first amphenicol [2] 1949 – neomycin; 1950 – oxytetracycline; 1950 – penicillin G procaine; 1952 – erythromycin, the first macrolide [2] 1954 – benzathine penicillin; 1955 ...
In 1946, the development of the antibiotic streptomycin made effective treatment and cure of TB a reality. Prior to the introduction of this medication, the only treatment was surgical intervention, including the "pneumothorax technique", which involved collapsing an infected lung to "rest" it and to allow tuberculous lesions to heal. [43]
Human cells therefore are spared the effects of tetracycline on protein synthesis. [1] Tetracyclines retain an important role in medicine, although their usefulness has been reduced with the onset of antibiotic resistance. [2] Tetracyclines remain the treatment of choice for some specific indications. [2]