Mahlon Hoagland

Mahlon Bush Hoagland (1921 –) is an American biochemist who is best known for the discovery of amino-acid activating enzymes.^[1]

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Biography

Early life

Mahlon Bush Hoagland was born in Boston, Massachusetts, U.S. in 1921 to Hudson Hoagland, an American physiologist who was known for co-founding the Worcester Foundation for Experimental Biology with Gregory Pincus.^[1] He attended Williams College, and in 1948 received his M.D. from Harvard Medical School with intentions of becoming a surgeon.^[1] After a bout with tuberculosis, Hoagland was forced to changed career directions and became involved with research.^[1] Initially, Hoagland held a research position at Massachusetts General Hospital.^[1] After a year, he moved to Huntington Labs, also at Massachusetts General Hospital, where he began working with Paul Zamecnik.^[1] Additionally, from 1953-1967 Hoagland served as an associate professor of microbiology at Harvard Medical School.^[1] In 1967, upon leaving Harvard he was appointed professor in the biochemistry department at the Dartmouth Medical School.^[2] In 1970, Hoagland became scientific director of the Worchester Foundation for Experimental Biology.^[3]

Work

By the time Hoagland had joined Huntington Laboratories, his colleagues there were well-known for their work in protein synthesis. In the early 1950s Hoagland and his associates were able to show that polypeptide synthesis occurs on ribosomes. They did this by giving a rat injections of radioactive amino acids, waiting for a defined period of time, extracting the liver, and examining sub-cellular fractions for radioactivity. He found that after longer periods of times (hours, days) radioactively labeled proteins were present in all subcellular fractions. However, if they allowed less time to pass, radioactivity was found in only certain particles, which they deemed the sites of proteins synthesis. These particles were named ribosomes.

During their experiments with rat liver cells, Hoagland and Zamecnik noticed that in the presence of ATP, amino acids associate with heat soluble RNA, which was later named transfer RNA (tRNA). This amino acid and tRNA complex was later called aminoacyl-tRNA. Hoagland’s major contribution to the laboratory was in his work with amino acid activating enzymes. He discovered that certain enzymes were required to activate amino acids so they could associate with tRNA molecules and eventually be incorporated into new protein molecules. These enzymes were named aminoacyl tRNA synthetases. Incidentally, this lab’s discovery of tRNA supported the theory of complementarity (molecular biology) proposed by Watson and Crick.

Mahlon Hoagland’s other work involved the carcinogenic effects of beryllium, biosynthesis of coenzyme A, as well as liver regeneration and control.^[1]

Notes

Works

• Hoagland, MB et al. "A soluble ribonucleic acid intermediate in protein synthesis.”Journal of Biological Chemistry. 1958 Mar; 231(1):241-57.
• Hoagland, M.B. Toward the Habit of Truth: A life in Science. New York: Norton, 1990.
• Dodson, Bert, and Mahlon Hoagland. The Way Life Works: The Science Lover's Illustrated Guide to How Life Grows, Develops, Reproduces, and Gets Along. New York: Times Books, 1995.

References

• Mahlon Bush Hoagland. Retrieved on 2007-05-11.
• Cox, Michael M.; David L. Nelson. Lehninger Principles of Biochemistry, 4th edition, New York: W.H. Freeman and Company, 1034-1035.