- Rollin Hotchkiss
Rollin Douglas Hotchkiss (1911 -
December 12 ,2004 ) was an American biochemist who helped to establish the role ofDNA as thegenetic material and contributed to the isolation and purification of the firstantibiotics . His work onbacterial transformation helped lay the groundwork for the field ofmolecular genetics .Philip Siekevitz, " [http://www.ascb.org/files/0502obit.pdf In Memory of Rollin Hotchkiss] ", " ASBC Newsletter", February 2005.]Education
Hotchkiss was born in
South Britain ,Connecticut . The son of factory workers, he attendedYale University after scoring the highest in the nation on anachievement test . Hotchkiss earned a B.S. in chemistry in 1932, and remained at Yale for a Ph.D. in organic chemistry. After completing his doctoral work in 1935, Hotchkiss became a fellow of theRockefeller Institute of Medical Research , where he would remain until retirement in 1982.Cite journal| volume = 170| issue = 4| pages = 1443–1447| last = Witkin| first = Evelyn M.| title = Remembering Rollin Hotchkiss (1911–2004)| journal = Genetics| accessdate = 2008-09-26| date = 2005-08| url = http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=1449782]Research career
At the Rockefeller Institute, Hotchkiss initially worked as an assistant to
Oswald Avery andWalter Goebel , and was encouraged to learn more biology at a summer courses at theMarine Biological Laboratory . His early work isolating and synthesizing derivatives ofglucoronic acid led to the identification of one of the specificpolysaccharide s in the capsule of type IIIpneumococci . Hotchkiss spent the 1937-1938 academic year in the lab ofHeinz Holter andKaj Linderstrøm-Lang atCarlsberg Laboratory learning protein analysis techniques. In 1938, he began collaborating withRené Dubos to isolate and study antibiotics produced by soil bacteria. Their work ongramicidin andtyrocidine led to the first commercial antibiotics, and withFritz Lipmann they found that the antibiotics includeD-amino acids .During the late 1930s, Hotchkiss was also strongly critical of the
Bergann-Niemann hypothesis of protein structure, the proposal by fellow Rockefeller biochemistsMax Bergmann andCarl Niemann that protein structures always consist of multiples of 288 amino acids. (This would also be a feature ofDorothy Wrinch 'scyclol hypothesis of protein stucture). [Lily E. Kay, "The Molecular View of Life: Caltech, The Rockefeller Foundation, and the Rise of the New Biology", Oxford University Press, 1993. p. 115]In 1946, in the wake of the
Avery-MacLeod-McCarty experiment showing that DNA, not protein, had the power to transform bacteria from one type to another, Hotchkiss rejoined Avery's lab. His work on protein analysis helped answer Avery's critics who argued that the experiment was not sufficiently rigorous to rule out protein contamination (and thus the possibility that protein was the transforming factor). Hotchkiss found that virtually all the detected nitrogen in the purified DNA used in for the transformation experiments came fromglycine , a breakdown product of the nucleotide baseadenine , and estimated that undetected protein contamination was at most .02%, although he did not publish this result until 1952 (the year of theHershey-Chase experiment ). In 1948 Hotchkiss usedpaper chromatography to quantify the base composition of DNA and, independently ofErwin Chargaff , found that the base ratios differed from species to species.In 1951, Hotchkiss showed that purified bacterial DNA could be used to transfer
penicillin resistance from one strain of bacteria to another without changing the capsule type (the main identifying feature of different types of the same bacterial species). His subsequent worked helped establish the basics of bacterial genetics, showing that many features of classical genetics (includinggenetic linkage ) have parallels in bacteria, despite their lack ofchromosome s. Hotchkiss continued working in molecular genetics until his retirement in 1982, including significant collaborations withJulius Marmur , Maurice Fox,Alexander Tomasz ,Joan Kent ,Sanford Lacks ,Elena Ottolenghi , and his wifeMagda Gabor-Hotchkiss .In the mid-1960s, Hotchkiss became interested in the potential dangers of
genetic engineering (a term he helped to popularize). Through the early 1970s he articulated many of the concerns that led to the 1975Asilomar Conference on Recombinant DNA .Hotchkiss was a member of the
American Academy of Arts and Sciences and theNational Academy of Sciences (elected in 1961), and served as president of theGenetics Society of America from 1971 to 1972. After leaving Rockefeller University in 1982, he worked as a research professor at theUniversity at Albany, SUNY until retiring toLenox, Massachusetts in 1986. Hotchkiss died December 12, 2004 of congestive heart failure. [Cite news| issn = 0362-4331| last = Pearce| first = Jeremy| title = Dr. Rollin D. Hotchkiss, 93, Is Dead; Did Early Research in Genetics| work = The New York Times| accessdate = 2008-09-26| date = 2004-12-21| url = http://www.nytimes.com/2004/12/21/obituaries/21hotchkiss.html]Notes and references
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