Joan Folkes

Female Nobel Nominee

Joan P. Folkes (born 1927) was a scientist who was nominated for the Nobel Prize in chemistry in 1956.[1] Along with Ernest Gale,[2]: 413  she demonstrated that nucleic acids have an organizing or controlling role in protein synthesis. In his 2005 book, Hans-Jörg Rheinberger discussed the work of Folkes and Gale and how they revealed a connection between the levels of nucleic acids in cells and the rate that proteins were made.[3]: 162 

Folkes and Gale were also the first to demonstrate cell-free protein production in a crude cell extract.[4][5] During this work, they broke open cells of Staphylococcus aureus by vibration and the demonstrated that a template chemical existed, now recognized as DNA, that enables the production of proteins even in the absence of living cells.[6][7] At the time, they called the chemical 'incorporation factors'[8] because they were fragments of nucleic acids that encouraged amino acids to form into proteins.[9]

Career

She worked at the Medical Research Council Unit of Chemical Microbiology in Cambridge, England.[2]: 389 

Selected publications

  • Gale, E. F.; Folkes, Joan P. (1 April 1955). "The assimilation of amino acids by bacteria. 20. The incorporation of labelled amino acids by disrupted staphylococcal cells". Biochemical Journal. 59 (4): 661–675. doi:10.1042/bj0590661. ISSN 0306-3283. PMC 1215633. PMID 14363162.
  • Gale, E. F.; Folkes, Joan P. (1 April 1955). "The assimilation of amino acids by bacteria. 21. The effect of nucleic acids on the development of certain enzymic activities in disrupted staphylococcal cells". Biochemical Journal. 59 (4): 675–684. doi:10.1042/bj0590675. ISSN 0306-3283. PMC 1215634. PMID 14363163.
  • Gale, Ernest F.; Folkes, Joan P. (1955). "Promotion of Incorporation of Amino-acids by Specific Di- and Tri-nucleotides". Nature. 175 (4457): 592–593. Bibcode:1955Natur.175..592G. doi:10.1038/175592a0. ISSN 0028-0836. PMID 14370172. S2CID 4225659.
  • Gale, E. F.; Shepherd, C. J.; Folkes, Joan P. (1958). "Incorporation of Amino-Acids by Disrupted Staphylococcal Cells". Nature. 182 (4635): 592–595. Bibcode:1958Natur.182..592G. doi:10.1038/182592a0. ISSN 0028-0836. PMID 13577915. S2CID 4155672.

References

  1. ^ "Nomination archive". NobelPrize.org. 1 April 2020. Retrieved 4 January 2022.
  2. ^ a b Rheinberger, Hans-Jörg (1996). "Comparing Experimental Systems: Protein Synthesis in Microbes and in Animal Tissue at Cambridge (Ernest F. Gale) and at the Massachusetts General Hospital (Paul C. Zamecnik), 1945-1960". Journal of the History of Biology. 29 (3): 387–416. doi:10.1007/BF00127381. ISSN 0022-5010. JSTOR 4331405. PMID 11618363. S2CID 31015381. Gale...having very few collaborators and technicians (among whom Joan Folkes was the most important during the period that was surveyed here).
  3. ^ Rheinburger, Hans-Jorg (2005). "Ernest F. Gale and Protein Synthesis:The Difficulties of Analysing a Complex System". In Witkowski, Jan (ed.). The inside story : DNA to RNA to protein. Woodbury, N.Y.: Cold Spring Harbor Laboratory Press. pp. 161–169. ISBN 978-0-87969-750-1. In 1952, back in Cambridge, Gale shifted his research agenda. In collaboration with his skilled technician Joan P. Folkes, he began to focus on the relationships between nucleic acids and protein synthesis.
  4. ^ Gale, E. F.; Folkes, J. P. (26 June 1954). "Effect of nucleic acids on protein synthesis and amino-acid incorporation in disrupted staphylococcal cells". Nature. 173 (4417): 1223–1227. Bibcode:1954Natur.173.1223G. doi:10.1038/1731223a0. ISSN 0028-0836. PMID 13176417. S2CID 4168382.
  5. ^ Chicago : Spencer Press (1951). The American peoples encyclopedia yearbook: 1955 (events of 1954). Chicago: Spencer Press. p. 219. A duplication of some of the chemical properties of life outside living cells was demonstrated by Drs. E.F. Gale and Joan P. Folkes of the University of Cambridge, England.
  6. ^ "Duplicating Life Chemicals". The Science News-Letter. 66 (4): 50. 1954. ISSN 0096-4018. JSTOR 3934208. The research team, Dr. E.F. Gale and Joan P. Folkes of the Medical Research Country Unit for Chemical Microbiology, report their experimental work on protein synthesis at the University of Cambridge, England.
  7. ^ "Protein Factory". Scientific American. 191 (4). Nature America, Inc.: 49 1954.
  8. ^ Lorenzano, Pablo; Rheinberger, Hans-Jörg; Galles, Eduardo Ortiz and Carlos Delfino (27 September 2010). HISTORY AND PHILOSOPHY OF SCIENCE AND TECHNOLOGY -Volume II. EOLSS Publications. p. 19. ISBN 978-1-84826-324-6.
  9. ^ Nierhaus, Knud H.; Wilson, Daniel (10 July 2009). Protein Synthesis and Ribosome Structure: Translating the Genome. John Wiley & Sons. p. 20. ISBN 978-3-527-61638-1.



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