Biology:Leeuwenhoek Lecture

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Short description: Prize lecture of the UK's Royal Society
Leeuwenhoek Lecture and Medal
Anthonie van Leeuwenhoek (1632-1723). Natuurkundige te Delft Rijksmuseum SK-A-957.jpeg
The Leeuwenhoek Lecture and Medal is named in honour of the scientist Antonie van Leeuwenhoek (1632–1723)
LocationLondon
Presented byRoyal Society
Reward(s)£2000 and Medal
Websiteroyalsociety.org/grants-schemes-awards/awards/leeuwenhoek-lecture/

The Leeuwenhoek Lecture is a prize lecture of the Royal Society to recognize achievement in microbiology.[1] The prize was originally given in 1950 and awarded annually, but from 2006 to 2018 was given triennially. From 2018 it will be awarded biennially.

The prize is named after the Dutch microscopist Antonie van Leeuwenhoek and was instituted in 1948 from a bequest from George Gabb. A gift of £2000 is associated with the lecture.[1]

Leeuwenhoek Lecturers

The following is a list of Leeuwenhoek Lecture award winners along with the title of their lecture:[2]

21st Century

  • 2024 Joanne Webster, for her achievements in advancing control of disease in humans and animals caused by parasites in Asia and Africa
  • 2022 Sjors Scheres, for ground-breaking contributions and innovations in image analysis and reconstruction methods in electron cryo-microscopy, enabling the structure determination of complex macromolecules of fundamental biological and medical importance to atomic resolution
  • 2020 Geoffrey L. Smith, for his studies of poxviruses which has had major impact in wider areas, notably vaccine development, biotechnology, host-pathogen interactions and innate immunity [3]
  • 2018 Sarah Cleaveland, Can we make rabies history? Realising the value of research for the global elimination of rabies[4][5][6]
  • 2015 Jeffrey Errington, for his seminal discoveries in relation to the cell cycle and cell morphogenesis in bacteria
  • 2012 Brad Amos, How new science is transforming the optical microscope
  • 2010 Robert Gordon Webster, Pandemic Influenza: one flu over the cuckoo's nest
  • 2006 Richard Anthony Crowther, Microscopy goes cold: frozen viruses reveal their structural secrets.[7]
  • 2005 Keith Chater, Streptomyces inside out: a new perspective on the bacteria that provide us with antibiotics.
  • 2004 David Sherratt, A bugs life
  • 2003 Brian Spratt, Bacterial populations and bacterial disease
  • 2002 Stephen West, DNA repair from microbes to man
  • 2001 Robin Weiss, From Pan to pandemic: animal to human infections[8]

20th Century

  • 2000 Howard Dalton, The natural and unnatural history of methane-oxidising bacteria[9]
  • 1999 Peter C. Doherty, Killer T cells and virus infections
  • 1998 George A.M. Cross, The genetics and cell biology of antigenic variation in trypanosomes
  • 1997 Peter Biggs, Mareks disease, tumours and prevention[10]
  • 1996 Julian Davies, Microbial molecular diversity - function, evolution and applications
  • 1995 John Guest, Adaptation to life without oxygen[11]
  • 1994 Keith Vickerman, The opportunistic parasite
  • 1993 Fred Brown, Peptide vaccines, dream or reality.[12]
  • 1992 John Postgate, Bacterial evolution and the nitrogen-fixing plant
  • 1991 Harry Smith, The influence of the host on microbes that cause disease[13]
  • 1990 John Skehel, How enveloped viruses enter cells
  • 1989 Piet Borst, Antigenic variation in African trypanosomes
  • 1988 Alfred Rupert Hall, Antoni van Leeuwenhoek (1632-1723) and Anglo-Dutch collaboration
  • 1987 David Alan Hopwood, Towards an understanding of gene switching in streptomyces, the basis of sporulation and antibiotic production[14]
  • 1986 William Fleming Hoggan Jarrett, Environmental carcinogens and paillomaviruses in the pathogenesis of cancer.[15]
  • 1985 Kenneth Murray, A molecular biologist's view of viral hepatitis[16]
  • 1984 William Duncan Paterson Stewart, The functional organisation of nitrogen-fixing cyanobacteria.
  • 1983 Michael Anthony Epstein, A prototype vaccine to prevent Epstein-Barr (E.B.) virus-associated tumours.[17]
  • 1982 Hamao Umezawa, Studies of microbial products in rising to the challenge of curing cancer[18]
  • 1981 Frank William Ernest Gibson, The biochemical and genetic approach to the study of bioenergetics with the use of Escherichia coli: progress and prospects.[19]
  • 1980 David Arthur John Tyrrell, Is it a virus?[20]
  • 1979 Patricia Hannah Clarke, Experiments in microbial evolution: new enzymes, new metabolic activities.
  • 1978 Hugh John Forster Cairns, Bacteria as proper subjects for cancer research.[21]
  • 1977 Francois Jacob, Mouse teratocarcinoma and mouse embryo.[22]
  • 1976 Geoffrey Herbert Beale, The varied contributions of protozoa to genetical knowledge[23]
  • 1975 Joel Mandelstam, Bacterial sporulation: a problem in the biochemistry and genetics of a primitive development system.[24]
  • 1974 Renato Dulbecco, The control of cell growth regulation by tumour-inducing viruses: a challenging problem.
  • 1973 Aaron Klug, The structure and assembly of regular viruses
  • 1972 Hans Leo Kornberg, Carbohydrate transport by micro-organisms
  • 1971 Michael George Parke Stoker, Tumour viruses and the sociology of fibroblasts[25]
  • 1970 Philip Herries Gregory, Airborne microbes: their significance and distribution
  • 1969 Jacques Lucien Monod, Cellular and molecular cybernetics.
  • 1968 Gordon Elliott Fogg, The physiology of an algal nuisance
  • 1967 James Baddiley, Teichoic acids and the molecular structure of bacterial walls[26]
  • 1966 Percy Wragg Brian, Obligate parasitism in fungi[27]
  • 1965 William Hayes, Some controversial aspects of bacterial sexuality[28]
  • 1964 Donald Devereux Woods, A pattern of research with two bacterial growth factors
  • 1963 Norman Wingate Pirie, The size of small organisms
  • 1962 Guido Pontecorvo, Microbial genetics: achievements and prospects[29]
  • 1961 Frank John Fenner, Interactions between poxviruses
  • 1960 Andre Michel Lwoff, Viral functions
  • 1959 Frederick Charles Bawden, Viruses: retrospect and prospect
  • 1958 David Keilin, The problem of anabiosis or latent life: history and current concepts[30]
  • 1957 Wilson Smith, Virus-host cell interactions
  • 1956 Ernest Frederick Gale, The biochemical organization of the bacterial cell
  • 1955 Henry Gerard Thornton, The ecology of micro-organisms in soil.
  • 1954 Juda Hirsch Quastel, Soil metabolism
  • 1953 Kenneth Manley Smith, Some aspects of the behaviour of certain viruses in their hosts and of their development in the cell.
  • 1952 Albert Jan Kluyver, The changing appraisal of the microbe
  • 1951 Christopher Howard Andrewes, The place of viruses in nature[31]
  • 1950 Paul Gordon Fildes, The development of microbiology.[32]

References

  1. 1.0 1.1 "Leeuwenhoek Medal and Lecture". The Royal Society. https://royalsociety.org/grants-schemes-awards/awards/leeuwenhoek-lecture/. 
  2. "Award winners: Leeuwenhoek Lecture". The Royal Society. https://docs.google.com/spreadsheets/d/1dsunM9ukGLgaW3HdG9cvJ_QKd7pWjGI0qi_fCb1ROD4/pubhtml?gid=2132780320&single=true. 
  3. "Leeuwenhoek Medal and Lecture winner 2020". Royal Society. https://royalsociety.org/grants-schemes-awards/awards/leeuwenhoek-lecture/. 
  4. Cleaveland, Sarah; Hampson, Katie (2017). "Rabies elimination research: juxtaposing optimism, pragmatism and realism". Proceedings of the Royal Society B: Biological Sciences 284 (1869): 20171880. doi:10.1098/rspb.2017.1880. ISSN 0962-8452. PMID 29263285. 
  5. The Royal Society (20 April 2018). "Can we make rabies history? Realising the value of research for the global elimination of rabies". YouTube. https://www.youtube.com/watch?v=cK5eOqfzB0c. 
  6. "Can we make rabies history? Realising the value of research for the global elimination of rabies. - Royal Society". https://royalsociety.org/science-events-and-lectures/2018/04/leeuwenhoek-lecture/. 
  7. Crowther RA (2008). "The Leeuwenhoek lecture 2006. Microscopy goes cold: frozen viruses reveal their structural secrets". Proceedings of the Royal Society 363 (1502): 2441–51. doi:10.1098/rstb.2007.2150. PMID 17690055. 
  8. Weiss RA (2001). "The Leeuwenhoek Lecture 2001. Animal origins of human infectious disease". Proceedings of the Royal Society 356 (1410): 957–77. doi:10.1098/rstb.2001.0838. PMID 11405946. 
  9. Dalton H (2005). "The Leeuwenhoek Lecture 2000 the natural and unnatural history of methane-oxidizing bacteria". Proceedings of the Royal Society 360 (1458): 1207–22. doi:10.1098/rstb.2005.1657. PMID 16147517. 
  10. Biggs PM (1997). "The Leeuwenhoek Lecture, 1997. Marek's disease herpesvirus: oncogenesis and prevention". Proceedings of the Royal Society 352 (1364): 1951–62. doi:10.1098/rstb.1997.0181. PMID 9451743. Bibcode1997RSPTB.352.1951B. 
  11. Guest JR (1995). "The Leeuwenhoek Lecture, 1995. Adaptation to life without oxygen". Proceedings of the Royal Society 350 (1332): 189–202. doi:10.1098/rstb.1995.0152. PMID 8577859. Bibcode1995RSPTB.350..189G. 
  12. Brown F (1994). "The Leeuwenhoek Lecture, 1993. Peptide vaccines: dream or reality?". Proceedings of the Royal Society 344 (1308): 213–9. doi:10.1098/rstb.1994.0062. PMID 7521966. 
  13. Smith H (1991). "The Leeuwenhoek Lecture, 1991. The influence of the host on microbes that cause disease". Proceedings of the Royal Society 246 (1316): 97–105. doi:10.1098/rspb.1991.0130. PMID 1685245. Bibcode1991RSPSB.246...97S. 
  14. Hopwood DA (1988). "The Leeuwenhoek lecture, 1987. Towards an understanding of gene switching in Streptomyces, the basis of sporulation and antibiotic production". Proceedings of the Royal Society 235 (1279): 121–38. doi:10.1098/rspb.1988.0067. PMID 2907142. Bibcode1988RSPSB.235..121H. 
  15. Jarrett WF (1987). "The Leeuwenhoek lecture, 1986. Environmental carcinogens and papillomaviruses in the pathogenesis of cancer". Proceedings of the Royal Society 231 (1262): 1–11. doi:10.1098/rspb.1987.0031. PMID 2888116. Bibcode1987RSPSB.231....1J. 
  16. Murray K (1987). "The Leeuwenhoek lecture, 1985. A molecular biologist's view of viral hepatitis". Proceedings of the Royal Society 230 (1259): 107–46. doi:10.1098/rspb.1987.0013. PMID 2884666. Bibcode1987RSPSB.230..107M. 
  17. Epstein MA (1984). "The Leeuwenhoek lecture, 1983. A prototype vaccine to prevent Epstein-Barr virus-associated tumours". Proceedings of the Royal Society 221 (1222): 1–20. doi:10.1098/rspb.1984.0019. PMID 6144103. Bibcode1984RSPSB.221....1E. 
  18. Umezawa H (1983). "The Leeuwenhoek lecture, 1982. Studies of microbial products in rising to the challenge of curing cancer". Proceedings of the Royal Society 217 (1209): 357–76. doi:10.1098/rspb.1983.0015. PMID 6190183. Bibcode1983RSPSB.217..357U. 
  19. Gibson F (1982). "The Leeuwenhoek Lecture, 1981. The biochemical and genetic approach to the study of bioenergetics with the use of Escherichia coli: progress and prospects". Proceedings of the Royal Society 215 (1198): 1–18. doi:10.1098/rspb.1982.0025. PMID 6127694. Bibcode1982RSPSB.215....1G. 
  20. Tyrrell DA (1981). "The Leeuwenhoek Lecture, 1980. Is it a virus?". Proceedings of the Royal Society 212 (1186): 35–51. doi:10.1098/rspb.1981.0023. PMID 6115389. Bibcode1981RSPSB.212...35T. 
  21. Cairns J (1980). "The Leeuwenhoek Lecture, 1978. Bacteria as proper subjects for cancer research". Proceedings of the Royal Society 208 (1171): 121–33. doi:10.1098/rspb.1980.0046. PMID 6105653. Bibcode1980RSPSB.208..121C. 
  22. Jacob F (1978). "The Leeuwenhoek Lecture, 1977. Mouse teratocarcinoma and mouse embryo". Proceedings of the Royal Society 201 (1144): 249–70. doi:10.1098/rspb.1978.0044. PMID 27802. Bibcode1978RSPSB.201..249J. 
  23. Beale GH (1977). "The Leeuwenhoek lecture, 1976: protozoa and genetics". Proceedings of the Royal Society 196 (1122): 13–27. doi:10.1098/rspb.1977.0026. PMID 15271. Bibcode1977RSPSB.196...13B. 
  24. Mandelstam J (1976). "The Leeuwenhoek lecture, 1975: bacterial sporulation: a problem in the biochemistry and genetics of a primitive developmental system". Proceedings of the Royal Society 193 (1111): 89–106. doi:10.1098/rspb.1976.0033. PMID 5735. Bibcode1976RSPSB.193...89M. 
  25. Stoker MG (1972). "The Leeuwenhoek lecture, 1971. Tumour viruses and the sociology of fibroblasts". Proceedings of the Royal Society 181 (1062): 1–17. doi:10.1098/rspb.1972.0038. PMID 4402333. Bibcode1972RSPSB.181....1S. 
  26. Baddiley J (1968). "The Leeuwenhoek lecture, 1967. Teichoic acids and the molecular structure of bacterial walls". Proceedings of the Royal Society 170 (1021): 331–48. doi:10.1098/rspb.1968.0043. PMID 4385583. Bibcode1968RSPSB.170..331B. 
  27. Brian, P.W. (1967). "The Leeuwenhoek Lecture, 1966 - Obligate parasitism in fungi". Proceedings of the Royal Society of London. Series B. Biological Sciences 168 (1011): 101–118. doi:10.1098/rspb.1967.0054. ISSN 2053-9193. PMID 4384051. Bibcode1967RSPSB.168..101B. 
  28. Hayes W (1966). "The Leeuwenhoek lecture, 1965. Some controversial aspects of bacterial sexuality". Proceedings of the Royal Society 165 (998): 1–19. doi:10.1098/rspb.1966.0055. PMID 4380148. Bibcode1966RSPSB.165....1H. 
  29. Pontecorvo, Guido (1963). "The Leeuwenhoek Lecture - Microbial genetics: retrospect and prospect". Proceedings of the Royal Society of London. Series B. Biological Sciences 158 (970): 1–23. doi:10.1098/rspb.1963.0031. ISSN 2053-9193. Bibcode1963RSPSB.158....1P. 
  30. Keilin, David (1959). "The Leeuwenhoek Lecture - The problem of anabiosis or latent life: history and current concept". Proceedings of the Royal Society of London. Series B. Biological Sciences 150 (939): 149–191. doi:10.1098/rspb.1959.0013. ISSN 2053-9193. Bibcode1959RSPSB.150..149K. 
  31. Andrewes, C. H. (1952). "Leeuwenhoek Lecture - The place of viruses in nature". Proceedings of the Royal Society of London. Series B. Biological Sciences 139 (896): 313–326. doi:10.1098/rspb.1952.0015. ISSN 2053-9193. Bibcode1952RSPSB.139..313A. 
  32. Fildes P (1951). "Leeuwenhoek lecture; the evolution of microbiology". Proceedings of the Royal Society 138 (890): 65–74. doi:10.1098/rspb.1951.0005. PMID 14827867. Bibcode1951RSPSB.138...65F. 



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