Roger Stanier

Roger Yate Stanier (22 October 1916 – 29 January 1982) was a Canadian microbiologist who was influential in the development of modern microbiology.[1] As a member of the Delft School and former student of C. B. van Niel, he made important contributions to the taxonomy of bacteria, including the classification of blue-green algae as cyanobacteria.[2] In 1957, he and co-authors wrote The Microbial World, an influential microbiology textbook which was published in five editions over three decades.[3] In the course of 24 years at the University of California, Berkeley he reached the rank of professor and served as chair of the Department of Bacteriology before leaving for the Pasteur Institute in 1971.[4] He received several awards over the course of his career, including the Leeuwenhoek Medal. He was a Fellow of the Royal Society and a Foreign Associate of the National Academy of Sciences and the Légion d’Honneur.[1]

Roger Yate Stanier
BornOctober 22, 1916 (1916-10-22)
DiedJanuary 29, 1982 (1982-01-30) (aged 65)
Alma materVictoria College
University of British Columbia
University of California, Los Angeles
Stanford University
Known forCyanobacteria
AwardsEli Lilly and Company-Elanco Research Award (1950)
Carlos J. Finlay Prize for Microbiology (1980)
Leeuwenhoek Medal (1981)
Scientific career
FieldsMicrobiology
InstitutionsUniversity of California, Berkeley
Institut Pasteur
Doctoral advisorC. B. van Niel
Signature

Early life

Roger Yate Stanier was born to British immigrant parents on 22 October 1916 in Victoria, British Columbia, Canada.[4] His father studied medicine at the University of Toronto and later established a private practice in diagnostic radiology. His mother, a teacher, studied English literature at the University of Cambridge.

His early education was at private boarding schools. Beginning at age 7 he attended St. Christopher's School in Victoria, British Columbia for two years, followed by what Stanier described as "five long and hellish years" at Shawnigan Lake School.[5] His father removed him from Shawnigan after he contracted pneumonia, upon his recovery he attended Oak Bay High School until his graduation in 1931 at the age of 15.[5] He then enrolled at the local junior college, Victoria College, where he studied biology, literature, and history.[6] He subsequently transferred to the University of British Columbia (UBC) with the intention to study literature and history. His parents demurred, however, so he settled on bacteriology in order to placate his physician father, ultimately graduating with first-class Honours in bacteriology in 1936.[5]

Because he felt he had had insufficient exposure to the physical sciences at UBC he sought chemistry training at the University of Munich in 1936.[5] The rise of Nazism had poisoned the environment at the university, so he cut short his studies there and decided to attend graduate school in the United States.[6]

Graduate work (1937–1947)

On account of the presence of his friend, Mike Lerner, he chose to enroll in the Department of Bacteriology of the University of California, Berkeley, but he found himself uninterested by the phage research done under A.P. Krueger, and he subsequently accepted a teaching assistantship at the University of California Los Angeles (UCLA) for the 1938–1939 term, his first paid employment.[5] During his time at UCLA, he attended the famous summer course taught by C. B. van Niel at the Hopkins Marine Station in Pacific Grove, California. His experience there drove his decision to pursue general microbiology. After receiving his M.A. from UCLA in 1939 he returned to Pacific Grove as van Niel's student.[4]

After his graduation he worked with Marjory Stephenson at the University of Cambridge as a Guggenheim fellow beginning in 1945.

University of California, Berkeley (1947–1971)

Upon his return to the United States he served a short appointment at the University of Indiana.

In 1946-1947 we had at Indiana Roger Stanier, a marvelous teacher of bacterial biochemistry, a superb lecturer, and an arrogant uncompromising intellectual. Roger was from British Columbia, but English in spirit, an though vocally anti-puritan, emotionally a knot of puritan revolts and inhibitions a delightfully neurotic man. As in Dante’s Inferno Farinata was contemptuous of Hell, so did Roger hold all of Indiana in contempt. From him I began to learn that biochemistry was not just chemistry, but biology. I learned about the power of an integrated view of metabolism and of the subtle interplay between organisms and their environment. Most important, I learned that bacteriology could be as much fun as genetics, if of a different kind of fun.[7]

In 1947 he accepted an invitation to join the Department of Bacteriology of the University of California, Berkeley, where he remained for most of his career.[4]

Institut Pasteur

In 1971 he left Berkeley and moved to Paris, where he worked at the Institut Pasteur for the last decade of his life.[8] He described the reasons for his departure as both academic and political: academic disruptions amid the campus turmoil associated with the Free Speech Movement, then governor Ronald Reagan's ouster of University of California president Clark Kerr, and the election of President Richard Nixon.[5] Along with his wife Germaine, he accepted the invitation of Élie Wollman to take over the former lab space of François Jacob and Jacques Monod, with the stipulation that he be allowed to work on cyanobacteria exclusively.[5][9] He was elected a Fellow of the Royal Society in 1978.[10]

Scientific legacy

Stanier's research career included a diverse variety of research problems bound by a desire to synthesize the general and specific patterns observed in bacteria into a more unified understanding of biology as a whole.[11] Together with C. B. van Niel, Stanier was described by Carl Woese as one of the "only consistently insightful and articulate reporters of the early search for a microbial phylogeny".[12] Stanier participated in Bergey's Manual Trust during its conception.[1] He invented the technique of simultaneous adaption for the analysis of metabolic pathways.[13]

Stanier's work on Cyanobacteria focused on obligate autotrophy, fatty acid composition, structure of phycobiliproteins and phycobilisomes, chromatic adaptation, nitrogen fixation, and their nutrition and taxonomy.[11] He led the proposal to include cyanobacteria, which he called blue-green algae or cyanophytes, within the bacteria rather than consider the cyanobacteria as distinct from bacteria.[14][15]

Stanier also authored an influential textbook, The Microbial World.[1][3] The Microbial World played an important role in the promulgation of the concepts of "prokaryote" and "eukaryote" as negative definitions of Bacteria and Archea.[2][16]

Bibliography

  • Stanier, R. Y. (1980). "The Journey, not the Arrival, Matters". Annual Review of Microbiology. 34: 1–48. doi:10.1146/annurev.mi.34.100180.000245. PMID 6776882.
  • Stanier, R. Y.; Niel, C. B. (1962). "The concept of a bacterium". Archiv für Mikrobiologie. 42: 17–35. doi:10.1007/BF00425185. PMID 13916221. S2CID 29859498.
  • Stanier, Roger Y.; Stanier, Roger Y. Microbial world. (1986). The Microbial world. Englewood Cliffs, N.J.: Prentice-Hall. ISBN 0-13-581042-6.
  • Schachman, H. K.; Pardee, A. B.; Stanier, R. Y. (1952). "Studies on the macro-molecular organization of microbial cells". Archives of Biochemistry and Biophysics. 38: 245–260. doi:10.1016/0003-9861(52)90029-5. PMID 12997099.
  • Stanier, R. Y. (1953). "Adaptation, evolutionary and physiological: or Darwinism among the micro-organisms". Adaptation in micro-organisms. Third Symp. Soc. Gen. Microbiol., London: Cambridge.
  • Stanier, R. Y. (1977). "The position of cyanobacteria in the world of phototrophs". Carlsberg Research Communications. 42 (2): 77–98. doi:10.1007/BF02906487.

References

  1. Goldner, M. (2007). "The genius of Roger Stanier". The Canadian Journal of Infectious Diseases & Medical Microbiology. 18 (3): 193–194. doi:10.1155/2007/823123. ISSN 1712-9532. PMC 2533545. PMID 18923716. open access
  2. Sapp, Jan A. (2009). The new foundations of evolution: on the tree of life. New York: Oxford University Press. ISBN 978-0-19-973438-2.
  3. Stanier, Roger (1986). The Microbial world (5th ed.). Englewood Cliffs N.J.: Prentice-Hall. ISBN 978-0-13-581042-2.
  4. Morris, J. G. (1983). "Roger Yate Stanier, 1916-1982". Journal of General Microbiology. 129 (2): 255–261. doi:10.1099/00221287-129-2-255. PMID 6341503. closed access
  5. Stanier, R. Y. (1980). "The Journey, not the Arrival, Matters". Annual Review of Microbiology. 34: 1–48. doi:10.1146/annurev.mi.34.100180.000245. PMID 6776882. closed access
  6. Clarke, P. H. (1986). "Roger Yate Stanier. 22 October 1916-29 January 1982". Biographical Memoirs of Fellows of the Royal Society. 32: 541–68. doi:10.1098/rsbm.1986.0018. JSTOR 770123. PMID 11621259.
  7. Salvador Luria (1984) A Slot Machine, A Broken Test Tube: an autobiography, page 127, Harper & Row ISBN 0-06-015260-5
  8. University of California (System) Academic Senate (1992). "Roger Yate Stanier, Bacteriology: Berkeley". Calisphere > University of California: In Memoriam, 1992. Retrieved 2012-01-07.
  9. Ullmann, Agnes; Georges N. Cohen; Francois Jacob (September 2001). "Membership". ASM News. Vol. 67, no. 9. Archived from the original on 2012-07-18. Retrieved 2012-01-29.
  10. "Library and Archive catalogue". Royal Society. Retrieved 2012-03-01.
  11. Glazer, A. N. (2001). "Roger Yate Stanier, 1916-1982: A transcendent journey". International Microbiology. 4 (2): 59–66. doi:10.1007/s101230100014. PMID 11770825. S2CID 25753793. closed access
  12. Woese, C. R. (1994). "There must be a prokaryote somewhere: Microbiology's search for itself". Microbiological Reviews. 58 (1): 1–9. doi:10.1128/MMBR.58.1.1-9.1994. PMC 372949. PMID 8177167. open access
  13. Stanier, R. Y. (1947). "Simultaneous Adaptation: A New Technique for the Study of Metabolic Pathways". Journal of Bacteriology. 54 (3): 339–348. doi:10.1128/JB.54.3.339-348.1947. PMC 526558. PMID 16561366.
  14. STANIER, R. Y.; SISTROM, W. R.; HANSEN, T. A.; WHITTON, B. A.; CASTENHOLZ, R. W.; PFENNIG, N.; GORLENKO, V. N.; KONDRATIEVA, E. N.; EIMHJELLEN, K. E.; WHITTENBURY, R.; GHERNA, R. L. (1978). "Proposal to Place the Nomenclature of the Cyanobacteria (Blue-Green Algae) Under the Rules of the International Code of Nomenclature of Bacteria". International Journal of Systematic and Evolutionary Microbiology. 28 (2): 335–336. doi:10.1099/00207713-28-2-335. ISSN 1466-5034.
  15. Edmondson, Yvette H. (1982). "In memoriam - Frank Rigler and Roger Stanier". Limnology and Oceanography. 27 (5): 986. doi:10.4319/lo.1982.27.5.0986. ISSN 1939-5590.
  16. Sapp, Jan (2005). "The Prokaryote-Eukaryote Dichotomy: Meanings and Mythology". Microbiology and Molecular Biology Reviews. 69 (2): 292–305. doi:10.1128/MMBR.69.2.292-305.2005. ISSN 1092-2172. PMC 1197417. PMID 15944457. open access
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