Michael Smith (chemist)

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Michael Smith
Michael Smith
Born(1932-04-26)26 April 1932[2]
Blackpool, England
Died4 October 2000(2000-10-04) (aged 68)
Vancouver, British Columbia, Canada
NationalityCanadian
Alma materUniversity of Manchester (BSc, PhD)
Known forSite-directed mutagenesis
Awards
Scientific career
FieldsChemistry
Institutions
ThesisStudies in the stereochemistry of diols and their derivatives (1956)
Websitewww.nobelprize.org/nobel_prizes/chemistry/laureates/1993/smith-facts.html

Michael Smith

BC Cancer Research Centre
.

Education and early life

Smith was born April 26, 1932, in

Canadian citizen in 1963. Smith married Helen Wood Christie on August 6, 1960, on Vancouver Island, BC, Canada. The couple had three children (Tom, Ian and Wendy) and three grandchildren, but separated in 1983. In his later years, Smith lived with his partner Elizabeth Raines in Vancouver until his death on October 4, 2000.[5][6]

Smith first attended St. Nicholas Church of England School, a state-run elementary school. At the time, few children from state schools in England went on to further academic education, however Smith did well in the

PhD in 1956 for research into the stereochemistry of diols.[4][5][6][7]

Career

Researcher

Smith's research career began with a post-doctoral fellowship at the British Columbia Research Council under the supervision of Khorana, who was developing new techniques of synthesizing

proteins that constituted an organism. In 1960, when Khorana was offered and accepted a university position with excellent laboratory facilities in the Institute for Enzyme Research[8] at the University of Wisconsin–Madison
, Smith moved with him.

After a few months in Wisconsin, Smith returned to Vancouver as a senior scientist and head of the Chemistry Division with the Vancouver Technological Station of the Fisheries Research Board (FRB) of Canada. In this role he conducted studies on the feeding habits and survival of spawning salmon, as well as identification of olfactory stimuli guiding salmon to their birth stream. His main research interest, however, continued to be nucleic acid synthesis, for which he received a United States Public Health Service Research Grant.

Concurrently with conducting research for FRB, Smith held the positions of associate professor at the

Medical Research Council of Canada
, working within UBC's Department of Biochemistry.

Smith's particular area of interest remained the synthesis of oligonucleotides and the characterization of their properties. In 1975–1976, a sabbatical at the

genomes and methods of sequencing
large DNA molecules. He returned from England as one of the world's leading molecular biologists.

Smith and his team began to investigate possibility of the creation of mutations of any site within a viral genome. If possible, this process could be an efficient method to engineer heritable changes in genes. Finally, in 1977 they confirmed Smith's theory.[5]

Site-specific Mutagenesis

In the late 1970s, Smith concentrated on projects in molecular biology and how the genes within the DNA molecule act as reservoirs and transmitters of biological information. In 1978, Smith, in collaboration with former

Fred Sanger lab sabbatical colleague Clyde A. Hutchison III,[11]
introduced a new technique known as "oligonucleotide-directed site-directed mutagenesis" into molecular biology, resolving the problem of how to efficiently determine the effect of a single mutant gene. They developed a synthetic DNA technique for introducing site-specific mutations into genes. This permitted comparison of different protein molecules, revealing the role of the initial mutation.

The new technology enabled rapid identification and deliberate alteration of genes for the purpose of changing the characteristics of an organism. It raised the level of possibility of new diagnostic strategies and new treatments for genetic diseases, and even creation of novel artificial forms of life, as the progenitor technique for

Synthetic Biology
.

The team's paper describing site-directed mutagenesis was published as "Mutagenesis at a Specific Position in a DNA Sequence" in the

hemophilia; determine the characteristics of protein receptors at neurotransmitter binding sites and design analogs with novel pharmaceutical properties; examine the viral proteins involved in immunodeficiency disease; and improve the properties of industrial enzymes used in food science and technology.[7]

Administrator

Smith was an administrator in 1981 at the Faculty of Medicine elected representative to the UBC Senate. He served on the advisory committee of the Canadian Institute for Advanced Research Evolutionary Biology Program and on the Biotechnology Sector Committee of British Columbia. 1982 Smith launched the Centre for Molecular Genetics in the Faculty of Medicine and became its director in 1986. He was the interim scientific director of the UBC Biomedical Research Centre in 1991.

Biotechnology Laboratory and PENCE

In 1987, the Biotechnology Laboratory, one of three provincial "Centres of Excellence" was established at UBC. The new facility subsumed the Centre for Molecular Genetics, and Smith became its director. He played an important role in drawing together scientists, and in writing the proposal for what would become the "Protein Engineering Network of Centres of Excellence" or PENCE.

Genome Sequence Centre

Throughout the 1980s, Smith and his colleagues at the Canadian Institute for Advanced Research advocated for the establishment of a facility that would enable Canada to play a part in what had become known as the Human Genome Project. Eventually, funding was secured from the BC Cancer Agency and in 1999 the Genome Sequence Centre was established with a mandate to develop and deploy genomics technologies in support of the life sciences, and in particular cancer research. The Genome Sciences Centre also provided technology to Genome Canada and Genome BC projects in the areas of human health, the environment, forestry, agriculture, and aquaculture.[12]

Commercial ventures

In 1981 Smith ventured into the business world as a pharmaceutical entrepreneur. In collaboration with Professors

Bristol-Myers Squibb.[when?
] Further applications of recombinant DNA are found in human and veterinary medicine, in agriculture, and in bioengineering.

Awards and honours

Smith received many awards in addition to the Nobel Prize, and was known for his generosity. He donated half of the Nobel Prize money to researchers working on the genetics of

BC Cancer Foundation.[16][17]

Michael Smith, Nobel prize winner, party at Mary Vickers's house, 1994.
Michael Smith, Nobel prize winner, party at Mary Vickers's house, 1994.

Recognition of his achievements also included several honorary degrees.[5] The following are named in Smith's honour:

  • 2001 Michael Smith Foundation for Health Research founded[24]
  • 2004 UBC Biotechnology Laboratories was renamed the Michael Smith Laboratories[17]
  • 2004 Canada's Michael Smith Genome Sciences Centre named in his honour
  • 2004 University of Manchester named its new biological sciences research centre the Michael Smith Building[25]
  • 2005 Opening of the Smith-Yuen Apartments in Vancouver[26]

His certificate of election to the Royal Society reads:

He has made many contributions to the chemistry and molecular biology of nucleotides and polynucleotides. With nucleotides these include developing general procedures for synthesis of nucleoside 5'-mono- and polyphosphates, and 3'-5' cyclic phosphates. With polynucleotides he has developed new methods for chemical and enzymatic synthesis of oligodeoxyribonucleotides; devised more convenient strategies for sequence determination and determined the sequences of phage and yeast genes; pioneered application of synthetic oligodeoxyribonucleotides to problems in molecular biology including their use as probes in gene isolation, as primers in sequencing double-stranded DNA and mRNA, and most importantly, as specific mutagens in site-directed mutagenesis.[19]

References

  1. ^
    S2CID 72745564
    .
  2. ^
    PMID 11147530
    .
  3. PMID 12839073
    .
  4. ^
    EThOS uk.bl.ethos.488357
    .
  5. ^
    ISBN 1553800141
  6. ^ a b Michael Smith on Nobelprize.org Edit this at Wikidata, accessed 11 October 2020
  7. ^ a b "Michael Smith, Canadian Chemist". Encyclopædia Britannica. 30 September 2023.
  8. ^ Institute for Enzyme Research. from UW-Madison School of Education Bulletin.
  9. ISSN 0080-4606
    .
  10. ^ Biology, ©2023 MRC Laboratory of Molecular; Avenue, Francis Crick; Campus, Cambridge Biomedical; CB2 0QH, Cambridge; Uk. 01223 267000. "Fast Facts". MRC Laboratory of Molecular Biology. Retrieved 2023-07-14.{{cite web}}: CS1 maint: numeric names: authors list (link)
  11. ^
    PMID 681366.{{cite journal}}: CS1 maint: multiple names: authors list (link) CS1 maint: numeric names: authors list (link
    )
  12. ^ National Post August 16, 2006
  13. ^ "Earl W. Davie". American Society of Hematology.
  14. ^ "Michael Smith Laboratories -About Us – Dr. Michael Smith". 26 July 2018. Retrieved 2021-02-07.
  15. ^ Royal Bank Award
  16. ^ "Michael Smith: Organic Chemistry, Won the Nobel Prize in chemistry in 1993 for discovering site-directed mutagenesis". science.ca.
  17. ^ a b "Michael Smith Laboratories". University of British Columbia.
  18. ^ Jacob Biely Faculty Research Prize
  19. ^ a b "Certificate of Election and Candidature: EC/1986/33, Michael Smith". London: The Royal Society. Archived from the original on 2019-07-08.
  20. ^ UBC Killam Research Prize
  21. ^ Ernest C. Manning Awards
  22. American Academy of Achievement
    .
  23. ^ Hives, Christopher. "Michael Smith fonds" (PDF). library.ubc.ca. Archived from the original (PDF) on 2015-07-03. Retrieved 9 December 2014.
  24. ^ "Michael Smith Foundation for Health Research". msfhr.org.
  25. ^ "Faculty of Life Sciences, Michael Smith Building". University of Manchester. Archived from the original on 2015-06-27.
  26. ^ "New Affordable Housing for Seniors in DTES" (PDF). Canadian Mortgage News. December 2, 2005. Retrieved April 21, 2019.[dead link]

External links

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