Sidney Altman

@Molecular Biologists, Facts and Life

Sidney Altman is a Canadian-American molecular biologist who was bestowed with the Nobel Prize in Chemistry in 1989

May 7, 1939

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Biography

Personal Details

  • Birthday: May 7, 1939
  • Nationality: Canadian, American
  • Famous: Massachusetts Institute Of Technology, Scientists, Biologists, Molecular Biologists
  • Spouses: Ann Korner (m. 1972; 2 children)
  • Childrens: Daniel, Leah
  • Universities:
    • Massachusetts Institute Of Technology (MIT)
    • MIT
    • University of Colorado at Boulder
  • Notable Alumnis:
    • Massachusetts Institute Of Technology (MIT)

Sidney Altman born at

Montreal, Quebec, Canada

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Birth Place

Altman tied the nuptial knot with Ann M Korner in 1972. She was the daughter of Stephan Korner. The couple was blessed with two children, Daniel and Leah.

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Personal Life

In 1984, Altman became a US citizen and since then, he is a citizen of both Canada and America.

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Personal Life

Sidney Altman was born on May 7, 1939 in Montreal, Quebec, Canada to Ray Arlin and Victor Altman. Both his parents were Eastern European immigrants to Canada. His mother worked as a textile worker, while his father was a grocer. He had an elder brother.

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Childhood & Early Life

Since childhood, Altman knew the importance of education. He read voraciously and found an early interest in science. By the time he completed his high school, his family had secured for itself a safe financial future which allowed him to study further.

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Childhood & Early Life

Completing high school, he moved to the United States where he enrolled at the Massachusetts Institute of Technology. In 1960, he obtained his Bachelor’s degree. In his final year at MIT, he took a short introductory course in molecular biology that familiarized him with nucleic acids and molecular genetics, thus preparing him for future endeavours in the subject.

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Childhood & Early Life

Following his bachelor’s, Altman spent the next 18 months as a graduate student of physics at Columbia University. However, he left the program mid-way due to personal concerns and lack of lab opportunity for beginning graduate students

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Childhood & Early Life

Altman next enrolled as a graduate student in biophysics at the University of Colorado Medical Center. Therein, he studied the effect of acridines on the replication of bacteriophage T4 DNA.

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Childhood & Early Life

At Harvard, he joined American molecular biologist Matthew Meselson's laboratory, here he conducted research on bacteriophages. He studied DNA endonuclease involved in the replication and recombination of T4 DNA.

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Career

After his stint at Harvard, he became a researcher at the Medial Research Council Laboratory of Molecular Biology in Cambridge, England. It was at Cambridge that he collaborated with British biophysicist Francis Crick and South African biologist Sydney Brenner

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Career

While at Cambridge, Altman started the work that led to the discovery of RNase P and the enzymatic properties of the RNA subunit of that enzyme. It was the advice of John D. Smith and several other postdoctoral colleagues that helped him test his ideas.

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Career

In 1971, Altman secured the post of an assistant professor at Yale University. His career at Yale followed a typical standard academic pattern as he moved up the ranks to become a Professor in 1980. From 1983 to 1985, he served as the Department Chairman. In 1985, he became the Dean of Yale College, a position he served until 1989. On July 1989, he returned to serve as a full-time professor.

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Career

It was during his academic years at Yale that Altman came up with his Nobel Prize winning work. He analysed the catalytic properties of the ribozyme RNase P, a ribonucleoprotein particle consisting of both a structural RNA molecule and one (in prokaryotes) or more (in eukaryotes) proteins. Initially he believed that the protein subunit was responsible for the catalytic activity of the complex, which is involved in the maturation of tRNAs in the bacterial RNase P complex

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Career

Altman’s most important discovery came when he was at Yale University. Prior to his discovery the scientific world lived under the assumption that the triggering and acceleration of vital chemical reactions within living cells was due to protein molecules. It was after his revolutionary discovery that the world came to know that RNA, originally thought as a passive carrier of genetic codes between different parts of the living cell, was actually performing active enzymatic functions. RNA itself had catalytic properties. This discovery gained him the prestigious Nobel Prize in chemistry

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Major Works