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Phoebus Levene

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Phoebus Levene
Born
Fishel Rostropovich Levin

(1869-02-25)February 25, 1869
Sagor, Russia (now Žagarė, Lithuania)
DiedSeptember 6, 1940(1940-09-06) (aged 71)
NationalityAmerican
EducationImperial Military Medical Academy, St. Petersburg (M.D., 1891)
Columbia University
Known forDiscovery of nucleic acids components
Tetranucleotide hypothesis
AwardsWillard Gibbs Medal (1931)
William H. Nichols Medal (1938)
Scientific career
FieldsBiochemistry
Organic Chemistry
InstitutionsRockefeller Institute of Medical Research
Academic advisorsAleksandr Dianin
Ira van Gieson
Adolf Mayer
Structural formula of a proposed tetranucleotide, later shown to be incorrect. It was proposed by Phoebus Levene around 1910

Phoebus Aaron Theodore Levene (25 February 1869 – 6 September 1940) was a Russian-born American biochemist who studied the structure and function of nucleic acids. He characterized the different forms of nucleic acid, DNA from RNA, and found that DNA contained adenine, guanine, thymine, cytosine, deoxyribose, and a phosphate group.[1]

He was born into a Litvak (Lithuanian Jewish) family as Fishel Rostropovich Levin in the town of Žagarė in Lithuania, then part of the Russian Empire, but grew up in St. Petersburg. There he studied medicine at the Imperial Military Medical Academy (M.D., 1891) and developed an interest in biochemistry. In 1893, because of anti-Semitic pogroms, he and his family emigrated to the United States and he practiced medicine in New York City.

Levene enrolled at Columbia University and in his spare time conducted biochemical research, publishing papers on the chemical structure of sugars. In 1896 he was appointed as an Associate in the Pathological Institute of the New York State Hospitals, but he had to take time off to recuperate from tuberculosis. During this period, he worked with several chemists, including Albrecht Kossel and Emil Fischer, who were the experts in proteins.

In 1905, Levene was appointed as head of the biochemical laboratory at the Rockefeller Institute of Medical Research. He spent the rest of his career at this institute, and it was there that he identified the components of DNA. In 1909, Levene and Walter Jacobs recognised d-ribose as a natural product and an essential component of nucleic acids.[2][3][4] They also recognised that the unnatural sugar that Emil Fischer and Oscar Piloty had reported in 1891[5] was the enantiomer of d-ribose.[4] Levene went on to discover deoxyribose in 1929.[6] Not only did Levene identify the components of DNA, he also showed that the components were linked together in the order phosphate-sugar-base to form units. He called each of these units a nucleotide, and stated that the DNA molecule consisted of a string of nucleotide units linked together through the phosphate groups, which are the 'backbone' of the molecule. His ideas about the structure of DNA were wrong; he thought there were only four nucleotides per molecule. He even declared that it could not store the genetic code because it was chemically far too simple. However, his work was a key basis for the later work that determined the structure of DNA. Levene published over 700 original papers and articles on biochemical structures. Levene died in 1940, before the true significance of DNA became clear.

Levene is known for his tetranucleotide hypothesis[7] which proposed that DNA was made up of equal amounts of adenine, guanine, cytosine, and thymine. Before the later work of Erwin Chargaff, it was widely thought that DNA was organized into repeating tetranucleotides in a way that could not carry genetic information. Instead, the protein component of chromosomes was thought to be the basis of heredity; most research on the physical nature of the gene focused on proteins, and particularly enzymes and viruses, before the 1940s.[8]

Levene was an elected member of both the United States National Academy of Sciences and the American Philosophical Society.[9][10]

Citations

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  1. ^ Levene, P. A. (1919). "The structure of yeast nucleic acid. IV. Ammonia hydrolysis". J. Biol. Chem. 40 (1): 415–424. doi:10.1016/S0021-9258(18)87254-4.
  2. ^ Levene, P. A.; Jacobs, W. A. (1909). "Über Inosinsäure" [About inosic acid]. Berichte der deutschen chemischen Gesellschaft (in German). 42 (1): 1198–1203. doi:10.1002/cber.190904201196.
  3. ^ Levene, P. A.; Jacobs, W. A. (1909). "Über die Pentose in den Nucleinsäuren" [About the pentose in the nucleic acids]. Berichte der deutschen chemischen Gesellschaft (in German). 42 (3): 3247–3251. doi:10.1002/cber.19090420351.
  4. ^ a b Jeanloz, Roger W.; Fletcher, Hewitt G. (1951). "The Chemistry of Ribose". In Hudson, Claude S.; Cantor, Sidney M. (eds.). Advances in Carbohydrate Chemistry. Vol. 6. Academic Press. pp. 135–174. doi:10.1016/S0096-5332(08)60066-1. ISBN 9780080562650. PMID 14894350.
  5. ^ Fischer, Emil; Piloty, Oscar (1891). "Ueber eine neue Pentonsäure und die zweite inactive Trioxyglutarsäure" [About a new pentonic acid and the second inactive trioxyglutaric acid]. Berichte der deutschen chemischen Gesellschaft (in German). 24 (2): 4214–4225. doi:10.1002/cber.189102402322.
  6. ^ Frixione, Eugenio; Ruiz-Zamparripa, Lourdes (2019). "The "scientific catastrophe" in nucleic acids research that boosted molecular biology". Journal of Biological Chemistry. 294 (7): 2249–2255. doi:10.1074/jbc.CL119.007397. PMC 6378961. PMID 30765511.
  7. ^ Levene, P.A. (1909). "Yeast nucleic acid". Biochem. Z. 17: 120–131.
  8. ^ Kay, Lily E. (1992). The Molecular Vision of Life: Caltech, the Rockefeller Foundation, and the Rise of the New Biology. Oxford University Press. pp. 104–116. ISBN 0-19-505812-7.
  9. ^ "Phoebus Levene". www.nasonline.org. Retrieved 2023-08-29.
  10. ^ "APS Member History". search.amphilsoc.org. Retrieved 2023-08-29.

General and cited references

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References for the discovery of ribose and deoxyribose:

  • P. A. Levene and L. W. Bass, Nucleic Acids, The Chemical Catalog Co., NY, 1931, pp 24 (deoxyribose) and 131 (ribose).
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