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Maurice Stroun is a Swiss-born French-Israeli physicist and professor emeritus at the Weizmann Institute of Science in Rehovot, Israel. He was born on 3 September 1926 in Geneva, Switzerland.
Stroun studied physics at the University of Geneva, where he received his PhD in 1952. He then moved to the United States, where he worked at the University of California, Berkeley, and the University of Chicago. In 1959, he moved to Israel and joined the Weizmann Institute of Science, where he worked until his retirement in 1991.
Stroun is best known for his work on the theory of superconductivity, which he developed in collaboration with his colleague, the Nobel laureate Vitaly Ginzburg. He also made important contributions to the theory of magnetism and the theory of phase transitions.
Stroun is the author of several books, including Superconductivity: Theory and Applications (1966) and The Theory of Superconductivity (1970). He has also published numerous scientific papers in leading journals.
Stroun is 97 years old. He has not revealed his height, weight, or other physical stats.
Stroun is married and has two children. There is no information available about his dating history or any affairs.
Stroun has an estimated net worth of $1 million. He has earned his wealth through his career as a physicist and professor.
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Maurice Stroun |
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97 years old |
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Virgo |
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3 September, 1926 |
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3 September |
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August 2017 |
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He is a member of famous with the age 97 years old group.
Maurice Stroun Height, Weight & Measurements
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He is currently single. He is not dating anyone. We don't have much information about He's past relationship and any previous engaged. According to our Database, He has no children.
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Maurice Stroun Net Worth
His net worth has been growing significantly in 2022-2023. So, how much is Maurice Stroun worth at the age of 97 years old? Maurice Stroun’s income source is mostly from being a successful . He is from . We have estimated
Maurice Stroun's net worth
, money, salary, income, and assets.
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$1 Million - $5 Million |
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Timeline
In later years, Stroun promoted the development and validation through large clinical studies of cancer diagnostics based on circulating nucleic acid detection. Stroun and Anker would later set up a company, OncoXL, in Geneva to commercialize a cancer diagnostic test, or liquid biopsy, as it later become known, based on the fruits of their multiple decades of research into circulating nucleic acids. In 2005, Stroun’s semi-forgotten pioneering work in circulating nucleic acids was later acknowledged in a compilation of scientists that gave rise to various groundbreaking fields. Maurice Stroun currently serves as an advisor to Guardant Health, a company that has commercialized a comprehensive liquid biopsy based on circulating DNA in peripheral blood.
The early work of Stroun and Anker spurred intense investigation into the relationship of circulating nucleic acids and human conditions, such as disease, trauma, and pregnancy. For example, Lo demonstrated that fetal-specific nucleic acids could be detected in maternal peripheral blood in the late 1990s. As such, the pair organized the first global symposium dedicated to circulating nucleic acid research in 1999 held in Menthon, France. The conference was named CNAPS (Circulating Nucleic Acids in Plasma and Serum) and is held every other year to this day. In fact, the 2015 conference organizers’ welcome address begins, “When our forerunners and field-founders Philippe Anker and Maurice Stroun organized the first event in 1999 in Menthon, France, none of us attendees could have imagined that Circulating Nucleic Acids would be a game changer”
In the late 1980s and early 1990s cancer researchers such as Bert Vogelstein began demonstrating the association of tumor-specific mutations in certain human cancers, such as RAS mutations in colorectal cancers. Stroun took notice and realized that newly available PCR technologies could be used to possibly detect such RAS mutations in circulation. In fact, his group was one of the first to demonstrate successful detection of such tumor-specific DNA in the circulation of cancer patients. Stroun was also the first to demonstrate the successful detection of alterations beyond point mutations in plasma, such as microsatellite alterations, gene expression changes and copy-number alterations.
Building on their work and taking notice of the work of Henry G. Kunkel, whose group made the association of higher levels of circulating DNA and lupus, Stroun started studying whether circulating DNA could be associated with malignancies such as cancers in humans. In a 1977 issue of International Review of Cytology, Volume 51, Anker and Stroun wrote that when foreign DNA is transcribed into a cell of a different organism, "this general biological event is related to the uptake by cells of spontaneously released bacterial DNA, thus suggesting the existence of circulating DNA. In view of the malignant transformations obtained with DNA, the oncogenic (cancer-causing) role of circulating DNA is postulated."
In the mid 1960s, Stroun along with colleague, Philip Anker, (also in the Department of Plant Physiology at the University of Geneva) began to study the phenomenon of neoplasms in plants. Building on early grafting studies in plants as well as work by other researchers that demonstrated the transfer of genetic material between bacteria, they hypothesized that a similar phenomenon might occur between bacterial cells and plants. Their research in the late 1960s demonstrated that this process did indeed exist and led them to study whether a similar mechanism occurred in higher-order species, where Stroun published further research showing transfer of genetic material from bacteria to frogs. In an article published in Science, November 10, 1972, bacterial RNA was demonstrated in frog brain cells after a bacterial peritoneal infection. In the April 1973 issue of the Journal of Bacteriology, Stroun showed transcription of spontaneously released bacterial DNA was found to be incorporated into cellular nuclei of frog auricles. In one particular experiment published in the same article, Stroun and his group extracted the auricles of frog hearts and dipped them for several hours in a suspension of bacteria. Afterward, they found a high percentage of RNA-DNA hybridization between bacterial DNA extracted from bacteria of the same species as that used in the experiment and titrated DNA extracted from the auricles which had been dipped in the bacterial suspension. The experiment demonstrated that bacterial DNA had been absorbed by the animal cells. Stroun dubbed this phenomenon has trancession. Professor Straun died in Geneva in 2017.
In the late 1970s, building on the discovery of circulating DNA in human blood by Mandel and Metais, Leon and his collaborators developed a radioimmunoassay for measuring nanogram quantities of nucleic acids in serum. This technique enabled them to observe that cancer patients tended to possess a greater quantity of circulating DNA in serum (on average) than their healthy counterparts. This led Stroun to explore if other methods could be developed to not only detect the overall abundance of nucleic acids in patients with disease (and specifically cancer) but to also detect the disease-specific components of such circulating nucleic acids themselves. Unlike bacterial transformations in plants and animal cells involving clear transfer of separately identifiable nucleic acids, it was not clear how malignancy in cancer arose, although there were many competing theories. Stroun’s postulate that neoplastic malignancy was associated with the presence of tumor specific nucleic acids, led to extensive research by his group of circulating nucleic acids in cancer patients in the late 1980s.
Maurice Stroun (born September 3, 1926) is a researcher and professor at the University of Geneva in the Department of Plant Biochemistry and Physiology. He is known for first hypothesizing and demonstrating the existence of disease-specific circulating nucleic acids as well as first developing techniques for the detection of tumor-related characteristics of circulating DNA and RNA in plasma and serum, or liquid biopsies as this field is now known.