Age, Biography and Wiki
Ruth Arnon (Ruth Rosenberg) was born on 1 June, 1933 in Tel Aviv, Israel, is an Israeli biochemist. Discover Ruth Arnon's Biography, Age, Height, Physical Stats, Dating/Affairs, Family and career updates. Learn How rich is she in this year and how she spends money? Also learn how she earned most of networth at the age of 90 years old?
Popular As |
Ruth Rosenberg |
Occupation |
N/A |
Age |
90 years old |
Zodiac Sign |
Gemini |
Born |
1 June 1933 |
Birthday |
1 June |
Birthplace |
Tel Aviv, Israel |
Nationality |
Israel
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We recommend you to check the complete list of Famous People born on 1 June.
She is a member of famous with the age 90 years old group.
Ruth Arnon Height, Weight & Measurements
At 90 years old, Ruth Arnon height not available right now. We will update Ruth Arnon's Height, weight, Body Measurements, Eye Color, Hair Color, Shoe & Dress size soon as possible.
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Not Available |
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Not Available |
Who Is Ruth Arnon's Husband?
Her husband is Uriel Arnon (2 children)
Family |
Parents |
Not Available |
Husband |
Uriel Arnon (2 children) |
Sibling |
Not Available |
Children |
Not Available |
Ruth Arnon Net Worth
Her net worth has been growing significantly in 2023-2024. So, how much is Ruth Arnon worth at the age of 90 years old? Ruth Arnon’s income source is mostly from being a successful . She is from Israel. We have estimated Ruth Arnon's net worth, money, salary, income, and assets.
Net Worth in 2024 |
$1 Million - $5 Million |
Salary in 2024 |
Under Review |
Net Worth in 2023 |
Pending |
Salary in 2023 |
Under Review |
House |
Not Available |
Cars |
Not Available |
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Ruth Arnon Social Network
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Timeline
Ruth Arnon (Hebrew: רות ארנון [ʁut aʁ'non], born in Tel Aviv on June 1, 1933) is an Israeli biochemist and codeveloper of the multiple sclerosis drug Copaxone.
She is currently the Paul Ehrlich Professor of Immunology at the Weizmann Institute of Science, where she is researching anti-cancer and influenza vaccinations.
Ruth Rosenberg (later Arnon) was born in Tel Aviv, the youngest of three children.
Her father, Alexander Rosenberg, moved with the family to Toulouse to pursue degrees in electrical engineering and mathematics.
Upon their return to Israel, he worked for the Israel Electric Corporation.
Arnon says her interest in science was inspired by her father.
She attended Herzliya Hebrew Gymnasium and knew she wanted to be a medical researcher by the age of 15.
She studied chemistry at the Hebrew University of Jerusalem before joining the Israel Defense Forces's Atuda academic study program.
degree in 1955 and served for two years as an officer in the IDF.
During her time in the military, she married Uriel Arnon, an engineer at the Technion in Haifa.
They have two children: Michal (b. 1957) and Yoram (b. 1961).
In addition, Professor Arnon served as the Director of the institute's MacArthur Center for Molecular Biology of Tropical Diseases from 1958 to 1994.
Much of Arnon's work has been in the development of vaccinations and cancer research.
One of her largest contributions to science was working alongside Professor Michael Sela to develop a drug for multiple sclerosis called Copaxone.
The development of Copaxone began with their successful synthesis of the first synthetic antigen.
They, along with Devorah Tietelbaum who was at the time a doctoral student, discovered that a material synthetically produced in the lab could suppress a disease found in animals that is a model for multiple sclerosis.
After thirty years of research Copaxone was approved for medical use.
Arnon joined the Weizmann Institute of Science in 1960.
Upon joining the Institute Arnon began to work on her doctorate under Michael Sela.
She has focused most of her life on the field of immunology.
While at Weizmann, Arnon served as the Head of the Department of Chemical Immunology (1975-1978), as the Dean of the Faculty of Biology (1985-1988), Director of the MacArthur Center for Parasitology (1984-1994), Vice President for International Scientific Relations (1995-1997), and as Vice President of the institute (1988-1992).
Arnon served as the Chairperson of the Sciences division of the Israel Academy of Sciences from 1995 to 2001.
She later was elected as President of the Israel Academy.
She is also a member of the EMBO, the European Molecular Biology Organization.
Arnon served as Secretary-General of the International Union of Immunological Sciences, the President of the European Federation of Immunological Societies, and is also a member of the European Union Research Advisory Board.
Arnon has published more than four hundred articles in biochemistry and immunology.
She was a visiting professor at the Rockefeller Institute (New York), University of Washington (Seattle), University of California (Los Angeles), Pasteur Institute (Paris), Walter and Elise Hall Institute (Melbourne), Imperial Cancer Research Fund (London), and the Curie Institute (Paris).
Arnon and Sela developed a new drug application for the treatment of multiple sclerosis called Copolymer 1.
Its chemical name is glatiramer acetate.
It was submitted by the TEVA Pharmaceutical Company to the FDA for approval, under the name of Copaxone, on June 14, 1995.
Since multiple sclerosis is an immunological disease, Cop 1 is an immunospecific drug, which is no surprise, as Arnon has focused the majority of her work in the field of immunology.
It specifically aids neuroprotection and generation as well as prevents the demyelination of axons, a hallmark of diseases such as multiple sclerosis.
In fact, studies by Arnon et al. have shown an increase in myelination as a result of Cop 1.
In a 2004 article, Arnon and Aharoni state that glatiramer acetate is "highly effective in the suppression of experimental autoimmune encephalomyelitis in various species."
Arnon is researching a universal, recombinant influenza vaccination, as well as a cancer vaccine.
A 2009 paper discusses the use of virus-like particles (VLP) to induce an immune response.
These particles cannot replicate, but possess the specific antigen-presenting proteins that immune cells use to identify viruses.
Therefore, a vaccine could introduce VLPs to an individual's immune system and bring about the production of memory cells.
Arnon and Ben-Yedidia hypothesize that these vaccines would be effective against H5N1, a pandemic virus more commonly known as bird flu.