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The Shalvi/Hyman Encyclopedia of Jewish Women

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Rosalyn Yalow

July 19, 1921–May 30, 2011

by Emily Taitz and Tamar Fields
Last updated January 19, 2022

Rosalyn Yalow.
Courtesy of the Jacob Rader Marcus Center of the American Jewish Archives and Medical Media Production Service, UAMC, Bronx, NY.
In Brief

Rosalyn Yalow was the second woman in the United States to win a Nobel Prize in Physiology or Medicine. She was born into a Jewish family in 1921 in the Bronx, New York, and received a doctorate from Urbana University in Physics. Together with her research partner, Solomon Berson, she experimented with the use of radioisotopes, which led to the breakthrough discovery of radioimmunoassay (RIA), an ingenious application of nuclear physics in clinical medicine. Their discoveries made possible major advances in diabetes research, treating hormonal problems related to growth, thyroid function, and fertility. After Yalow won the Nobel in 1977, she felt particularly responsible for encouraging girls to pursue a career in science.  Yalow died at the age of 89 in 2011.

Early Life and Education

A Jewish woman whose father-in-law is a rabbi, who keeps a Term used for ritually untainted food according to the laws of Kashrut (Jewish dietary laws).kosher home, who invites her lab assistants to A seven-day festival to commemorate the Exodus from Egypt (eight days outside Israel) beginning on the 15th day of the Hebrew month of Nissan. Also called the "Festival of Mazzot"; the "Festival of Spring"; Pesah.Passover Lit. "order." The regimen of rituals, songs and textual readings performed in a specific order on the first two nights (in Israel, on the first night) of Passover.seders and worries about them catching colds, is not the typical image of a Nobel Prize winner. But it is the image of Rosalyn Yalow, the first woman born and educated in the United States to win a Nobel Prize in a scientific field.

An honor student at school, Rosalyn excelled in math and chemistry, and her teachers encouraged her. She graduated from Walton Girls High School at age fifteen and went directly to Hunter College, a free city university for women. As a freshman, she listed her major as chemistry, but when she took her first course in physics, professors recognized her potential as a physicist and guided her into that discipline.

In the 1940s, the standard assumption was that Rosalyn Sussman would be a career woman rather than a housewife. In those years, there was little possibility of combining the two. Rosalyn, however, had her own ideas. Even before her high school graduation, she had decided on both marriage and a career and never doubted her ability to achieve those two goals.

Yalow graduated from Hunter College Phi Beta Kappa, magna cum laude, with a BA in chemistry and physics, in 1941. She was the perfect candidate for a graduate fellowship, but she was turned down by one university after another. Only one admissions office was honest enough to admit the real reason: they believed that, as a Jew and a woman, she would never get a job in the field.

Yalow was well prepared for these setbacks. In college, she had been warned to take typing and steno courses so she could support herself as a secretary while going to school. It was simply an alternative way to work toward a doctorate. The Sussmans did not have the money required for their daughter’s graduate tuition without some kind of financial aid. If she worked at a university, she would be permitted to take courses gratis. Rosalyn accepted a secretarial job at Columbia University and prepared to take night classes.

Becoming a Physicist

At the end of the summer, just before she was scheduled to begin working, Yalow received an offer from the University of Illinois at Urbana. No clear explanation was given for this late acceptance, but it was assumed that places in the graduate program in physics were vacant as a result of the draft for World War II. Even more crucial, she was offered a teaching assistantship and would be able to support herself while studying.

At Urbana, twenty-year-old Rosalyn was the only woman among 400 faculty and teaching assistants and one of only three Jews. One of the other Jews was Aaron Yalow. Yalow, from upstate New York, was the son of an Orthodox rabbi and had entered the program at the same time as Rosalyn. The two struck up a friendship that developed into a romance. On June 6, 1943, they were married.

The Yalows received their doctorates in physics together in 1945. They returned to the Bronx and both found employment at the Federal Telecommunications Laboratory. When the laboratory closed the following year, Aaron took a position as a researcher in medical physics at Montefiore Hospital and Rosalyn returned to Hunter College, where she taught physics. Although she also wanted a research position, such jobs were not routinely offered to women.

It was through her husband’s encouragement and help that Yalow made contact with Bernard Roswit of the Bronx Veterans Administration Hospital. In 1947, the Veterans Administration hospitals had launched a research program to explore the use of radioactive substances for the diagnosis and treatment of disease. One of the hospitals chosen for this nuclear medicine project was the Bronx VA Hospital. Roswit was impressed with Rosalyn Yalow’s ability and determination and offered her laboratory space and a small salary as a consultant in nuclear physics. She held that position, together with her faculty position at Hunter, for three years. In 1950, she was appointed physicist and assistant chief of the hospital’s radioisotope service and left her teaching post for full-time research.

Breakthrough Discovery

Yalow experimented with the safe use of radioisotopes in humans. Radioisotopes were considered an inexpensive substitute for radium and were being used to treat cancer. Yalow wanted to find other uses for them as well, but she needed more medical expertise than a physicist ordinarily had. She began a search for a research partner who had medical experience and found Solomon Berson, a young doctor at the VA hospital. The two began a close and successful partnership that lasted for 22 years. People who knew how they worked reported that they sometimes finished each other’s sentences; they even joked about believing in telepathy.

Yalow and Berson started by measuring radioactive iodine in the diagnosis and treatment of thyroid disease. They went on from there to the measurement of blood volume and then to measure insulin and other hormones and proteins in adult diabetics. These initial experiments led to the discovery of radioimmunoassay (RIA), an ingenious application of nuclear physics in clinical medicine. RIA makes it possible to use radioactive tracers to measure pharmacological or biological substances with radioisotopes. The system can be used on humans, animals, or plants and is sensitive enough to measure any trace material, even in the most minute amounts. Using this technique, endless varieties of hormones, viruses, and chemicals could be measured. Their discoveries invigorated the field of endocrinology, making possible major advances in diabetes research and the treatment of hormonal problems related to growth, thyroid function, and fertility. Their work virtually started a new science: neuroendocrinology, the study of chemical messengers used by the brain to control the body’s major hormone systems.  In particular, RIA was used to make an early diagnosis in babies with underactive thyroid glands, thus preventing intellectual disabilities.

After nine years of careful research, Yalow and Berson publicly presented their discovery. It was first used in 1959, but it took several more years before the scientific community realized its ramifications. Their discovery was initially rejected by The Journal of Clinical Investigation, but ultimately RIA created “an explosion of knowledge” in every aspect of medicine and was used in thousands of laboratories in the United States and abroad.

Combining Work and Family

According to policy at the VA, women had to leave once they were five months pregnant, but Yalow ignored it. During those early years of research, Rosalyn and Aaron Yalow had their first child, a son, Benjamin, born in 1952. The young mother was back in her laboratory a week later, together with her baby. She continued her lab work while she nursed the baby, managing it all on very little sleep. When she gave birth to her daughter, Elanna, in 1954, she followed the same procedure. She was conscious of the responsibilities of motherhood and tried hard not to neglect her children. While they were in school, she came home every day to give them lunch and maintained a kosher home in deference to her husband’s wishes. She was home in time to prepare dinner every evening, sometimes returning to her laboratory afterward, working long into the night. In an interview with the New York Post many years later, she said, “It’s true that women are different from men. If you want to be a good wife, you have to work a little harder.” She routinely maintained a work schedule of sixty to eighty hours per week.

Recognition and Awards

Yalow’s work was recognized throughout the medical field, and she was inundated with prizes, appointments, and honorary degrees. In the mid-1950s, she was already serving as a consultant at Lenox Hill Hospital. In 1961, she was given the American Diabetes Association’s Eli Lilly Award; in 1968 she was named acting chief of the radioisotope service at the Bronx VA Hospital and was also appointed research professor in the department of medicine at Mount Sinai School of Medicine, a position she held until 1974. She was a member of the President’s Study Group on Careers for Women from 1966 to1967. In 1969, she was appointed chief of the RIA reference laboratory. In 1970, she became chief of the nuclear medicine service, a position she held until 1986, and, in 1972, she was named senior medical investigator of the Veterans Administration. She also became a distinguished service professor at Mount Sinai, which had become an affiliate of the Bronx VA Hospital, from 1974 to 1979, after which she taught at the Albert Einstein College of Medicine, Yeshiva University, for six years. Unfortunately, Yalow’s partnership with Berson ended before the two researchers could enjoy the ultimate success for their discovery of RIA. Solomon Berson died of a heart attack in 1972.

After Berson’s death, Yalow requested that the laboratory she had shared with him be dedicated in his name. She went on to publish sixty papers about parathyroid hormone metabolism, and gastrointestinal hormones and took on the leadership role in the laboratory in both research and interactions with the public.

During the 1970s, Yalow earned several more medical awards, including a Commemorative Medallion in 1972, the A. Cressy Morrison Award in Natural Science, the VA Exceptional Service Award, and the Scientific Achievement Award of the American Medical Association, all in 1975. The most prestigious of her awards was the Albert Lasker Prize for Basic Medical Research, which she won in 1976 at age 55. She was the first woman to receive this prize. The Nobel Prize, the crowning achievement of her career, followed in 1977. She was only the second American woman to receive the Nobel Prize in Physiology or Medicine. (The first was Gerty T. Cori in 1947, who shared it with her husband.)

At the Nobel Prize presentation ceremonies in Oslo, Norway, Rosalyn Yalow commented on her achievements as a woman: “We still live in a world in which a significant fraction of people, including women, believe that a woman belongs and wants to belong exclusively in the home; that a woman should not aspire to achieve more than her male counterparts and particularly not more than her husband.”

Discussing equality of opportunity, she explained:

We cannot expect in the immediate future that all women who will seek it will achieve [it]. But if women are to start moving toward that goal, we must believe in ourselves or no one else will believe in us; we must match our aspirations with the competence, courage and determination to succeed, and we must feel a personal responsibility to ease the path for those who come after us. The world cannot afford the loss of the talents of half its people if we are to solve the many problems that beset us.

Life After the Nobel Prize

After the excitement and publicity of the Nobel Prize, the tireless Yalow continued to work in her modest laboratory in the Bronx and remained in her home in nearby Riverdale, New York. She also served as chair of the department of clinical science at Bronx’s Montefiore Hospital and Medical Center from 1980 to 1985. She collected a growing number of honorary degrees, including those from Yeshiva University—where she held the title of Distinguished Professor-at-Large emerita beginning in 1986—and Hunter College, her alma mater. In 1978, the Rosalyn S. Yalow Research Development Award was established. For the second time, she was given the VA Exceptional Service Award, then the Torch of Learning award by the American Friends of the Hebrew University. She even found time to host a five-part dramatic series for Public Broadcasting on the life of Marie Curie, one of Yalow’s own early role models. Through it all, she refused to allow fame to change her lifestyle.

Yalow continued writing papers (a total of over 500) and doing research. In 1988, she was awarded the National Medal of Science and in 1993 she was inducted into the National Women’s Hall of Fame.

Values and Family Life

Rosalyn Yalow, proud of her accomplishments, never regretted not patenting RIA. Had she done so, she would have been a rich woman. However, she claimed to have always felt uncomfortable having “more money than I can spend usefully.” As she told a New York Post reporter, “I have my marriage, two wonderful children. I have a laboratory that is an absolute joy. I have energy. I have health. As long as there is anything to be done, I am never tired.”

Yalow’s grown children are both successful professionals in their own right. Benjamin Yalow has an MBA from New York University and is a computer systems analyst; he also plays a central role in the world of science fiction fandom. Elanna Yalow has a PhD in Educational Psychology from the Stanford University Graduate School of Education and an MBA from Stanford University School of Business and is Chief Executive Officer of KinderCare Education.

At age seventy-one, Yalow officially retired and became Senior Medical Investigator Emerita at the VA Hospital and the Solomon A. Berson distinguished professor-at-large at Mount Sinai School of Medicine in New York. She came to the lab several times a week and claimed to be still cooking dinners nightly for her husband, a physics professor at Cooper Union College in New York City. She continued to respond to mail, give interviews, and help students at the VA’s Berson laboratory. Her husband, Dr. Aaron Yalow died in 1992, at the age of 72, from cardiac arrest.  

Over the course of the 1990s, Yalow suffered from a series of strokes. In 1997 while rehabilitating at the Hebrew Home in Bronx, New York, she was invited to speak at the institution’s “Take Your Daughter To Work Day.” She told the audience of girls, “It was a delight to win the Nobel Prize, but it gave me a responsibility to see that women become more interested in working in science and that they are able to work at a level that will allow them to achieve their maximum potential.” Yalow recuperated from this stroke and was able to return to her lab. She continued to respond to mail from students and give brief interviews until she died on May 30, 2011, at the age of 89. Yalow defied gender and religious barriers in the field of science and made breakthrough discoveries that changed the field of medicine.

A few years after Yalow died, in 2015, a K-5 grade charter school opened in the Bronx where she grew up and was named in her honor. The school wrote in its mission statement, “Our hope is that Dr. Yalow’s legacy will inspire a new generation of Bronx children to work hard at their education and strive for success.” 


American Jewish Biographies Facts on File, 1982.

Contributions of 20th Century Women to Physics. University of California, 2001.

Current Biography. Bronx: H.W. Wilson Co., 1978.

Dash, Joan. The Triumph of Discovery: Women Scientists Who Won the Nobel Prize. Englewood Cliffs, NJ: Julian Messner, 1991.

EJ (1973–1982).

Gellene, Denise. “Rosalyn S. Yalow, Nobel Medical Physicist, Dies at 89.” The New York Times, June 2, 2011, www.nytimes.com/2011/06/02/us/02yalow.html

Kahn, C. Ronald, and Jesse Roth. “Rosalyn Sussman Yalow (1921–2011).” PNAS, National Academy of Sciences, January 17, 2012, www.pnas.org/content/109/3/669;

Les Prix Nobel. Stockholm: Almqvist & Wiksell International, 1977.

MIT Inventor of the Week Archive (1999).

The Scientist 11 (14): 1 (July 7, 1997).

Straus, Eugene. Rosalyn Yalow, Nobel Laureate: Her Life and Work in Medicine: a Biographical Memoir. New York: Perseus Books, 1998.

Taitz, Emily, and Sondra Henry. Remarkable Jewish Women: Rebels, Rabbis and Other Women in History from Biblical Times to the Present. Philadelphia: Jewish Publication Society, 1996.

Who’s Who (1996).

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How to cite this page

Taitz, Emily and Tamar Fields. "Rosalyn Yalow." Shalvi/Hyman Encyclopedia of Jewish Women. 19 January 2022. Jewish Women's Archive. (Viewed on December 8, 2023) <https://jwa.org/encyclopedia/article/yalow-rosalyn>.