Marie Maynard Daly
Marie Maynard Daly was an American biochemist. She was the first Black American woman in the United States to earn a Ph.D. in chemistry. Daly made important contributions in four areas of research: the chemistry of histones, protein synthesis, the relationships between cholesterol and hypertension, and creatine's uptake by muscle cells.
Daly's father, Ivan C. Daly, had immigrated from the British West Indies, found work as a postal clerk and eventually married Helen Page of Washington, D.C. They lived in New York City, and Marie was born and raised in Corona, Queens.
She often visited her maternal grandparents in Washington, where she was able to read about scientists and their achievements in her grandfather's extensive library. She was especially impressed by Paul de Kruif’s The Microbe Hunters, a work which partially influenced her decision to become a scientist.
Daly's interest in science was also influenced by her father, who had attended Cornell University with intentions of becoming a chemist, but had been unable to complete his education due to a lack of funds. His daughter continued her father's legacy by majoring in chemistry. Many years later, she started a Queens College scholarship fund in his honor to assist minority students majoring in chemistry or physics.
Education
Daly attended Hunter College High School, a laboratory high school for girls run by Hunter College faculty,where she was also encouraged to pursue chemistry.
She then enrolled in Queens College, a small, fairly new school in Flushing, New York. She lived at home to save money and graduated magna cum laude from Queens College with her bachelor's degree in chemistry in 1942. Upon graduation, she was named a Queens College Scholar, an honor that is given to the top 2.5% of the graduating class.
Labor shortages and the need for scientists to support the war effort enabled Daly to garner fellowships to study at New York University and Columbia University for her master's and Ph.D. degrees, respectively.
Daly worked as a laboratory assistant at Queens College while studying at New York University for her master's degree in chemistry, which she completed in 1943. She then became a chemistry tutor at Queens College and enrolled in the doctoral program at Columbia University, where she was supervised by Dr. Mary L. Caldwell. Caldwell, who had a doctorate in nutrition, helped Daly discover how chemicals produced in the body contribute to food digestion. Daly completed a thesis entitled A Study of the Products Formed By the Action of Pancreatic Amylase on Corn Starch to earn her Ph.D. in chemistry in 1947. became first African American to receive a PhD from Columbia University.
Career
Daly worked as a physical science instructor at Howard University, from 1947 to 1948 while simultaneously conducting research under the direction of Herman Branson. After being awarded an American Cancer Society grant to support her postdoctoral research, she joined Dr. A. E. Mirsky at the Rockefeller Institute, where they studied the cell nucleus and its constituents.At the time, the structure and function of DNA were not yet understood.
Daly began working in the College of Physicians and Surgeons at Columbia University in 1955. In collaboration with Dr. Quentin B. Deming, she studied arterial metabolism.
She continued this work as an assistant professor of biochemistry and of medicine at the Albert Einstein College of Medicine at Yeshiva University, where she and Deming moved in 1960.
From 1958 to 1963, Daly also served as an investigator for the American Heart Association.
Daly enjoyed teaching medical students and was dedicated to increasing the number of minority students enrolled in medical schools. In 1971 she was promoted to associate professor.
In 1975, Daly was one of 30 minority women scientists to attend a conference examining the challenges facing minority women in STEM fields. The conference was held by the American Association for the Advancement of Science. This resulted in the publication of the report, The Double Bind: The Price of Being a Minority Woman in Science. which made recommendations for recruiting and retaining minority women scientists.
Daly was a member of the prestigious board of governors of the New York Academy of Sciences for two years. Additional fellowships that Daly received throughout her career include the American Cancer Society, American Association for the Advancement of Science, New York Academy of Sciences, and Council on Arteriosclerosis of the American Heart Association.
Daly was designated as a career scientist by the Health Research Council of the City of New York. Daly retired in 1986 from the Albert Einstein College of Medicine, and in 1988 established a scholarship for African American chemistry and physics majors at Queens College in memory of her father. In 1999, she was recognized by the National Technical Association as one of the top 50 women in Science, Engineering and Technology.
Marie Maynard Daly Clark died on October 28, 2003.
On February 26, 2016, the Founding Principal of the new elementary school P.S.360Q, Mr. R. Emmanuel-Cooke, announced that the school would be named "The Dr. Marie M. Daly Academy of Excellence" in honor of the Queens resident.
Research
Histones
Daly was particularly interested in nuclear proteins. She developed methods for the fractionation of nuclear material and the determination of its composition. It was essential to separate cellular material into all of its components, without destroying or losing any of them.She studied histones, proteins found in cell nuclei, and was able to show the amino acid composition of various histone fractions. She suggested that histones were a mixture of basic components such as lysine and arginine.
Histones have since been shown to be important in gene expression.
Daly's work on histones is now considered fundamental.
Proteins
Daly developed methods for separating out the nuclei of tissues and measuring the base composition of purines and pyrimidines in desoxypentose nucleic acids. She concluded, among other things, that "no bases other than adenine, guanine, thymine, and cytosine were present in appreciable amounts."She investigated protein synthesis, including the role of cytoplasmic ribonucleoprotein in protein synthesis. Using radiolabeled amino acid glycine, she was able to measure how protein metabolism changed under feeding and fasting conditions in mice. This allowed her to monitor the activity of the cytoplasm as the radiolabeled glycine was taken up into the cell nucleus.
In 1953, Watson and Crick described the structure of DNA. Accepting the Nobel Prize for this work in 1962, Watson cited one of Daly's papers on "The role of ribonucleoprotein in protein synthesis" as contributing to his work. After 1953, the cell nucleus research field was flooded with funding opportunities.
Cholesterol and hypertension
Daly and her colleagues did some of the earliest work relating diet to the health of the cardiac and circulatory systems. They investigated the impact of cholesterol, sugar, and other nutrients.She was the first to establish that hypertension was a precursor to atherosclerosis, and the first to identify a relationship between cholesterol and clogged arteries,
an important discovery in understanding how heart attacks occur.
She was especially interested in how hypertension affects the circulatory system. She showed that high cholesterol intake in diet led to clogged arteries, and that hypertension accelerated this effect. She studied the effects of diet on hypertension, and found that both cholesterol and sugar were related to hypertension.
Investigating aging, she suggested that smooth muscle hypertrophy due to aging might have a causative role in hypertension and atherosclerosis.
Daly was also an early investigator into the effects of cigarette smoke on the lungs and on hypertension.