Dale Brown Emeagwali (born December 24, 1954) is a microbiologist, cancer researcher, author and co-author of several notable scientific and research journals. Emeagwali's scientific accomplishments include the discovery of the existence of isozymes of kynurenine formamidase in the bacterium Streptomyces paravulus. Prior to her findings, this isozyme was only known to exist in higher organisms. She also proved that cancer gene expression could be inhibited by antisense methodology. She believed this conclusion can lead to better treatment of cancer in the future. In the field of Virology, Emeagwali worked with a DNA virus and discovered the overlapping of gene expression. Her accomplishments and contributions to the world of science are important not only because her findings add another missing puzzle piece to the mystery of cancer cells but also because Emeagwali has won awards such as the Scientist of the Year award in 1996 for her contributions to the world of science and her achievement in inspiring young women to follow their ambitions as blossoming scientists.
Video Dale Brown Emeagwali
Life and education
Early life
Dale Brown Emeagwali was born Dale Brown on December 24, 1954 to Doris Brown, a school teacher, and Leon Brown, magazine production department superintendent. Throughout her childhood, she lived as the youngest of three, in the Baltimore, Maryland in the Popular Grove-Lafayette Avenue section of the city. She attended Alexander Elementary School and later went to Northwestern high school. Though the opinions of society was against her beliefs, Emeagwali remained studious and at the top of her class. Emeagwali attributes her success to her parents, Leon and Dorris Brown, because they never stopped supporting her dream to become a scientist. Even as a child, they would help her do fun science experiments in the kitchen at home.
Education
After high school, Dale Brown Emeagwali entered Coppin State University in Baltimore, Maryland and earned her bachelor's degree in a Biology major with a Chemistry minor in 1976. She then left Baltimore to attend Georgetown University School of Medicine in Washington, D.C. In 1981, Emeagwali earned her Ph.D. in Microbiology from Georgetown University.
Personal life
Emeagwali was born during the start of the Civil Rights Movement, a long period of time in which African-Americans all over the United States fought for their rights as humans. As a child she experienced segregation and dehumanization in school and throughout the community. In an interview with Willie Givens, editor of Afro-American, Emeagwali expressed that during her time in school, black children were told, "You can't do math. We were taught inadvertently, and sometimes directly, that we couldn't do that," she said. "When a Black child said he wanted to be a doctor, he was slapped upside the head and told to stop being simple." Still, Emeagwali remained head strong.
While on a bus trip back to Georgetown, Emeagwali met Philip Emeagwali, a Nigerian doctorate student in civil engineering at Georgetown. Not long after--August 15, 1981--the two became husband and wife; they later had a son, Ijeoma.
Fellowships
Dale Brown Emeagwali commenced a postdoctoral fellowship through 1981 to 1984 with National Institute of Health (NIH) while holding concurrent fellowships with the American Cancer Society, the National Science Foundation and the Damon Runyon--Walter Winchell Cancer Fund. In 1983 Emeagwali was promoted to staff by NIH and two years later in 1985, she took up a fellowship with the Uniformed Services University of Health Sciences.
Maps Dale Brown Emeagwali
Career
Research
In 1986, Emeagwali moved to the University of Wyoming as a research associate and spent the years from 1987-1992 at the University of Michigan as an assistant research scientist. In 1992 the University of Minnesota hired Emeagwali as a research associate and she remained there until 1996, when she returned to Baltimore to work in the Biology department at Ball State University. In this same year, she was named Scientist of the Year by the National Technical Honor Society for her contributions in the fields of microbiology, molecular biology and biochemistry.
Emeagwali's early research focused on actinomycetes--bacteria that live in the soil. She was particularly interested in Streptomyces, the soil bacteria from which the antibacterial agent known as streptomycin is derived. Her most important discovery was of the existence of isozymes of kynurenine formamidase in the bacterium S. paravulus. Isozymes are enzymes that have slightly different amino acid sequences but regulate the same biochemical reactions. In the case of S. paravulus, isozymes are used to catalyze the development of antibacterial compounds. In 1980, while at Georgetown, she became the co-author of "Evidence of a Constitutive and Inducible Form of Kynurenine Formamidase," that was published the journal Archives of Biochemistry and Biophysics. Her research helped demonstrate that bacteria are more complex organisms than most scientists had previously believed. In an interview by Megan Sullivan for the National Science Teachers Association, Emeagwali states: "The overall goal of my work has always been to answer fundamental questions about cellular processes. I also like my work to have potential significant applications in the medical field...A typical day involves checking on previous experiments, setting up new investigations, and analyzing data. While I find my work fun, it does get busy at times. The reward of obtaining new data makes it worth the effort. In addition to laboratory research, time must also be spent writing papers and reading to keep up with new developments."
Her later research involved the study of cancerous cells. Her most notable achievement in this area involves ras oncogene. Ras proteins play a vital role in the transmission of signals that regulate the growth of cells. When the gene that initiates the ras protein becomes mutated, the signals are disrupted in a way that can cause the cells to become cancerous. She also showed that antisense methodology (a process that inhibits the ability of genes to do their work) can be used to suppress genes that have become cancerous.
African-American Science Day
While in a research fellowship at University of Minnesota from 1992-95, she and her husband, Philip, founded the annual African American Science Day. The project was designed to provide role models for African-American kids and encourage students to study science. The science-fair-type event, which also includes other professional scientists, is designed to give fourth-through twelfth-graders from inner-city neighborhoods an idea of what scientists do. Emeagwali and her husband started this program in an effort to promote mathematics and science in communities where, like Emeagwali experienced growing up, students are often discouraged from studying these disciplines because of race and gender. Emeagwali strives to rend these stereotypes with not only her accomplishments as a scientist but also with the work of upcoming generations of African-American scientist and mathematicians.
Awards and honors
- 1974-Biomedical Fellowship Award, Meharry Medical College
- 1976-Third Place Award, Best Presentation, Beta Kappa Chi and the National Institute of Science
- 1976-Biomedical Research Award, Coppin State College
- 1981-Postdoctoral Fellowship Award, National Science Foundation
- 1981-Postdoctoral Fellowship Award, American Cancer Society
- 1996-Scientist of the Year, National Technical Honor Society
Publications
- 1980 "Evidence of a Constitutive and Inducible Form of Kynurenine Formamidase," Archives of Biochemistry and Biophysics
- 1984 "Sequence Homology Between the Structural Proteins of Kilham Rat Virus," Journal of Virology
- 1989 "Modulation of Ras Expression by Antisense Non-ionic Deoxyoligonucleotide Analogues," Journal of Gene Research
- 1990 "Amplified Expression of Three Jun Family Members Inhibits Erytholeukemia Differentiation"
References
See also
- Women Scientists
- List of African American Inventors and Scientists
Source of article : Wikipedia