Early Life of David Baltimore
Being a biologist, it is worth noting that David Baltimoremade great contributions in the field of science, specifically, medicine. He was born on March 7, 1938, in the city of New York.He is known for great achievements in diverse areas that have seen him become an idol of many, irrespective of their professional backgrounds. Studying at elementary level, he excelled in math and science, an area that dramatically changed the course of his life. Upon beginning his college studies at Swarthmore College, he began to focus in biology, an area that witnesses him lead a number of discoveries. It is recorded that he spent a lot of his time in research activities at the Jackson Memorial Laboratory. The culmination of his college period was his graduation in the year 1960 with high honors.
Baltimore is an American scientist who won the 1975 Nobel Laureate in the field of physiology.He is hailed for his great achievements in medicine, and his discoveries have brought about key advancements in medical sciences. His medical achievements have influenced science across the whole world. He has contributed remarkably towards several areas in medicine,such as cell physiology, research associated with cancer, the immune system, and virology.1He has also been a major facilitator and accomplished a lot, not only in the medical field but also in education and administration.2 Baltimore has been involved in educating and training in a variety of medical fields ranging from undergraduate level up todoctoral level.
The major success of this prominent scientist has been his research.In 1967, he spearheaded the research on the polio virus.He independently investigated and carried out experiments that led to the realization that the polio virus contained distinct viral proteins. This discovery has helped to find relevant prevention measures against attack by this virus. He also spearheaded research on cancer that brought hope that cures would be found to bring the dreaded disease to an end.3
Baltimore has worked at various institutions.At Rockefeller University he continued contributing to the research sector through various experiments on cell physiology and virology. Here he also made tremendous reforms and reorganization to improve the management systems. At California Institute of Technology, he was chosen for the position of president of the establishment. Because of his endless commitments to the domain of science, he was acknowledged by former President Bill Clinton.It is clear that Baltimore was determined and dedicated to improve the field of medicine by working hard and diligently in providing answers and solutions to the existing challenges that were witnessed in the sector; he was very passionate about it.4 Additionally, he has been awarded for his remarkable discoveries concerning the relation between the tumor viruses and cell genetic composition.5The tremendous achievements of Baltimore have helpedto find solutions to some of the most challenging problems in the world medicine.
Apart from the significant discoveries,Baltimore’s work has had an impacton upcoming researchers in the medical fraternity.6Besides,as a result of his discoveries, he has also brought about a positive impact on the economy and advocated for the use of technology in the research industry. All these achievements have contributed to a better world to live in and are evidence that this highly regarded scientist rightly deserved the Nobel Prize in 1975.
- Baltimore D. RNA-dependent DNA polymerase in virions of Rous sarcoma virus.
Nature. 1970; 226(121):1
- Lodish H, Baltimore D, Berk A, Zipursky SL, Matsudaira P, Darnell J. Molecular New York: Scientific American Books; 1995.
- Baeuerle PA, Baltimore D. NF-κB: ten years after. 1996 87(1):13-20.
- Sen R, Baltimore D. Multiple nuclear factors interact with the immunoglobulin Cell. 46(5):705-16.
- Pear WS, Nolan GP, Scott ML, Baltimore D. Production of high-titer helper-free
retroviruses by transient transfection. Proceedings of the National Academy of
Sciences. 1993 (18):8392-6.
- Murre C, McCaw PS, Baltimore D. A new DNA binding and dimerization motif in
immunoglobulin enhancer binding, daughterless, Myo D, and myc proteins. Cell.
1989 56(5): 777-83.