With discovery after discovery, Baltimore brought to light key features of biology with direct implications for human health. His work at MIT earned him a share of the 1975 Nobel Prize in Physiology or Medicine (along with Howard Temin and Renato Dulbecco) for discovering reverse transcriptase and identifying retroviruses, which use RNA to synthesize viral DNA. Following the award, Baltimore reoriented his laboratory's focus to pursue a mix of immunology and virology. Among the lab's most significant subsequent discoveries were the identification of a pair of proteins that play an essential role in enabling the immune system to create antibodies for so many different molecules, and investigations into how certain viruses can cause cell transformation and cancer. Work from Baltimore's lab also helped lead to the development of the important cancer drug Gleevec ' the first small molecule to target an oncoprotein inside of cells. In 1982, Baltimore partnered with philanthropist Edwin...
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