| Genres: | Documentary |
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These 12 half-hour episodes by science writer and podcaster Sam Kean cover the fundamental properties of DNA, the techniques that have unraveled its mysteries, the exciting revelations that have come to light, and the stories of the all-too-human scientists involved.
Your investigation begins with the independent discoveries of genes and of DNA in the mid-1800s. Follow both trails into the 20th century, as chromosomes are discovered and the realization finally begins to dawn that genes and DNA may be related.
Join the quest to understand the molecular biology of the gene with the famous blender experiment, which showed that DNA, not proteins, transmit genetic information. Then look at five scientists who competed to solve the mystery of DNA’s structure, including Rosalind Franklin and a team of rookie investigators who stumbled embarrassingly in their first attempt.
Enter the home stretch in the race to find the structure of DNA. With eminent chemist Linus Pauling leading the pack, longshots James Watson and Francis Crick got a key clue from rival investigator Rosalind Franklin (without her knowledge). Analyze the reasoning that led Watson and Crick to their 1953 breakthrough, and consider why Franklin didn’t beat them to it.
Because DNA is only a blueprint, the discovery of its double helix structure was just the beginning. Trace the next big step: understanding how DNA synthesizes proteins through the intermediary of RNA. Here again, a dark horse researcher (Marshall Nirenberg) made the crucial breakthrough. Then see how DNA fingerprinting became possible in the 1980s.
Cover the “Manhattan Project” of DNA: the Human Genome Project to sequence all three billion base pairs of human genetic material. Two separate teams, led by Francis Collins and Craig Venter, competed bitterly to reach this costly goal, which required new technologies and controversial methods. Examine the politics and unexpected legacy of this effort, which was declared complete in 2003.
The decoding of the human genome paved the way for Project ENCODE, designed to identify functional elements in the genome. Focus on examples that are central to human culture, such as language. Probe the foxp2 gene that appears to play a role in speech, together with other genes. Consider the role of mutations and nature's gene splicing in boosting our brain and cognitive abilities.
