Notice: This is an archived and unmaintained page. For current information, please browse

What Can We Learn About the Origin of Life From Efforts to Design an Artificial Cell?

Presenter: Jack Szostak, Harvard University
When: November 3, 2008 11AM PST

The complexity of modern biological life has long made it difficult to understand how life could emerge spontaneously from the chemistry of the early earth.  The key to resolving this mystery lies in the simplicity of the earliest living cells.  Through our efforts to synthesize extremely simple artificial cells, we hope to discover plausible pathways for the transition from chemical evolution to Darwinian evolution. We view the two key components of a primitive cell as a self-replicating nucleic acid genome, and a self-replicating boundary structure. I will discuss recent experimental progress towards the synthesis of self-replicating nucleic acid and membrane vesicle systems, and the implications of these experiments for our understanding of the origin of life.

NAI Director's Seminar Series

  • The Director’s Seminar series features talks from scientists who are invited by the NAI Director to present their research results to the community. A primary goal of the seminars is to encourage interdisciplinary collaboration across NAI teams and within the astrobiology community at large.
  • Subscribe to this series

Other Seminars in this Series