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Libchaber’s lab elucidated the effects of temperature on DNA in solution, shedding light on how critical concentrations of DNA may have been reached amid early primordial-soup chain reactions. The laboratory showed that DNA amplification by polymerase chain reaction is essentially a thermal convection process.
Currently, Libchaber’s work focuses on subsurface microbial ecosystems. Mud, a porous medium, contains a high density of diverse organisms. Despite this complexity, microbes in nature self-organize into simple reproducible patterns. His lab conducts experiments to observe and model the dynamics of mud coming to a steady state.
Currently, Libchaber’s work focuses on subsurface microbial ecosystems. Mud, a porous medium, contains a high density of diverse organisms. Despite this complexity, microbes in nature self-organize into simple reproducible patterns. His lab conducts experiments to observe and model the dynamics of mud coming to a steady state.
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