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The system, designed by PhD students Eyal Karzbrun and Alexandra Tayar in the lab of Prof. Roy Bar-Ziv of the Weizmann Institute’s Materials and Interfaces Department, in collaboration with Prof. Vincent Noireaux of the University of Minnesota, comprises multiple compartments “etched’’ onto a biochip. These compartments – artificial cells, each a mere millionth of a meter in depth – are connected via thin capillary tubes, creating a network that allows the diffusion of biological substances throughout the system. Within each compartment, the researchers insert a cell genome – strands of DNA designed and controlled by the scientists themselves. In order to translate the genes into proteins, the scientists relinquished control to the bacterium E. coli: Filling the compartments with E. coli cell extract – a solution containing the entire bacterial protein-translating machinery, minus its DNA code – the scientists were able to sit back and observe the protein synthesis dynamics that emerged.
Prof. Roy Bar-Ziv’s research is supported by the Yeda-Sela Center for Basic Research.