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University of Minnesota Reports Synthetic 'SpudCell' That Eats, Grows, Divides and Evolves

Showing that feeding, growth, DNA replication and selection can arise from chemically defined parts, the team launched a nonprofit to share methods and push replication efforts.

Overview

  • The research team posted a bioRxiv preprint on July 2 reporting a bottom-up synthetic system called SpudCell that takes up nutrients, grows, copies DNA, divides and transmits beneficial variants over roughly five laboratory generations.
  • SpudCell is assembled from defined chemical parts — liposome membranes, a stripped-down protein synthesis mix and a roughly 90,000–base-pair genome split across seven plasmids — so every functional molecule in the system is specified by the builders.
  • The cells rely on externally supplied 'feeder' liposomes and pre-made protein synthesis components because they cannot yet make ribosomes or a full metabolism, which limits lineages to about five to ten generations and prevents autonomy.
  • In competition experiments the authors showed Darwinian selection: cells engineered to fuse with feeder liposomes more efficiently rose from an even mix to as much as 61% of the population over five generations, and the advantage grew when food was scarce.
  • The work took several researcher-years and prompted the authors to form Biotic, a nonprofit aimed at standardizing and sharing methods to enable independent replication, scaling and next steps such as encoding ribosome production and extending generational persistence.