Team creates prototype synthetic cell with 36 genes

Scientists have built a basic synthetic cell called SpudCell that can copy DNA and divide a few times using 36 genes from existing organisms.

Kate Adamala at the University of Missouri led the project. The cell contains genes mostly taken from E. coli bacteria along with some from phage viruses and a fluorescent protein gene from jellyfish.

The researchers assembled the genes into seven circular DNA pieces placed inside fatty bubbles. The cells receive external supplies of building blocks because they cannot produce their own. Division occurs unevenly through budding after added proteins bend the membrane.

Adamala said the cells stop after about five divisions likely due to failure of supplied ribosomes. The team has made the project open source to allow further development toward indefinite replication.

The goal is to engineer cells that can produce petrochemicals safely. Adamala noted the current version depends entirely on lab support and poses no risk of uncontrolled spread.

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Microscopic view contrasting cell division errors: one surviving DNA-doubled cell and one dying cell, for cancer research news illustration.
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Study suggests the route to whole-genome doubling influences whether DNA-doubled cells survive

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Researchers at Hokkaido University report that cells left with an extra set of DNA after a division error can have markedly different outcomes depending on how the division fails—findings that could help explain why some abnormal cells persist in diseases where whole-genome duplication is common, including cancer.

Researchers have modified bacteria to manufacture gadusol, a UV-protective substance found in fish eggs. The advance could support development of transparent, eco-friendly sunscreens. The work was led by a team at Jiangnan University in China.

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Researchers at the John Innes Centre have identified a three-gene system that causes bacteria to burst open, releasing virus-like particles that share DNA, including antibiotic resistance genes. The system, called LypABC, resembles a repurposed bacterial immune defense. The findings, published in Nature Microbiology, highlight how bacteria facilitate horizontal gene transfer.

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A new theory from scientists at Cold Spring Harbor Laboratory suggests that brain cells use their cellular family tree to organize into a complex organ. The model explains how a single starting cell can form a brain with roughly 170 billion precisely positioned neurons.

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