01/07/2026 16:39 - Tecnologia
A team of scientists in the United States claims to have created a "synthetic cell" capable of completing a full life cycle: being born, feeding, and reproducing. The announcement, made unconventionally without the standard scientific peer-review process, has sparked both enthusiasm and skepticism in the international scientific community.
The lead researcher is Kate Adamala, from the University of Minnesota (a prestigious public research university founded in 1851), who named her creation "Spudcell" (potato cell) due to its spherical, simple shape. The name reflects the humility with which the team approaches an achievement that could redefine our understanding of life.
The synthetic cell basically consists of a microscopic fat sphere that forms the cell's skeleton, technically known as a lipid membrane. Inside, it contains approximately 90,000 chemical DNA letters composing a genome reduced to its minimum expression, about 50 times smaller than natural microbes.
This genetic material includes the molecular machinery necessary to read and copy DNA, allowing these artificial cells to replicate. However, the system only works with human intervention: scientists must apply force to produce cell division.
It is an interdisciplinary field combining engineering and biology principles to design and construct new biological systems or networks. Unlike traditional genetic engineering (which modifies existing organisms), synthetic biology seeks to create life from scratch or with minimal components.
According to the document published by Adamala's team, these cells created from scratch are capable of:
However, the process has important limitations: to achieve multiple rounds of division, researchers must force cells through a membrane with tiny holes under pressure. Additionally, only 30% of resulting cells retain the complete genome after five division cycles, and the molecular machinery progressively deteriorates.
The most striking aspect is not just the scientific achievement, but how it was announced. The team published a 190-page document directly on their website, bypassing the standard peer-review process that validates scientific findings.
Adamala explained she submitted the study to Cell (a world-leading molecular biology journal), but it was rejected with the argument that "it wasn't biology." Faced with this, she contacted journalists directly from outlets like The New York Times, CNN, and Quanta Magazine, which published the news on Wednesday.
| Characteristic | Description |
|---|---|
| Name | Spudcell (potato cell) |
| Genome size | ~90,000 DNA letters (50x smaller than natural microbes) |
| Structure | Fat sphere with lipid membrane |
| Components | 36 enzymes + DNA + lipid membrane |
| Replication efficiency | 30% maintain complete genome after 5 cycles |
Until now, the greatest milestones in synthetic biology had been achieved with a different approach: starting from a real microbe and reducing its genome to the minimum. This approach was led by scientist Craig Venter (recently deceased at 79), who managed to create life simpler than natural life.
Adamala's approach is opposite: start from scratch and build the basic components of a self-replicating system. Her synthetic cell is made of 36 enzymes, 90,000 DNA letters, and a lipid membrane wrapping everything in a small fat bubble.
Craig Venter, a pioneer of synthetic biology, passed away at 79 years old. He was one of the first to decipher the human genome and created the first organism with a synthetic genome in 2010, starting from an existing cell and replacing its DNA.
Scientists seek to develop life forms capable of performing specific functions:
Energy production from waste through designed biological processes.
Development of biological systems for drug production or personalized therapies.
Understanding how life could have first emerged on primitive Earth.
Environmental cleanup through designed organisms.
Kate Adamala is a researcher at the University of Minnesota and leader of the team that created Spudcell. Her work focuses on understanding the minimal components necessary for life and building biological systems from scratch.
The name "Spudcell" was chosen because she didn't want to put her name on her creation, opting for something humble and descriptive.
The announcement raises profound questions about the definition of life. Artificial cells can feed and reproduce, but require human intervention to divide. The demonstrated "evolution" was artificially programmed.
These types of experiments attempt to design systems capable of performing fundamental functions of living beings without being exactly living beings.
This breakthrough marks a new chapter in exploring the boundaries of life. Although the process still requires human supervision and the scientific community must validate the results, Spudcell represents a significant step toward understanding what it means to be alive.
Alfredo S. Quiroga