Scientists have discovered that horses owe their legendary stamina to a unique genetic mutation. This mutation supercharges ...

A genetic change that boosts a cell's aerobic capacity while also protecting it from excess stress could explain how horses became such powerful athletes, according to a new study in Science.

Researchers have revealed a secret behind horses' exceptional endurance – a mutation in the KEAP1 gene that boosts energy production while protecting against cellular oxidative stress. The findings – ...

Researchers have revealed a secret behind horses' exceptional endurance – a mutation in the KEAP1 gene that boosts energy ...

More information: Michael W. Grome et al, Engineering a genomically recoded organism with one stop codon, Nature (2025). DOI: 10.1038/s41586-024-08501-x Provided by Yale University ...

It uses a single stop codon, enabling the production of synthetic proteins with innovative properties. These proteins could revolutionize biotherapies and biomaterials. The scientists compressed ...

Consequently, the mutant protein is entirely different due to the deletion of the fourth nucleotide, and it is also shorter due to the appearance of a premature stop codon. This mutant protein ...

The codons UAA, UAG, and UGA are the stop codons that signal the termination of translation. Figure 2 shows the 64 codon combinations and the amino acids or stop signals they specify. As ...

Each codon corresponds to a specific amino acid. Certain codons tell the translation machinery where to start and stop. But sometimes, like a rogue driver skipping a red light, the machinery skips ...

Each gene has usually two versions within the library: with and without stop codon. If you plan to make use of a vector containing C-terminal tags, select the version without stop codon. The MGC ...