Extra Legs, Missing Genitalia: Scientists Create Unique 6-legged Mouse Embryo with Genetic Mutation”.

Designing a Six-Legged Mouse for the First Time

In Portugal, scientists from the Gulbenkian Institute of Sciences in Oerias have successfully created a 6-legged mouse embryo with an extra pair of hind legs instead of external genitalia. This remarkable discovery was made by Mois├ęs Mallo and his team who were researching a receptor protein called Tgfbr1, which plays a crucial role in embryonic development.

The researchers halted the activity of the Tgfbr1 gene in mid-pregnancy mouse embryos to study its effects on spinal cord development. The Tgfbr1 gene produces a protein called transforming growth factor beta type 1 receptor, which is involved in cell growth and division. Mutations in this gene have been linked to an increased risk of skin cancer, and a rare syndrome called Ferguson-Smith disease can lead to the formation of multiple skin tumors.

The team discovered that the Tgfbr1 gene influences the development of both genitalia and hind legs in quadrupeds. When the gene is inactivated, the structure that would normally become genitalia transforms into additional hind legs. This finding highlights how the activity of one gene can affect the development of other structures in the body.

Moving forward, the researchers plan to explore how Tgfbr1 and related genes may impact DNA structure in other systems, such as metastatic cancer. They also hope to investigate whether similar processes contribute to the development of unusual characteristics in reptiles. This groundbreaking research sheds light on the complex mechanisms of embryonic development and genetic regulation.

In summary, scientists at Gulbenkian Institute of Sciences have successfully created a 6-legged mouse embryo with an extra pair of hind legs instead of external genitalia by halting the activity of a receptor protein called Tgfbr1 during embryonic development. Their research provides insight into how genetic regulation impacts embryonic development and sheds light on potential applications for this knowledge in future medicine.

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