Scientists Turn Chicken Scales Into Feathers With Gene Modification

Scientists have turned scales into feathers – by tinkering with chicken genes.

Researchers from the University of Geneva (UNIGE) have discovered how to permanently transform the scales that normally cover the feet of chickens into feathers, by specifically modifying the expression of certain genes.

The results, published in the journal Science Advances, open new perspectives for studying mechanisms that have enabled radical evolutionary transitions in form among species.

Incredibly, the team was able to achieve results by concentrating on a gene scientifically named Sonic hedgehog (Shh).

A UNIGE spokesperson explains: “Scales, spines, feathers and hair are examples of vertebrate skin appendages, which constitute a remarkably diverse group of micro-organs.

“Despite their natural multitude of forms, these appendages share early developmental processes at the embryonic stage.

“The skin of terrestrial vertebrates is adorned with diverse keratinized appendages, such as hair, feathers, and scales. Despite the diversity of forms within and among species, the embryonic development of skin appendages typically begins in a very similar way.

“Indeed, all of these structures develop from cells that produce a localized thickening on the skin surface and express particular genes”.

One of these genes, called Sonic hedgehog (Shh), controls a signaling pathway – a communication system that allows the transmission of messages within and between cells.

Shh Signaling is involved in the development of diverse structures, including the neural tube, limb buds and skin appendages.

The laboratory of Michel Milinkovitch, professor in the Department of Genetics and Evolution at the Faculty of Science of the UNIGE, is interested in the physical and biological processes that generate the diversity of skin appendages in vertebrates.

In particular, his group has previously demonstrated that hair, feathers and scales are homologous structures inherited from a reptilian common ancestor.

Feathers of the chicken embryo are used by scientists as a model system to understand skin appendage development. While it is known that certain breeds of chickens, such as the “Brahma” and “Sablepoot” varieties, exhibit feathered legs and dorsal foot surfaces, the genetic determinism of this trait is not fully understood.

As the signaling pathways responsible for this transformation have not been fully determined, Michel Milinkovitch’s group investigated the potential role of the Shh pathway.

“We used the classic technique of ‘egg candling’, in which a powerful torch illuminates blood vessels on the inside of the eggshell. This allowed us to precisely treat chicken embryos with a molecule that specifically activates the Shh pathway, injected directly into the bloodstream,’’ explains Rory Cooper, a post-doctoral researcher in Michel Milinkovitch’s laboratory and co-author of the study.

The two scientists observed that this single stage-specific treatment is sufficient to trigger the formation of abundant juvenile down-type feathers, in areas that would normally be covered with scales.

Remarkably, these experimentally-induced feathers are comparable to those covering the rest of the body, as they are regenerative and are subsequently and autonomously replaced by adult feathers.

After comparison with embryos injected with a ‘control’ solution (without the active molecule), RNA sequencing analysis showed that the Shh pathway is both immediately and persistently activated following injection of the molecule. This confirms that activation of the Shh pathway underlies the conversion of scales into feathers.

‘‘Our results indicate that an evolutionary leap – from scales to feathers – does not require large changes in genome composition or expression. Instead, a transient change in expression of one gene, Shh, can produce a cascade of developmental events leading to the formation of feathers instead of scales,’’ says Michel Milinkovitch.

This research initially focused on the study of the development of scales and feathers, therefore has important implications for understanding the evolutionary mechanisms generating the enormous diversity of animal forms observed in nature.

The sonic hedgehog gene was named by Robert Riddle, a postdoctoral fellow at Harvard’s Tabin Lab after his wife Betsy Wilder came home with a magazine containing an advert for the game Sonic the Hedgehog.

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