Dinosaur collagen used to create one-of-a-kind handbag

By Charlotte Van Campenhout

AMSTERDAM, April 2 (Reuters) - Scientists and designers unveiled on Thursday a handbag made with collagen derived from Tyrannosaurus rex fossils from the U.S. in ‌a unique creation intended to demonstrate the value of laboratory-grown leather.

The teal-coloured bag ‌was displayed on a rock in a cage under a replica of a T. rex at Amsterdam's Art Zoo museum ​where it will be auctioned next month at a reported starting price of more than half a million dollars.

Scientists behind the initiative said the material was developed using ancient protein fragments extracted from dinosaur remains that were inserted into an unidentified animal's cell to produce collagen that was turned ‌into leather.

"There were a lot of ⁠technical challenges," said Thomas Mitchell, CEO of The Organoid Company, one of three companies behind the so-called "T. rex leather" bag.

Genomic engineering firm Organoid and ⁠creative agency VML, another of the firms behind the project, previously collaborated on creating a giant meatball in 2023 by combining the DNA of a woolly mammoth with sheep cells.

Che Connon, CEO of Lab‑Grown ​Leather Ltd. ​that worked on producing the leather for the ​handbag from the engineered collagen, said the ‌T. Rex origin gave it extra "oomph".

"It's not just about a green alternative to leather, it's a technological upgrade," Connon said of lab-grown leather.

SCEPTICISM

Some scientists outside the project have expressed scepticism about the term "T. rex leather", saying material from other animals would be needed.

Dutch vertebrate paleontologist Melanie During, of the Vrije Universiteit Amsterdam, said collagen can persist in dinosaur bones only as fragmented traces ‌that cannot be used to recreate T. rex skin ​or leather.

Thomas R. Holtz Jr., a paleontologist at the ​University of Maryland, similarly said any collagen ​identified in T. rex fossils comes from inside bone, not skin, and ‌that even perfectly matching proteins would lack ​the larger‑scale fibre organization ​that gives animal leather its distinctive properties.

"I would say that when you do something new for the first time, there is always criticism," Mitchell said in response.

"And I think ​we're really grateful for that ‌criticism. It's the bedrock of scientific exploration ... I think this is the closest anyone ​has gotten and will probably ever get to create something that's T. rex."

(Reporting ​by Charlotte Van Campenhout, Editing by Andrew Cawthorne)