Fresh from raising $200 million, ColossalBiosciences announced it has genetically engineered the Colossal Woolly Mouse, with a warm coat taken from the genes of the extinct woolly mammoth.Dallas and Boston-based Colossal Biosciences is has engineered key mammoth-like traits into the mice so they can adapt to life in cold climates. This means the company is making strides in the scientific breakthroughs toward de-extinction, or bringing back extinct species like the woolly mammoth, thylacine and the dodo.By successfully modifying seven genes simultaneously,Colossals team created mice with dramatically altered coat color, texture, and thickness reminiscent of the woolly mammoths core phenotypes. This achievement demonstrates the feasibility of expressing traits using information learned from the computational analysisof 59 woolly, Columbian, and steppe mammoth genomes ranging from 3,500 to over 1,200,000 years old confirming these pathways as the crucial targets for mammoth de-extinction.If youre getting the vibe of the plot of Michael Crichtons novel Jurassic Park, youre not alone. In that book (and subsequent Steven Spielberg film) scientists used the DNA found in mosquitoes preserved in amber to bring back the Tyrannosaurus Rex and other dinosaurs. I mean, what could go wrong when science fiction becomes reality? Woolly mammoth image generated by Microsoft Copilot.TheColossalWoolly Mouse marks a watershed moment in our de-extinction mission, said Ben Lamm, CEO ofColossalBiosciences, in a statement. By engineering multiple cold-tolerant traits from mammoth evolutionary pathways into a living model species, weve proven our ability to recreate complex genetic combinations that took nature millions of years to create. This success brings us a step closer to our goal of bringing back the woolly mammoth.Colossals mammoth team explored a data set of 121 mammoth and elephant genomes, includingColossal-created high quality reference genomes for Asian and African elephants, to identify significant genes that impact hair and other cold-adaptation traits. The team focused on a suite of genes in which mammoths had evolved fixed differences compared to their closely related Asian elephant cousins. TheColossalscientists refined the list to include ten genes related to hair length, thickness, texture, and color as well as lipid metabolism that were compatible with expression in a mouse.The team then edited the mouse genome using a streamlined strategy that combined three editing technologies: RNP-mediated knockout, multiplex precision genome editing, and precision homology directed repair (HDR) and made eight edits simultaneously, some with editing efficiencies as high as 100%, to modify seven genes.The gene editing resulted in mice with the predicted traits from the teams computational analysis and design for specific phenotypic changes.Colossalwoolly mice all have an edit that causes loss of function in the gene Fibroblast growth factor 5, orFGF5, which alters hair growth cycles, leading to hair that can grow as much as three times longer than wild type. Similarly, loss of function ofFAM83G,FZD6, orTGM3leads toColossalwoolly mice demonstrating hair phenotypes with a woolly hair texture, wavy coats, and curled whiskers through changes to hair follicle development and structure.TheColossalwoolly mouse is a powerful system for testing hypotheses about the link between specific DNA sequences and physical traits. Mammoths have a nonfunctional version of the gene Transforming growth factor alpha, orTGFA, as well as a mutation of the keratin gene KRT27 that encodes a valine at position 191 rather than the usual methionine. Both genes are predicted to contribute to the woolly mammoth coat.Colossalwoolly mice have been engineered with both a non-functionalTGFAand a valine at position 191 of KRT27, just like the woolly mammoth, and display a wavy coat phenotype.Ben Lamm is CEO of Colossal BiosciencesColossalwoolly mice also express several engineered traits other than hair length and texture. To re-create the lighter coat colors observed in woolly mammoth mummies,Colossalwoolly mice have a modified version of the geneMC1R, which regulates melanin production, that produces mice with golden hair rather than the black/agouti wild type coat color.Colossalwoolly mice also express a truncated version of fatty acid binding protein 2, orFABP2, reflecting a similar change in mammoths.FABP2is associated with lipid metabolism and fatty acid absorption. In mice, truncated versions of this gene that are similar to that which evolved in mammoths leads to changes in body weight.TheColossalWoolly Mouse showcases our ability to use the latest genome editing tools and approaches to drive predictable phenotypes, said Beth Shapiro, chief science officer atColossal, in a statement. It is an important step toward validating our approach to resurrecting traits that have been lost to extinction and that our goal is to restore.Im incredibly proud of what our team has accomplished here in the lab in such a short period of time, said Michael Abrams, who co-leadsColossals mammoth team in a statement. Weve pushed the boundaries of genetic engineering by coordinating multiple complex trait modifications in living animals with exceptionally high efficiency. This achievement showcases both the technical expertise of our scientists and the power of our genetic engineering platform to deliver predictable phenotypes.The implications of this breakthrough extend beyond the laboratory. Not only is theColossalWoolly Mouse the first living animal engineered to express multiple cold-adapted traits using mammoth gene orthologs, but it is also a living model for studying cold-climate adaptations in mammals. Additional future analyses of theColossalWoolly mice will also improve our understanding of how multiple genes work together to manifest physical traits.TheColossalWoolly Mouse demonstrates remarkable progress weve made in precise genome engineering, including optimized delivery methods, innovative multiplexing and combinations of gene targeting strategies. said George Church, Professor of Genetics at the Wyss Institute and Harvard Medical School and Co-founder ofColossal, in a statement. We are showing that we can now rationally design and construct complex genetic adaptations, with profound implications for the future of multi-gene de-extinction and engineering.Since launching in September 2021, Colossal has raised $435 million in total funding. Colossal employs over 170 scientists and partners with labs in Boston, Dallas, and Melbourne, Australia. In addition, Colossal sponsors over 40 full time postdoctoral scholars and research programs in 16 partner labs at some of the most prestigious universities around the globe. Colossals scientific advisory board has grown to include over 95 of the top scientists working in genomics, ancient DNA, ecology, conservation, developmental biology, and paleontology. In October 2024, the Colossal Foundation was launched, a sister 501(c)(3) focused on overseeing the deployment and application of Colossal-developed science and technology innovations. The organization currently supports 48 conservation partners and their global initiatives around the world. By 2050, it is projected that over 50% of the worlds animal species may be extinct. Now around 27,000 species per year go extinct, compared to the natural rate of 10 to 100 species per year. Over the past 50 years (19702020), the average size of monitored wildlife populations has shrunk by 73%. GB DailyStay in the know! 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