Group leader at I2BC - Paris-Saclay. de novo genes & microproteins | structure & evolution http://bim.i2bc.paris-saclay.fr/anne-lopes
Anne Lopes
We are looking for outstanding scientists to develop ambitious research programs in molecular and cellular biology, with special interest in multidisciplinary projects and computational biology.More info: www.i2bc.paris-saclay.fr #MolecularBiology
#CellBiology #ComputationalBiology #TeamLeaders#I2BC
Fresh news on de novo genes! Happy to present our latest work published in Nature communications: www.nature.com/articles/s41...
Keywords not in specific order: intergenic ORFs, de novo genes, GC content, foldability, genetic code, ancestral sequence reconstruction and more :)
Anne Lopes
Check out our new review in Nature Reviews Genetics on de novo emerged genes and proteins. How they emerge, are lost and persist - and how de novo emerged proteins relate to randomized proteins! @bornberglab.bsky.social www.nature.com/articles/s41...
De novo genes arise from previously non-coding sequences. This evolutionary path — when randomly expressed sequences become folded and active proteins — challenges our understanding of genetic innovation. New Review by @bornberglab.bsky.social and @lacholt.bsky.social out now!
De novo gene evolution entails the birth of new genes from previously non-coding DNA. In this Review, Bornberg-Bauer and Eicholt overview how protein-coding de novo genes are identified, the mechanist...
New review out in Nat Rev Genet: Emergence & evolution of protein-coding de novo genes by Erich and Lars Eicholt @lacholt.bsky.social. How non-coding DNA becomes translated, persists or is lost in populations, and can yield structured/functional proteins—plus methods & open questions! rdcu.be/e09SM
Nature Reviews Genetics - De novo gene evolution entails the birth of new genes from previously non-coding DNA. In this Review, Bornberg-Bauer and Eicholt overview how protein-coding de novo genes...
New online! Emergence and evolution of protein-coding de novo genes
Nature Reviews Genetics, Published online: 28 January 2026; doi:10.1038/s41576-025-00929-9De novo gene evolution entails the birth of new genes from previously non-coding DNA. In this Review, Bornberg-Bauer and Eicholt overview how protein-coding de novo genes are identified, the mechanistic and evolutionary processes underlying their emergence and evolution, and the patterns in their encoded protein structures.
