Structure and function of naturally evolved de novo proteins.

• Comparative evolutionary genomics has revealed that novel protein coding genes can emerge randomly from non-coding DNA. • The existence of de novo proteins seems at odds with decade-long attempts to construct proteins with novel structures and functions from scratch. • Recent results show that sequence properties of these de novo proteins are indistinguishable from randomly obtained sequences. • A better understanding of de novo proteins may fuel new strategies for protein design. Comparative evolutionary genomics has revealed that novel protein coding genes can emerge randomly from non-coding DNA. While most of the myriad of transcripts which continuously emerge vanish rapidly, some attain regulatory regions, become translated and survive. More surprisingly, sequence properties of de novo proteins are almost indistinguishable from randomly obtained sequences, yet de novo proteins may gain functions and integrate into eukaryotic cellular networks quite easily. We here discuss current knowledge on de novo proteins, their structures, functions and evolution. Since the existence of de novo proteins seems at odds with decade-long attempts to construct proteins with novel structures and functions from scratch, we suggest that a better understanding of de novo protein evolution may fuel new strategies for protein design. [ABSTRACT FROM AUTHOR]