Project description:A lack of systematic experimental data limits our understanding of protein evolution. In this study, we experimentally characterized proteins with randomized sequences. Vast numbers of amino acid combinations constitute stable protein cores and surfaces. However, alternative cores frequently disrupt protein function by indirect allosteric effects. Both protein stability and binding can be predicted by using simple additive energy models with a small contribution from pairwise energetic couplings. Indeed, energy models trained on one protein can predict functional cores and surfaces across more than a billion years of evolution, with only rare energetic couplings that we experimentally identify limiting the transplantation of cores between highly diverged proteins. Our results reveal the simple energetic architecture of proteins and suggest that allostery is an important constraint on sequence evolution.

Project description:Arabian Sea coastal cores

Project description:Pivers Island Coastal Observatory Raw sequence reads

Project description:Transcriptomic profiling (RNA-Seq) of the posterior salivary glands of Sepia officinalis L. 1758 (Mollusca: Coleoidea), wild type, collected from the Portuguese West coast (2020).

Project description:RNA-seq of Arabidopsis rosette cores

Project description:Microbiome profiling Schlöppnerbrunnen peat cores from different depths

Project description:Little Sippewissett Marsh sediment cores Targeted loci environmental

Project description:rock cores of deep subsurface metagenome Metagenome

Project description:This SuperSeries is composed of the SubSeries listed below. [SUBMITTER_CITATION]: Frey, C., Bange, H. W., Achterberg, E. P., Jayakumar, A., Löscher, C. R., Arévalo-Martínez, D. L., León-Palmero, E., Sun, M., Sun, X., Xie, R. C., Oleynik, S., and Ward, B. B.: Regulation of nitrous oxide production in low-oxygen waters off the coast of Peru, Biogeosciences, 17, 2263-2287

Project description:Central Coast Lagoons Raw sequence reads