A consensus view of the proteome of the last universal common ancestor

Authors

Andrew J. Crapitto, Oberlin College
Amy Campbell
AJ Harris
Aaron D. Goldman, Oberlin College

Abstract

The availability of genomic and proteomic data from across the tree of life has made it possible to infer features of the genome and proteome of the last universal common ancestor (LUCA). A number of studies have done so, all using a unique set of methods and bioinformatics databases. Here, we compare predictions across eight such studies and measure both their agreement with one another and with the consensus predictions among them. We find that some LUCA genome studies show a strong agreement with the consensus predictions of the others, but that no individual study shares a high or even moderate degree of similarity with any other individual study. From these observations, we conclude that the consensus among studies provides a more accurate depiction of the core proteome of the LUCA and its functional repertoire. The set of consensus LUCA protein family predictions between all of these studies portrays a LUCA genome that, at minimum, encoded functions related to protein synthesis, amino acid metabolism, nucleotide metabolism, and the use of common, nucleotide-derived organic cofactors.

Repository Citation

Crapitto, Andrew J., Amy Campbell, AJ Harris, and Aaron D. Goldman. 2022. "A consensus view of the proteome of the last universal common ancestor." Ecology and Evolution 12(6): e8930.

Publisher

Wiley

Publication Date

7-1-2022

Publication Title

Ecology and Evolution

Department

Biology

Document Type

Article

DOI

https://dx.doi.org/10.1002/ece3.8930

Keywords

Ancient genomes, Ancient life, Ancient metabolism, Early evolution, Last universal common ancestor, LUCA

Language

English

Format

text