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The coral <i>Acropora loripes</i> genome reveals an alternative pathway for cysteine biosynthesis in animals

Octavio R. Salazar, Arun N. Prasanna, Guoxin Cui, Line K. Bay, Madeleine J. H. van Oppen, Nicole S. Webster, Manuel Aranda

2022Science Advances24 citationsDOIOpen Access PDF

Abstract

The metabolic capabilities of animals have been derived from well-studied model organisms and are generally considered to be well understood. In animals, cysteine is an important amino acid thought to be exclusively synthesized through the transsulfuration pathway. Corals of the genus Acropora have lost cystathionine β-synthase, a key enzyme of the transsulfuration pathway, and it was proposed that Acropora relies on the symbiosis with dinoflagellates of the family Symbiodiniaceae for the acquisition of cysteine. Here, we identify the existence of an alternative pathway for cysteine biosynthesis in animals through the analysis of the genome of the coral Acropora loripes . We demonstrate that these coral proteins are functional and synthesize cysteine in vivo, exhibiting previously unrecognized metabolic capabilities of animals. This pathway is also present in most animals but absent in mammals, arthropods, and nematodes, precisely the groups where most of the animal model organisms belong to, highlighting the risks of generalizing findings from model organisms.

Topics & Concepts

TranssulfurationCystathionine beta synthaseBiologyCysteineAcroporaGenomeBiosynthesisCoralBiochemistryGeneticsAmino acidMetabolic pathwayGeneEnzymeEcologyCoral and Marine Ecosystems StudiesAquaculture disease management and microbiotaAquaculture Nutrition and Growth
The coral <i>Acropora loripes</i> genome reveals an alternative pathway for cysteine biosynthesis in animals | Litcius