Proceedings of the National Academy of Sciences of the United States of America. 2022-02-08; 119.6:

Domoic acid biosynthesis in the red alga Chondria armata suggests a complex evolutionary history for toxin production

Steele TS, Brunson JK, Maeno Y, Terada R, Allen AE, Yotsu-Yamashita M, Chekan JR, Moore BS

PMID: 35110408


Domoic acid (DA), the causative agent of amnesic shellfish poisoning, is produced by select organisms within two distantly related algal clades: planktonic diatoms and red macroalgae. The biosynthetic pathway to isodomoic acid A was recently solved in the harmful algal bloom-forming diatom , establishing the genetic basis for the global production of this potent neurotoxin. Herein, we sequenced the 507-Mb genome of , the red macroalgal seaweed from which DA was first isolated in the 1950s, identifying several copies of the red algal DA () biosynthetic gene cluster. The genes are organized similarly to the diatom DA biosynthesis cluster in terms of gene synteny, including a cytochrome P450 (CYP450) enzyme critical to DA production that is notably absent in red algae that produce the simpler kainoid neurochemical, kainic acid. The biochemical characterization of the -prenyltransferase (RadA) and kainoid synthase (RadC) enzymes support a slightly altered DA biosynthetic model in via the congener isodomoic acid B, with RadC behaving more like the homologous diatom enzyme despite higher amino acid similarity to red algal kainic acid synthesis enzymes. A phylogenetic analysis of the genes suggests unique origins for the red macroalgal and diatom genes in their respective hosts, with native eukaryotic CYP450 neofunctionalization combining with the horizontal gene transfer of prenyltransferases and kainoid synthases to establish DA production within the algal lineages.