Exploring the evolutionary process of alkannin/shikonin O-acyltransferases by a reliable Lithospermum erythrorhizon genome.

Abstract

Increasing genome data are coming out. Genome size estimation plays an essential role in guiding genome assembly. Several months ago, other researchers were the first to publish a draft genome of the red gromwell (i.e. Lithospermum erythrorhizon). However, we considered that the genome size they estimated and assembled was incorrect. This study meticulously estimated the L. erythrorhizon genome size to should be ∼708.74 Mb and further provided a reliable genome version (size ≈ 693.34 Mb; contigN50 length ≈ 238.08 Kb) to support our objection. Furthermore, according to our genome, we identified a gene family of the alkannin/shikonin O-acyltransferases (i.e. AAT/SAT) that catalysed enantiomer-specific acylations in the alkannin/shikonin biosynthesis (a characteristic metabolic pathway in L. erythrorhizon's roots) and further explored its evolutionary process. The results indicated that the existing AAT/SAT were not generated from only one round of gene duplication but three rounds; after different rounds of gene duplication, the existing AAT/SAT and their recent ancestors were under positive selection at different amino acid sites. These suggested that a combined power from gene duplication plus positive selection plausibly propelled AAT/SAT's functional differentiation in evolution.