Haematococcus lacustris genome assembly and annotation reveal diploid genetic traits and stress-induced gene expression patterns
Luca Marcolungo, Francesco Bellamoli, Michela Cecchin, Giulia Lopatriello, Marzia Rossato, Emanuela Cosentino, Stéphane Rombauts, Massimo Delledonne, Matteo Ballottari
Abstract
The green alga Haematococcus lacustris (formerly Haematococcus pluvialis) is a primary source of astaxanthin, a ketocarotenoid with high antioxidant activity and several industrial applications. Here, the Haematococcus lacustris highly repetitive genome was reconstructed by exploiting next-generation sequencing integrated with Hi-C scaffolding, obtaining a 151 Mb genome assembly in 32 scaffolds at a near-chromosome level with high continuity. Surprisingly, the distribution of the single-nucleotide-polymorphisms identified demonstrates a diploid configuration for the Haematococcus genome, further validated by Sanger sequencing of heterozygous regions. Functional annotation and RNA-seq data enabled the identification of 13,946 nuclear genes, with >5000 genes not previously identified in this species, providing insights into the molecular basis for metabolic rearrangement in stressing conditions such as high light and/or nitrogen starvation, where astaxanthin biosynthesis is triggered. These data constitute a rich genetic resource for biotechnological manipulation of Haematococcus lacustris highlighting potential targets to improve astaxanthin and carotenoid productivity.