Analysis of the complete organellar genomes of the economically valuable kelp Lessonia spicata (Lessoniaceae, Phaeophyceae) from Chile.
Daniel TineoKarol B RubioJegnes B MelendezJani E MendozaJhonsy O SilvaJhordy PerezEggleantina E EsquerreMelissa Perez-AlaniaSamia L FernandezSmith E AguilarFernando ChuquizutaYadira M OlanoRenzo P HoyosJaris E VenerosLigia M GarciaNatalia ArakakiEnrique Garcia-CandelaManuel OlivaAndres MansillaMartha S CalderonJeffery R HugheyDanilo E BustamantePublished in: Mitochondrial DNA. Part B, Resources (2019)
Lessonia spicata (Suhr) Santelices is the most ecologically and economically important kelp from Pacific South America. Here, we contribute to the bioinformatics and evolutionary systematics of the species by performing high throughput sequencing on L. spicata from Valparaiso, Chile. The L. spicata complete mitogenome is 37,097 base pairs (bp) in length and contains 66 genes (GenBank accession MK965907), the complete plastid genome is 130,305 bp and has 173 genes (accession MK965908), and the data assembled 7,630 bp of the nuclear ribosomal cistron (accession MK965909). The organellar genomes are similar in structure and content to others published from the Laminariales.