Litcius/Paper detail

Chromosome-level genome assembly of <i>Mentha longifolia</i> L. reveals gene organization underlying disease resistance and essential oil traits

Kelly Vining, Iovanna Pandelova, Iris Lange, Amber N. Parrish, Andrew J. Lefors, Brent A. Kronmiller, Ivan Liachko, Zev Kronenberg, Narayanan Srividya, B. Markus Lange

2022G3 Genes Genomes Genetics20 citationsDOIOpen Access PDF

Abstract

Mentha longifolia (L.) Huds., a wild, diploid mint species, has been developed as a model for mint genetic and genomic research to aid breeding efforts that target Verticillium wilt disease resistance and essential oil monoterpene composition. Here, we present a near-complete, chromosome-scale mint genome assembly for M. longifolia USDA accession CMEN 585. This new assembly is an update of a previously published genome draft, with dramatic improvements. A total of 42,107 protein-coding genes were annotated and placed on 12 chromosomal scaffolds. One hundred fifty-three genes contained conserved sequence domains consistent with nucleotide binding site-leucine-rich-repeat plant disease resistance genes. Homologs of genes implicated in Verticillium wilt resistance in other plant species were also identified. Multiple paralogs of genes putatively involved in p-menthane monoterpenoid biosynthesis were identified and several cases of gene clustering documented. Heterologous expression of candidate genes, purification of recombinant target proteins, and subsequent enzyme assays allowed us to identify the genes underlying the pathway that leads to the most abundant monoterpenoid volatiles. The bioinformatic and functional analyses presented here are laying the groundwork for using marker-assisted selection in improving disease resistance and essential oil traits in mints.

Topics & Concepts

BiologyGeneGeneticsGenomePlant disease resistanceWhole genome sequencingCandidate geneVerticillium wiltExpressed sequence tagBotanyPlant Pathogens and Fungal DiseasesPlant biochemistry and biosynthesis
Chromosome-level genome assembly of <i>Mentha longifolia</i> L. reveals gene organization underlying disease resistance and essential oil traits | Litcius