Analyses of diverse low alkaloid tobacco germplasm identify naturally occurring nucleotide variability contributing to reduced leaf nicotine accumulation

Recent suggestions for mandated lowering of nicotine content in cigarettes have prompted tobacco breeders to search for N. tabacum germplasm with allelic variability contributing to low alkaloid accumulation. In this research, we phenotyped a series of 81 selected diverse tobacco introductions (TIs) to identify a sub-group with authentic low alkaloid phenotypes. We also genotyped these materials for sequences associated with the Nic1 and Nic2 loci previously reported to influence tobacco alkaloid biosynthesis. Only five low alkaloid TIs possessed previously described deletions of Ethylene Response Factor (ERF) genes at the Nic2 locus that contribute to lower alkaloid accumulation. Eleven TIs possessed an apparent deletion of ERF 199, a gene recently reported to underlie the effect at the Nic1 locus. Quantitative trait locus (QTL) mapping was performed using populations derived from three selected low alkaloid TIs to possibly identify new genomic regions affecting alkaloid accumulation. A major QTL was identified on linkage group 7 in all three populations that aligned with the Nic1 locus. A newly discovered 5 bp deletion in the gene MYC2a on linkage group 5 was found to likely partially underlie the ultra-low alkaloid phenotype of TI 313. This new information is useful for tobacco breeders attempting to assemble novel genetic combinations with the potential for meeting future levels of tolerance for nicotine concentration in cigarette tobacco.

Automated summary

This research identified several tobacco introductions with low alkaloid phenotypes through phenotyping and genotyping analysis. Some introductions achieved lower alkaloid accumulation by deleting specific genes, while others achieved low alkaloid phenotypes through the deletion of another gene. In addition, a new genomic region that may affect alkaloid accumulation was discovered through quantitative trait locus mapping.