Diagnostic KASP markers differentiate Vanilla planifolia, V. odorata, V. pompona, and their hybrids using leaf or cured pod tissues.

BACKGROUND: Vanilla is a globally important spice crop used in a variety of food, cosmetic, and pharmaceutical products. V. planifolia is the primary commercial species with V. x tahitensis also permissible for food use. Other aromatic species, including V. pompona, are used for food throughout Central and South America. Supply chain complexity hinders the vanilla bean industry and can lead to false claims of genetic and geographical origins to obtain higher prices. Beans of some species can be differentiated by experienced buyers, but hybrids and morphological differences caused by environmental variability or disease would best be resolved by diagnostic tests. METHODS AND RESULTS: Kompetitive Allele Specific Polymerase Chain Reaction is a widely used molecular marker that can genotype single nucleotide polymorphisms efficiently and inexpensively. Assays were designed to differentiate V. planifolia, V. x tahitensis, and V. pompona using publicly available vanilla genomics data. Ten KASP assays on chromosomes 1 through 7, the ITS region, and plastid-encoded rbcL gene successfully differentiated V. planifolia, V. odorata, and V. x tahitensis. Additional KASP assays on chromosomes 1 through 4, the ITS region, and rbcL gene successfully differentiated V. planifolia and V. pompona. Further, a method for extracting KASP-quality DNA from cured vanilla bean seeds was developed and successfully differentiated V. planifolia, V. odorata, V. x tahitensis, V. pompona, and their hybrids. CONCLUSION: The methods and results from this study can be used to identify interspecific hybrids, ensure the authenticity of cured vanilla beans, and reduce abuse within the vanilla supply chain.

First Gynogenesis of Vanilla planifolia for Haploid Production and Ploidy Verification Protocol.

Vanilla orchids are members of the Vanilloideae orchid subfamily, and they hold significant economic value as a spice crop in tropical regions. Despite the presence of 180 known species within this subfamily, commercial production focuses on only three species (Vanilla planifolia, V. odorata, and V. pompona) and one hybrid (V. × tahitensis), prized for their aromatic qualities and bioactive compounds. Limited modern breeding initiatives have been undertaken with vanilla orchids, although recent advancements in genomic research are shedding light on this crop's potential. The protracted breeding cycle of vanilla, coupled with increasing demand for germplasm, underscores the importance of research and breeding efforts in vanilla. This paper outlines a protocol for haploid production in V. planifolia using unfertilized ovaries in tissue culture conditions. Additionally, we present a methodology to confirm the haploid nature of putative haploid lines through stomatal size comparison, chromosome counting, and flow cytometry analysis, proving the successful development of haploid vanilla plants. These findings contribute to the advancement of breeding programs and genetic improvement strategies for the vanilla industry.