Pollen sterols are associated with phylogenetics and environment but not with pollinators

Phytosterols are primary plant metabolites that have fundamental structural and regulatory functions. They are also essential nutrients for phytophagous insects, including pollinators, that cannot synthesize sterols. Despite the well-described composition and diversity in vegetative plant tissues, few studies have examined phytosterol diversity in pollen. We quantified 25 pollen phytosterols in 122 plant species (105 genera, 51 families) to determine their composition and diversity across plant taxa. We searched literature and databases for plant phylogeny, environmental conditions, and pollinator guilds of the species to examine the relationships with pollen sterols. 24-methylenecholesterol, sitosterol and isofucosterol were the most common and abundant pollen sterols. We found phylogenetic clustering of twelve individual sterols, total sterol content and sterol diversity, and of sterol groupings that reflect their underlying biosynthesis pathway (24 carbon alkylation, ring B desaturation). Plants originating in tropical-like climates (higher mean annual temperature, lower temperature seasonality, higher precipitation in wettest quarter) were more likely to record higher pollen sterol content. However, pollen sterol composition and content showed no clear relationship with pollinator guilds. Our study is the first to show that pollen sterol diversity is phylogenetically clustered and that pollen sterol content may adapt to environmental conditions

Sterol production in yeast

The present invention relates to genetically-modified oleaginous yeasts for producing non-native sterols at commercially useful levels, especially for example in providing sterols individually or as a mixture in an artificial dietary composition for honeybees or other insects or animals. For this purpose, an oleaginous yeast, e.g. Yarrowia lipolytica, may be employed wherein the yeast has reduced production of ergosterol compared with a wild-type oleaginous yeast or is incapable of producing ergosterol and is provided with a sterol surrogate to aid growth. From such yeast, however, other yeast may be engineered which retain useful sterol production without need for a sterol surrogate, e.g. production of sterol mixtures in which 24-methylenecholesterol or campesterol is the dominant sterol.</p