Genetic optimization of biomass is necessary to improve the rates and final yields of sugar release from woody biomass. Areas that would benefit from genetic optimization include growth rate environmental stress tolerance yields of easily fermentable polysaccharides total lignin content lowering biomass recalcitrance to fermentation and wood density. Successful application of biotechnology requires both gene discovery and a proper means for gene expression control. However commercial use of biotechnology in crop improvement programs is severely limited by the lack of utility promoters that can drive gene expression in a tissue-specific or temporally controlled manner. Even though some inducible plant promoters exist neither developing xylem cell-specific promoters nor developing xylem tissue-specific promoters have been identified. Thus there is a need for promoters that are specific for expression in developing xylem cells and in developing xylem tissue. Description of Technology: Michigan State University’s technology relates to utility promoters for tissue-specific control of plant genetic expression. The promoter sequences regulate specific expression of operably linked sequences in developing xylem cells and/or in developing xylem tissue. The promoters were identified based on their tissue-specific expression and have been demonstrated to drive gene expression in a tissue where biomass is produced and accumulated. Applications: 1) Biofuel industry: Much effort in the biomass industry is already directed at extraction of various biofuels such as ethanol. 2) Forest products industry: This technology could increase valuable plant traits such as wood density which could increase production of pulp paper and solid wood for building materials and furniture industries. Patent Status: Patent Pending
Patent pending