The present application relates to the identification of novel DNA methyltransferases including CHG methylation in algal species. The present application relates to algal mutants permitting the expression of exogenous genes by alleviating the epigenetic mechanisms of CHG and CHH methylation of exogenous DNA and mono- and tri-methylation of lysine 9 of histone 3 (H3K9). This is achieved by mutating or attenuating the methyltransferase (MTase) genes in algae. The present application also relates to methods for efficiently expressing exogenous genes in algal species.

The present application relates to the identification of novel DNA methyltransferases including CHG methylation in algal species. The present application relates to algal mutants permitting the expression of exogenous genes by alleviating the epigenetic mechanisms of CHG and CHH methylation of exogenous DNA and mono- and tri-methylation of lysine 9 of histone 3 (H3K9). This is achieved by mutating or attenuating the methyltransferase (MTase) genes in algae. The present application also relates to methods for efficiently expressing exogenous genes in algal species.

According to present disclosure, there is disclosed an algae growth and cultivation system that provides a cost-efficient means of producing algae biomass as feedstock for algae-based products, such as, fertilizer, feed, biofuel manufacture, and desirably impacts, nutrient recovery from waste streams for valued byproducts production, recycle water, and alternative/renewable energy production. The system as discussed herein is an integrated systems approach to wastewater treatment, algal strains selection for byproducts production, and recycle of algal biomass-processing waste or additional algae harvested as feedstock for products such as fertilizer production. Embodiments of a system as discussed herein present an economically viable algae production system and process that allows algae-derived products such as fertilizer, feed, biofuels, etc. to compete with non-organic or petroleum products in the marketplace.

According to present disclosure, there is disclosed an algae growth and cultivation system that provides a cost-efficient means of producing algae biomass as feedstock for algae-based products, such as, fertilizer, feed, biofuel manufacture, and desirably impacts, nutrient recovery from waste streams for valued byproducts production, recycle water, and alternative/renewable energy production. The system as discussed herein is an integrated systems approach to wastewater treatment, algal strains selection for byproducts production, and recycle of algal biomass-processing waste or additional algae harvested as feedstock for products such as fertilizer production. Embodiments of a system as discussed herein present an economically viable algae production system and process that allows algae-derived products such as fertilizer, feed, biofuels, etc. to compete with non-organic or petroleum products in the marketplace.

The present invention discloses biomass compositions for improving shelf life, increasing fruit water retention, and/or decreasing needle-drop in conifer species and methods for making the same. The composition comprises pasteurized microalgae selected from Chlorella, Aurantiochytrium, Scenedesmus, or any combination thereof.

The present invention discloses biomass compositions for improving shelf life, increasing fruit water retention, and/or decreasing needle-drop in conifer species and methods for making the same. The composition comprises pasteurized microalgae selected from Chlorella, Aurantiochytrium, Scenedesmus, or any combination thereof.

The present invention relates to a composition of seaweed algal extracts having a dry matter content between 18-36%. These extracts preferably belong to Ascophyllum nodosum. The said extracts are also characterised using bioactive compounds found in them inherently. The present invention also provides a method of making the said composition and characterising the same.

The present invention relates to a composition of seaweed algal extracts having a dry matter content between 18-36%. These extracts preferably belong to Ascophyllum nodosum. The said extracts are also characterised using bioactive compounds found in them inherently. The present invention also provides a method of making the said composition and characterising the same.

The present invention relates to recombinant protein production in algal cells. In particular, the present invention provides methods for making recombinant polypeptides in association with accumulated lipid particles or chloroplasts. The methods involve producing the recombinant polypeptide as a fusion polypeptide with an oil body protein and the growth of the algal cells under non-homeostatic conditions to form accumulated lipid particles within the algal cells, wherein the algal lipid particles contain the fusion polypeptide.

The present invention relates to a seaweed-based composition comprising water, a seaweed powder and an additional component, said additional component being chosen from the group consisting of glucomannans, galactomannans, native starch and combinations thereof. Preferably, the red seaweed selected from the families of Gigartinaceae, Bangiophyceae, Palmariaceae, Hypneaceae, Cystocloniaceae, Solieriaceae, Phyllophoraceae and Furcellariaceae or combinations thereof.