Abstract: Methods for rendering micellar coordination complexes for the treatment of plants, comprising the steps of mixing one or more ketoesters with other nutrients resulting in water-borne availability; applying a suitable volume of the resulting mixture to one or more plants; delivery to green plants; nutrimentally based growth of crops; and compositions for the same.

Abstract: Glycan Composites and methods for rendering glycan composites for the treatment of photosynthetic organisms, including the steps of formulating branched glycan deglycosylates into coordination complex compositions resulting in water-borne availability; stability during storage; applying a suitable volume of the resulting mixture to one or more photosynthetic organisms; delivery to photosynthetic organisms; metabolically based growth of crops; enhanced qualities and increased quantities of crops; and systems and compositions for the same.

Abstract: Methods for promoting plant growth based on novel photosafening treatment regimes with glycopyranosides including glycopyranosylglycopyranosides, and aryl-?-D-glycopyranosides, and more specifically, with one or more compounds comprising terminal mannosyl-triose, optionally in the presence of light enhanced by one or more light reflecting and/or refracting members such as silicon-based substrates. Furthermore, chemical synthesis processes for the above compounds are disclosed for general application to plants. Silicate microbeads of the like are distributed over the ground or substrate in which roots of a plant are supported and planted, beneath and around a plant in a manner that light is refracted or reflected toward the phylloplane.

Abstract: Methods and compositions comprising design of enlarged pectins are provided. Elaborated pectins are useful for a multitude of functions including surface coating, penetrant, additive and gell. Methods according to the present invention comprise steps for treatments to one or more live pectic cells in one or more compositions that result in modified pectins. In specific embodiments, methods are provided for applying the nanotechnology to live cells for carriage and incorporation of polar compounds.

Abstract: Methods and compositions comprising design of enlarged pectins are provided. Elaborated pectins are useful for a multitude of functions including surface coating, penetrant, additive and gell. Methods according to the present invention comprise steps for treatments to one or more live pectic cells in one or more compositions that result in modified pectins. In specific embodiments, methods are provided for applying the nanotechnology to live cells for carriage and incorporation of polar compounds.

Abstract: Methods and compositions comprising design of enlarged pectins are provided. Elaborated pectins are useful for a multitude of functions including surface coating, penetrant, additive and gell. Methods according to the present invention comprise steps for treatments to one or more live pectic cells in one or more compositions that result in modified pectins. In specific embodiments, methods are provided for applying the nanotechnology to live cells for carriage and incorporation of polar compounds.

Abstract: Methods and compositions comprising design of enlarged pectins are provided. Elaborated pectins are useful for a multitude of functions including surface coating, penetrant, additive and gell. Methods according to the present invention comprise steps for treatments to one or more live pectic cells in one or more compositions that result in modified pectins. In specific embodiments, methods are provided for applying the nanotechnology to live cells for carriage and incorporation of polar compounds.

Abstract: Methods and compositions comprising design of enlarged pectins are provided. Elaborated pectins are useful for a multitude of functions including surface coating, penetrant, additive and gel. Methods according to the present invention comprise steps for treatments to one or more live pectic cells in one or more compositions that result in modified pectins. In specific embodiments, methods are provided for applying the nanotechnology to live cells for carriage and incorporation of polar compounds.

Abstract: Methods for rendering micellar coordination complexes for the treatment of plants, comprising the steps of mixing one or more ketoesters with other nutrients resulting in water-borne availability; applying a suitable volume of the resulting mixture to one or more plants; delivery to green plants; nutrimentally based growth of crops; and compositions for the same.

Abstract: Methods for promoting plant growth based on novel photosafening treatment regimes with glycopyranosides including glycopyranosylglycopyranosides, and aryl-a-D-glycopyranosides, and more specifically, with one or more compounds comprising terminal mannosyl-triose, optionally in the presence of light enhanced by one or more light reflecting and/or refracting members such as silicon-based substrates. Furthermore, chemical synthesis processes for the above compounds are disclosed for general application to plants. Silicate microbeads of the like are distributed over the ground or substrate in which roots of a plant are supported and planted, beneath and around a plant in a manner that light is refracted or reflected toward the phylloplane.

Abstract: The present invention provides methods and compositions for balancing electron reduction potentials of formulations in a manner that reduces susceptibility to changes from xenobiotics. The present invention also provides novel compositions of matter based on structuring from a mobile nucleotide integral to its architecture.

Abstract: Methods and compositions comprising design of enlarged pectins are provided. Elaborated pectins are useful for a multitude of functions including surface coating, penetrant, additive and gel. Methods according to the present invention comprise steps for treatments to one or more live pectic cells in one or more compositions that result in modified pectins. In specific embodiments, methods are provided for applying the nanotechnology to live cells for carriage and incorporation of polar compounds.

Abstract: Methods and compositions comprising design of enlarged pectins are provided. Elaborated pectins are useful for a multitude of functions including surface coating, penetrant, additive and gell. Methods according to the present invention comprise steps for treatments to one or more live pectic cells in one or more compositions that result in modified pectins. In specific embodiments, methods are provided for applying the nanotechnology to live cells for carriage and incorporation of polar compounds.

Abstract: Acceleration of botryococcenoids and growth by concomitant provision of appropriate light, minerals, and assimilable carbon. Specifically, methods, compositions and systems for the in vitro growth of hydrocarbons in photosynthetic organisms while maintaining a biologically exclusive monocultural environment, as for example, from Botryococcus species, is disclosed. Niche-nutrients can include about 200 ppm to about 3% nitrogen, and about 100 ppm to about 15% P205, and about 100 ppm to about 3.5% K20. In certain embodiments, the present invention relates to the growth of the Chlorophyta such as Botryococcus sp. in a nutrient medium that includes up to 15% phosphates, at least 3 ppm soluble iron, and up to about 70 ppm soluble zinc. Also disclosed is a substantially pure culture of Botryococcus braunii var. Showa, strain Ninsei, having the ATCC Accession No. PTA-7441, its parts, and hydrocarbons produced therefrom.

Abstract: Acceleration of botryococcenoids and growth by concomitant provision of appropriate light, minerals, and assimilable carbon. Specifically, methods, compositions and systems for the in vitro growth of hydrocarbons in photosynthetic organisms while maintaining a biologically exclusive monocultural environment, as for example, from Botryococcus species, is disclosed. Niche-nutrients can include about 200 ppm to about 3% nitrogen, and about 100 ppm to about 15% P2O5, and about 100 ppm to about 3.5% K2O. In certain embodiments, the present invention relates to the growth of the Chlorophyta such as Botryococcus sp. in a nutrient medium that includes up to 15% phosphates, at least 3 ppm soluble iron, and up to about 70 ppm soluble zinc. Also disclosed is a substantially pure culture of Botryococcus braunii var. Showa, strain Ninsei, having the ATCC Accession No. PTA-7441, its parts, and hydrocarbons produced therefrom.

Abstract: The present invention provides methods and compositions for balancing electron reduction potentials of formulations in a manner that reduces susceptibility to changes from xenobiotics. The present invention also provides novel compositions of matter based on structuring from a mobile nucleotide integral to its architecture.

Abstract: Bottom dwelling colonies of Botryococcus are stimulated to produce and accumulate unusually high hydrocarbon concentrations that make them float to the surface. When exposed to carbon dioxide gas at the surface of the water, hydrocarbon induced flotation and growth is further enhanced with concomitant provision of appropriate light and available nitrogen. Botryococcus var. Ninsei is distinct from previously cultured strains of the genus in color, metabolism, and niche. The Ninsei variety grows green at the air-water interface. Metabolically, Ninsei is distinct from other varieties because it produces hydrocarbons in the presence of surplus ammonia in contrast to other varieties that shut down hydrocarbon production when ammonia is available. These characteristics are consistent with growth on the surface at water's edge, e.g., in the niche characterized by a mud alga. The surface niche for Ninsei is distinct because all other varieties are submerged, occupying the floor, e.g.

Abstract: Methods for rendering high concentrations of manganese safe for plant growth, comprising the steps of, mixing one or more alkyl glycosides with Mn resulting in a mixture comprising Mn at a concentration of between about 20 to 75 ppm, and applying a suitable volume of the resulting mixture to one or more plants; and formulations for same.

Abstract: Methods and formulations for treating plants and enhancing plant growth and for safening high concentrations of one or more phytocatalysts, wherein one or more formulations, comprising, a high concentration of one or more phytocatalysts, and an effective amount of one or more polyacylglycosides and polyalkylglycosides; and isomers, and metabolites, salts, hydrates, esters, amines, and derivatives of the polyacylglycosides and polyalkylglycosides, and combinations thereof, is applied to the plants.

Abstract: A novel variety of Botryococcus distinct from the previously cultured variety in color, biochemistry, size, shape, and habit.