A fertilizer composition for application to leaves of a plant includes oxidized glutathione and one or more fertilizer components. A method for cultivating a plant includes applying oxidized glutathione and one or more fertilizer components to leaves of the plant. A fertilizer kit for application to leaves of a plant includes oxidized glutathione and a composition comprising one or more fertilizer components, wherein the glutathione and the composition in the fertilizer kit are separate from each other.

A fertilizer composition for application to leaves of a plant includes oxidized glutathione and one or more fertilizer components. A method for cultivating a plant includes applying oxidized glutathione and one or more fertilizer components to leaves of the plant. A fertilizer kit for application to leaves of a plant includes oxidized glutathione and a composition comprising one or more fertilizer components, wherein the glutathione and the composition in the fertilizer kit are separate from each other.

The present invention provides N-alkylthio -lactams and disulfide compounds (e.g., alkyl-coenzyme A asymmetric disulfides or aryl-alkyl disulfides), compositions containing such compounds, and methods of their use as anti-bacterial agents.

The present invention provides N-alkylthio -lactams and disulfide compounds (e.g., alkyl-coenzyme A asymmetric disulfides or aryl-alkyl disulfides), compositions containing such compounds, and methods of their use as anti-bacterial agents.

Sulfur copolymers having high sulfur content for use as raw materials in 3D printing. The sulfur copolymers are prepared by melting and copolymerizing one or more comonomers with cyclic selenium sulfide, elemental sulfur, elemental selenium, or a combination thereof. Optical substrates, such as films and lenses, are constructed from the sulfur copolymer via 3D printing and are substantially transparent in the visible and infrared spectrum. The optical substrates can have refractive indices of about 1.75-2.6 at a wavelength in a range of about 500 nm to about 8 m.

Sulfur copolymers having high sulfur content for use as raw materials in 3D printing. The sulfur copolymers are prepared by melting and copolymerizing one or more comonomers with cyclic selenium sulfide, elemental sulfur, elemental selenium, or a combination thereof. Optical substrates, such as films and lenses, are constructed from the sulfur copolymer via 3D printing and are substantially transparent in the visible and infrared spectrum. The optical substrates can have refractive indices of about 1.75-2.6 at a wavelength in a range of about 500 nm to about 8 m.

The disclosure relates to organosulfur containing compositions, in particular Di-n-butyl thiosulfinate, Di-methyl thiosulfonate, Di-phenyl thiosulfonate, Bis (p-tolyl) thiosulfinate, Di-isopropyl thiosulfinate, Di-benzyl thiosulfinate, Di-benzyl thiosulfonate, S-propyl-4-methylbenzene thiosulfonate, Di-n-propyl thiosulfinate, and Di-n-propyl thiosulfonate. Such compositions are useful for treating infection and reducing or degrading biofilms both in vivo and in vitro. In particular, such compositions are useful in the treatment of biofilm-related disorders, including but not limited to mastitis, digital dermatitis, and chronic wound infections.

The disclosure relates to organosulfur containing compositions, in particular Di-n-butyl thiosulfinate, Di-methyl thiosulfonate, Di-phenyl thiosulfonate, Bis (p-tolyl) thiosulfinate, Di-isopropyl thiosulfinate, Di-benzyl thiosulfinate, Di-benzyl thiosulfonate, S-propyl-4-methylbenzene thiosulfonate, Di-n-propyl thiosulfinate, and Di-n-propyl thiosulfonate. Such compositions are useful for treating infection and reducing or degrading biofilms both in vivo and in vitro. In particular, such compositions are useful in the treatment of biofilm-related disorders, including but not limited to mastitis, digital dermatitis, and chronic wound infections.

In order to develop a technique for increasing an amino acid content and to provide a technique for easily producing a plant having an increased amino acid content, an amino acid content in a plant is increased by an amino acid content promoting agent, a composition containing the amino acid content promoting agent, a kit including an amino acid content promoting agent, or a kit including a composition containing the amino acid content promoting agent, and a plant having an increased amino acid content is produced.

In order to develop a technique for increasing an amino acid content and to provide a technique for easily producing a plant having an increased amino acid content, an amino acid content in a plant is increased by an amino acid content promoting agent, a composition containing the amino acid content promoting agent, a kit including an amino acid content promoting agent, or a kit including a composition containing the amino acid content promoting agent, and a plant having an increased amino acid content is produced.