Abstract: Crops, for example microgreens, may be aeroponically grown from seed on substrates. The substrates may be seeded with the substrates in a horizontal position, and then arranged vertically for germination and further growth. A gelling material in solution, with the gelling material for example a gellum, may be applied to the substrates, while in the horizontal position, so that the seeds are retained on the substrates when the substrates are moved to a vertical position.

Abstract: Scarified seeds may be coated with a polymer or polymeric coating. The polymer or polymeric coated seeds may be stored for periods of time prior to use.

Abstract: Scarified seeds may be coated with a polymer or polymeric coating. The polymer or polymeric coated seeds may be stored for periods of time prior to use.

Abstract: A gel plug comprised of a gel may be used for growth of plants. The gel may include two polysaccharide components, with a second of the two components providing increased rigidity Plants may be grown, including from seed, in the gel plug.

Abstract: An aquaponic grow system includes a plurality of sensors for sensing nutrient levels in liquid provided to a grow chamber, and to adjust nutrient levels based on the sensed levels. In some embodiments the system includes a plurality of sensors configured to sense nutrient levels in a common chamber, with the system configured to calibrate the sensors.

Abstract: Crops, for example microgreens, may be aeroponically grown from seed on substrates. The substrates may be seeded with the substrates in a horizontal position, and then arranged vertically for germination and further growth. A gelling material in solution, with the gelling material for example a gellum, may be applied to the substrates, while in the horizontal position, so that the seeds are retained on the substrates when the substrates are moved to a vertical position.

Abstract: An aquaponic grow system includes a plurality of sensors for sensing nutrient levels in liquid provided to a grow chamber, and to adjust nutrient levels based on the sensed levels. In some embodiments the system includes a plurality of sensors configured to sense nutrient levels in a common chamber, with the system configured to calibrate the sensors.

Abstract: An aquaponic grow system includes a plurality of sensors for sensing nutrient levels in liquid provided to a grow chamber, and to adjust nutrient levels based on the sensed levels. In some embodiments the system includes a plurality of sensors configured to sense nutrient levels in a common chamber, with the system configured to calibrate the sensors.

Abstract: A gel plug comprised of a gel may be used for growth of plants. The gel may include two polysaccharide components, with a second of the two components providing increased rigidity Plants may be grown, including from seed, in the gel plug.

Abstract: A gel plug comprised of a gel may be used for growth of plants. The gel may include two polysaccharide components, with a second of the two components providing increased rigidity Plants may be grown, including from seed, in the gel plug.

Abstract: A substrate comprised of a gel on a wire or mesh scaffolding may be used for growth of plants. The gel may include two polysaccharide components, with a second of the two components providing increased rigidity and/or adherence to the scaffolding. Plants may be grown, including from seed, in the substrate. The substrate may be used as part of a grow wall in an aeroponics plant growth system.

Abstract: An aquaponic grow system includes a plurality of sensors for sensing nutrient levels in liquid provided to a grow chamber, and to adjust nutrient levels based on the sensed levels. In some embodiments the system includes a plurality of sensors configured to sense nutrient levels in a common chamber, with the system configured to calibrate the sensors.

Abstract: Scarified seeds may be coated with a polymer or polymeric coating. The polymer or polymeric coated seeds may be stored for periods of time prior to use.

Abstract: Crops, for example microgreens, may be aeroponically grown from seed on substrates. The substrates may be seeded with the substrates in a horizontal position, and then arranged vertically for germination and further growth. A gelling material in solution, with the gelling material for example a gellum, may be applied to the substrates, while in the horizontal position, so that the seeds are retained on the substrates when the substrates are moved to a vertical position.

Abstract: An aquaponic grow system includes a plurality of sensors for sensing nutrient levels in liquid provided to a grow chamber, and to adjust nutrient levels based on the sensed levels. In some embodiments the system includes a plurality of sensors configured to sense nutrient levels in a common chamber, with the system configured to calibrate the sensors.

Abstract: The present invention provides an implantable solid polymer delivery composition that can be formulated to release a bioactive agent to an interior body site at a controlled rate over an extended period of time by adjusting the various components of the composition. The controlled delivery of the composition avoids an initial drug spike, resulting in a smooth delivery profile over time. Polymer layers in the composition can be porous and are both biodegradable in water and body enzymes and biocompatible. Methods of making the implantable solid polymer compositions and methods of delivering a bioactive agent at a controlled rate to an interior body site are also provided.

Abstract: The invention provides liposomal particle compositions, which incorporate a lipophilic biodegradable polymer, such as amino acid-containing polyester amide (PEA), polyester urethane (PEUR), and polyester urea (PEU), throughout the particles to stabilize the composition for in vivo delivery in of an incorporated biologic agent. For oral delivery, a biologic, such as insulin, is conjugated directly to the polymer. Lipids in the particle are selected to further stabilize the composition during fabrication and digestion, providing sustained delivery of the biologic with native activity. Methods of making and using the invention compositions to administer the biologic agent in vivo are also included.

Abstract: Methods and compositions of matter are provided for the strand displacement amplification of target nucleic acids of interest using primer pair sets that are anchored to electronically addressable capture sites on a microarray. The primer pair sets may be individually bound to the capture sites or may comprise a unique branched primer pair moiety. The anchored primers allow for the simultaneous multiplex capture, amplification and detection of a target nucleic acid derived from any sample source.

Abstract: Methods and compositions of matter are provided for the strand displacement amplification of target nucleic acids of interest using primer pair sets that are anchored to electronically addressable capture sites on a microarray. The primer pair sets may be individually bound to the capture sites or may comprise a unique branched primer pair moiety. The anchored primers allow for the simultaneous multiplex capture, amplification and detection of a target nucleic acid derived from any sample source.

Abstract: This invention provides a bead array counter system that combines strand displacement amplification with magnetoresistive micro sensor chips and magnetic beads. The system allows for detection of target nucleic acids in highly dilute samples. The system further provides a means to detect specific nucleic acid sequences comprising SNPs and STRs.