| VENTRIA BIOSCIENCE Patent applications |
| Patent application number | Title | Published |
|---|
| 20110189751 | METHODS AND COMPOSITIONS COMPRISING HEAT SHOCK PROTEINS - Compositions, and uses thereof, which are beneficial for eukaryotic cells in culture, and methods for their use in promoting cell growth, viability and recombinant protein expression. The methods disclosed in the present application are useful, for example, for improving cell viability and in accelerating the rate of cell growth of cells grown in culture. In one aspect, the supplements of the invention are useful for improving or enhancing the yield of the recombinant proteins from the cell cultures. | 08-04-2011 |
| 20100329995 | COMPOSITIONS CONTAINING LACTOFERRIN, AND METHODS OF USING SAME TO PROMOTE GROWTH OF SKIN CELLS - The present invention relates, generally, to compositions including lactoferrin, and to compositions including both lactoferrin and lysozyme. The present invention also includes topical formulations containing the compositions, methods of making the formulations, methods of using the formulations to treat various skin disorders/conditions, to treat wounds, and to methods of producing artificial skin using the composition, and methods of treating burns using the formulation, optionally in conjunction with the application of artificial skin. | 12-30-2010 |
| 20100183589 | HUMAN BLOOD PROTEINS EXPRESSED IN MONOCOT SEEDS - The invention is directed to blood proteins produced in monocot seeds and isolated therefrom for use in therapeutic compositions, and to methods of making these isolated blood proteins and to therapeutic compositions comprising them. | 07-22-2010 |
| 20080318277 | Expression of human milk proteins in transgenic plants - The invention is directed to seed and seed extract compositions containing levels of a human milk protein between 3-40% or higher of the total protein weight of the soluble protein extractable from the seed. Also disclosed is a method of producing the seed with high levels of extractable human milk protein. The method includes transforming a monocotyledonous plant with a chimeric gene having a protein-coding sequence encoding a protein normally present in human milk under the control of a seed maturation-specific promoter. The method may further includes a leader DNA sequence encoding a monocot seed-specific transit sequence capable to target a linked milk protein to a storage body. | 12-25-2008 |
