Abstract: The invention provides an in silico model for determining a S. cerevisiae physiological function. The model includes a data structure relating a plurality of S. cerevisiae reactants to a plurality of S. cerevisiae reactions, a constraint set for the plurality of S. cerevisiae reactions, and commands for determining a distribution of flux through the reactions that is predictive of a S. cerevisiae physiological function. A model of the invention can further include a gene database containing information characterizing the associated gene or genes. The invention further provides methods for making an in silico S. cerevisiae model and methods for determining a S. cerevisiae physiological function using a model of the invention.

Abstract: The invention provides an in silico model for determining a S. cerevisiae physiological function. The model includes a data structure relating a plurality of S. cerevisiae reactants to a plurality of S. cerevisiae reactions, a constraint set for the plurality of S. cerevisiae reactions, and commands for determining a distribution of flux through the reactions that is predictive of a S. cerevisiae physiological function. A model of the invention can further include a gene database containing information characterizing the associated gene or genes. The invention further provides methods for making an in silico S. cerevisiae model and methods for determining a S. cerevisiae physiological function using a model of the invention.

Abstract: The present invention provides a method for identifying an operational reaction pathway of a biosystem. The method includes (a) providing a set of systemic reaction pathways through a reaction network representing said biosystem; (b) providing a set of phenomenological reaction pathways of said biosystem, and (c) comparing said set of systemic reaction pathways with said set of phenomenological reaction pathways, wherein a pathway common to said sets is an perational reaction pathway of said biosystem. Also described is a method of refining a biosystem reaction network; a method of reconciling biosystem data sets; a method of determining the effect of a genetic polymorphism on whole cell function; and a method of diagnosing a genetic polymorphism-mediated pathology.

Abstract: Optoinjection method for transiently permeabilizing a target cell by (a) illuminating a population of cells contained in a frame; (b) detecting at least one property of light directed from the frame; (c) locating a target cell by the property of light; and (d) irradiating the target cell with a pulse of radiation.

Abstract: The invention provides an apparatus for electromagnetically affecting a particle of interest in a specimen. The apparatus includes (a) a stage capable of supporting the specimen; (b) a detector including at least one camera, wherein the detector is capable of resolving a particle of interest within the specimen; (c) a means for locating the particle of interest in three dimensions; (d) a means for focusing electromagnetic radiation to a focal volume within the specimen; and (e) a means for adjusting the relative positions of the stage and electromagnetic radiation focusing means, thereby positioning the particle of interest within the focal volume.

Abstract: This invention provides a method and apparatus for selectively identifying, and targeting with an energy beam, specific cells within a cell population, for the purpose of inducing a response in the targeted cells. Using the present invention, every detectable cell in a population can be identified and affected, without substantially affecting non-targeted cells within the mixture.

Abstract: This invention provides a method and apparatus for selectively identifying, and targeting with an energy beam, specific cells within a cell population, for the purpose of inducing a response in the targeted cells. Using the present invention, every detectable cell in a population can be identified and affected, without substantially affecting non-targeted cells within the mixture.

Abstract: The invention provides a method of identifying therapeutic compounds in a genetically defined setting. The method consists of contacting a cell indicative of a pathological condition from a diseased individual and a cell from a genetically related normal individual with a plurality of candidate therapeutic compounds under suitable assay conditions, and identifying a compound that preferentially alters a predetermined property of the cell from the diseased individual.

Abstract: The present invention relates to methods for achieving an optimal function of a biochemical reaction network. The methods can be performed in silico using a reconstruction of a biochemical reaction network of a cell and iterative optimization procedures. The methods can further include laboratory culturing steps to confirm and possibly expand the determinations made using the in silico methods, and to produce a cultured cell, or population of cells, with optimal functions. The current invention includes computer systems and computer products including computer-readable program code for performing the in silico steps of the invention.

Abstract: The invention provides a method of identifying therapeutic compounds in a genetically defined setting. The method consists of contacting a cell indicative of a pathological condition from a diseased individual and a cell from a genetically related normal individual with a plurality of candidate therapeutic compounds under suitable assay conditions, and identifying a compound that preferentially alters a predetermined property of the cell from the diseased individual.

Abstract: Optoinjection method for transiently permeabilizing a target cell by (a) illuminating a population of cells contained in a frame; (b) detecting at least one property of light directed from the frame; (c) locating a target cell by the property of light; and (d) irradiating the target cell with a pulse of radiation.

Abstract: A method is presented for killing a first population of cells within a mixture of viable cells by providing the mixture of viable cells, contacting the cells with a label, illuminating a portion of the mixture, capturing an image of multiple cells in the illuminated portion of the mixture, determining at least two dimensional coordinates of one or more cells of the first population of cells using the first captured image, and applying a lethal dose of energy to said dimensional coordinates of the one or more cells at a first focal plane.

Abstract: The present invention relates to methods for achieving an optimal function of a biochemical reaction network. The methods can be performed in silico using a reconstruction of a biochemical reaction network of a cell and iterative optimization procedures. The methods can further include laboratory culturing steps to confirm and possibly expand the determinations made using the in silico methods, and to produce a cultured cell, or population of cells, with optimal functions. The current invention includes computer systems and computer products including computer-readable program code for performing the in silico steps of the invention.

Abstract: The invention provides an apparatus for electromagnetically affecting a particle of interest in a specimen. The apparatus includes (a) a stage capable of supporting the specimen; (b) a detector including at least one camera, wherein the detector is capable of resolving a particle of interest within the specimen; (c) a means for locating the particle of interest in three dimensions; (d) a means for focusing electromagnetic radiation to a focal volume within the specimen; and (e) a means for adjusting the relative positions of the stage and electromagnetic radiation focusing means, thereby positioning the particle of interest within the focal volume.

Abstract: The present invention provides a method of refining a biosystem reaction network. The method consists of: (a) providing a mathematical representation of a biosystem; (b) reconciling said mathematical representation of said biosystem; (c) determining differences between observed behavior of a biosystem and in silico behavior of said mathematical representation of said biosystem under similar conditions; (d) modifying a structure of said mathematical representation of said biosystem, and (e) determining differences between said observed behavior of said biosystem and in silico behavior of said modified mathematical representation of said biosystem under similar conditions.

Abstract: The invention provides an apparatus for electromagnetically affecting a particle of interest in a specimen. The apparatus includes (a) a stage capable of supporting the specimen; (b) a detector including at least one camera, wherein the detector is capable of resolving a particle of interest within the specimen; (c) a means for locating the particle of interest in three dimensions; (d) a means for focusing electromagnetic radiation to a focal volume within the specimen; and (e) a means for adjusting the relative positions of the stage and electromagnetic radiation focusing means, thereby positioning the particle of interest within the focal volume.

Abstract: Optoinjection method for transiently permeabilizing a target cell by (a) illuminating a population of cells contained in a frame; (b) detecting at least one property of light directed from the frame; (c) locating a target cell by the property of light; and (d) irradiating the target cell with a pulse of radiation.

Abstract: Methods, compositions and devices are provided for the growth of hematopoietic cells in culture. Bioreactors are provided in which diverse cell types are simultaneously cultured in the presence of appropriate levels of nutrients and growth factors substantially continuously maintained in the bioreactor while removing undesirable metabolic products. This simultaneous culture of multiple cell types is required for the successful reconstruction of hematopoietic tissue ex vivo. At least one growth factor is provided through excretion by transfected stromal cells, particularly heterologous cells. Means are provided for maintaining the stromal cells and hematopoietic cells separately, to allow for early removal of the hematopoietic cells.

Abstract: Optoinjection method for transiently permeabilizing a target cell by (a) illuminating a population of cells contained in a frame; (b) detecting at least one property of light directed from the frame; (c) locating a target cell by the property of light; and (d) irradiating the target cell with a pulse of radiation.

Abstract: The present invention provides a method for identifying an operational reaction pathway of a biosystem. The method includes (a) providing a set of systemic reaction pathways through a reaction network representing said biosystem; (b) providing a set of phenomenological reaction pathways of said biosystem, and (c) comparing said set of systemic reaction pathways with said set of phenomenological reaction pathways, wherein a pathway common to said sets is an perational reaction pathway of said biosystem. Also described is a method of refining a biosystem reaction network; a method of reconciling biosystem data sets; a method of determining the effect of a genetic polymorphism on whole cell function; and a method of diagnosing a genetic polymorphism-mediated pathology.