Patents by Inventor Eugene Tu
Eugene Tu has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20030190632Abstract: A self-addressable, self-assembling microelectronic device is designed and fabricated to actively carry out and control multi-step and multiplex molecular biological reactions in microscopic formats. These reactions include nucleic acid hybridizations, antibody/antigen reactions, diagnostics, and biopolymer synthesis. The device can be fabricated using both microlithographic and micro-machining techniques. The device can electronically control the transport and attachment of specific binding entities to specific microlocations. The specific binding entities include molecular biological molecules such as nucleic acids and polypeptides. The device can subsequently control the transport and reaction of analytes or reactants at the addressed specific microlocations. The device is able to concentrate analytes and reactants, remove non-specifically bound molecules, provide stringency control for DNA hybridization reactions, and improve the detection of analytes. The device can be electronically replicated.Type: ApplicationFiled: June 11, 2002Publication date: October 9, 2003Applicant: Nanogen, Inc.Inventors: Ronald G. Sosnowski, William F. Butler, Eugene Tu, Michael I. Nerenberg, Michael J. Heller, Carl F. Edman
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Publication number: 20030162214Abstract: A self-addressable, self-assembling microelectronic device is designed and fabricated to actively carry out and control multi-step and multiplex molecular biological reactions in microscopic formats. These reactions include nucleic acid hybridizations, antibody/antigen reactions, diagnostics, and biopolymer synthesis. The device can be fabricated using both microlithographic and micro-machining techniques. The device can electronically control the transport and attachment of specific binding entities to specific micro-locations. The specific binding entities include molecular biological molecules such as nucleic acids and polypeptides. The device can subsequently control the transport and reaction of analytes or reactants at the addressed specific micro-locations. The device is able to concentrate analytes and reactants, remove non-specifically bound molecules, provide stringency control for DNA hybridization reactions, and improve the detection of analytes. The device can be electronically replicated.Type: ApplicationFiled: February 21, 2003Publication date: August 28, 2003Applicant: Nanogen, Inc.Inventors: Michael J. Heller, Eugene Tu, Glen A. Evans, Ronald G. Sosnowski
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Patent number: 6582660Abstract: A system for performing molecular biological diagnosis, analysis and multi-step and multiplex reactions utilizes a self-addressable, self-assembling microelectronic system for actively carrying out controlled reactions in microscopic formats. These reactions include most molecular biological procedures, such as nucleic acid hybridization, antibody/antigen reaction, and clinical diagnostics. Multi-step combinatorial biopolymer synthesis may be performed. A controller interfaces with a user via input/output devices, preferably including a graphical display. Independent electronic control is achieved for the individual microlocations. In the preferred embodiment, the controller interfaces with a power supply and interface, the interface providing selective connection to the microlocations, polarity reversal, and optionally selective potential or current levels to individual electrodes.Type: GrantFiled: May 20, 1997Date of Patent: June 24, 2003Assignee: Nanogen, Inc.Inventors: Michael J. Heller, Eugene Tu
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Publication number: 20030059929Abstract: A self-addressable, self-assembling microelectronic device is designed and fabricated to actively carry out and control multi-step and multiplex molecular biological reactions in microscopic formats. These reactions include nucleic acid hybridizations, antibody/antigen reactions, diagnostics, and biopolymer synthesis. The device can be fabricated using both microlithographic and micro-machining techniques. The device can electronically control the transport and attachment of specific binding entities to specific micro-locations. The specific binding entities include molecular biological molecules such as nucleic acids and polypeptides. The device can subsequently control the transport and reaction of analytes or reactants at the addressed specific micro-locations. The device is able to concentrate analytes and reactants, remove non-specifically bound molecules, provide stringency control for DNA hybridization reactions, and improve the detection of analytes. The device can be electronically replicated.Type: ApplicationFiled: July 24, 2001Publication date: March 27, 2003Applicant: Nanogen, Inc.Inventors: Michael J. Heller, Eugene Tu
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Patent number: 6518022Abstract: A self-addressable, self-assembling microelectronic device is designed and fabricated to actively carry out and control multi-step and multiplex molecular biological reactions in microscopic formats. These reactions include nucleic acid hybridizations, antibody/antigen reactions, diagnostics, and biopolymer synthesis. The device can be fabricated using both microlithographic and micro-machining techniques. The device can electronically control the transport and attachment of specific binding entities to specific microlocations. The specific binding entities include molecular biological molecules such as nucleic acids and polypeptides. The device can subsequently control the transport and reaction of analytes or reactants at the addressed specific microlocations. The device is able to concentrate analytes and reactants, remove non-specifically bound molecules, provide stringency control for DNA hybridization reactions, and improve the detection of analytes. The device can be electronically replicated.Type: GrantFiled: November 22, 1999Date of Patent: February 11, 2003Assignee: Nanogen, Inc.Inventors: Ronald G. Sosnowski, William F. Butler, Eugene Tu, Michael I. Nerenberg, Michael J. Heller, Carl F. Edman
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Publication number: 20030007894Abstract: Apparatus and methods are provided for interacting light with particles, including but not limited to biological matter such as cells, in unique and highly useful ways. Optophoresis consists of subjecting particles to various optical forces, especially optical gradient forces, and more particularly moving optical gradient forces, so as to obtain useful results. In biology, this technology represents a practical approach to probing the inner workings of a living cell, preferably without any dyes, labels or other markers. In one aspect, a particle may be characterized by determining its optophoretic constant or signature. For example, a diseased cell has a different optophoretic constant from a healthy cell, thereby providing information, or the basis for sorting. In the event of physical sorting, various forces may be used for separation, including fluidic forces, such as through the use of laminar flow, or optical forces, or mechanical forces, such as through adhesion.Type: ApplicationFiled: April 27, 2001Publication date: January 9, 2003Applicant: GENOPTIXInventors: Mark M. Wang, Eugene Tu, Luis M. Pestana, Andrew E. Senyei, James P. O'Connell, Tina S. Nova, Kristie L. Lykstad, Jeffrey M. Hall, William F. Butler
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Publication number: 20030008364Abstract: Apparatus and methods are provided for interacting light with particles, including but not limited to biological matter such as cells, in unique and highly useful ways. Optophoresis consists of subjecting particles to various optical forces, especially optical gradient forces, and more particularly moving optical gradient forces, so as to obtain useful results. In biology, this technology represents a practical approach to probing the inner workings of a living cell, preferably without any dyes, labels or other markers.Type: ApplicationFiled: November 14, 2001Publication date: January 9, 2003Applicant: GenoptixInventors: Mark M. Wang, Eugene Tu, James P. O'Connell, Kristie L. Lykstad, William F. Butler
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Publication number: 20020132315Abstract: Apparatus and methods are provided for interacting light with particles, including but not limited to biological matter such as cells, in unique and highly useful ways. Optophoresis consists of subjecting particles to various optical forces, especially optical gradient forces, and more particularly moving optical gradient forces, so as to obtain useful results. In biology, this technology represents a practical approach to probing the inner workings of a living cell, preferably without any dyes, labels or other markers. The invention includes methods for separating particles in a medium where the particles having differing dielectric constants by providing a medium having a dielectric constant between the dielectric constants of the particles, subjecting the particles in the media to an optical gradient field, and separating the particles.Type: ApplicationFiled: November 14, 2001Publication date: September 19, 2002Applicant: GenoptixInventors: Mark M. Wang, Eugene Tu, James P. O'Connell, Kristie L. Lykstad, William F. Butler
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Publication number: 20020132316Abstract: Apparatus and methods are provided for interacting light with particles, including but not limited to biological matter such as cells, in unique and highly useful ways. Optophoresis consists of subjecting particles to various optical forces, especially optical gradient forces, and more particularly moving optical gradient forces, so as to obtain useful results. In biology, this technology represents a practical approach to probing the inner workings of a living cell, preferably without any dyes, labels or other markers. In one aspect, a method is provided for analysis or separation of a plurality of particles by selecting a wavelength for illumination based upon an analysis of absorption spectra, illuminating the particles with the selected wavelength, considering response of particles to multiple wavelengths, selecting wavelengths based on one or more desired parameters, and illuminating the population to obtain optimized differential motion.Type: ApplicationFiled: November 14, 2001Publication date: September 19, 2002Applicant: GenoptixInventors: Mark M. Wang, Eugene Tu, James P. O'Connell, Kristie L. Lykstad, William F. Butler
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Publication number: 20020123112Abstract: Apparatus and methods are provided for interacting light with particles, including but not limited to biological matter such as cells, in unique and highly useful ways. Optophoresis consists of subjecting particles to various optical forces, especially optical gradient forces, and more particularly moving optical gradient forces, so as to obtain useful results. In biology, this technology represents a practical approach to probing the inner workings of a living cell, preferably without any dyes, labels or other markers. In one aspect, a method is provided for separating particles having different dielectric constants by separating the particles in a medium having a dielectric constant chosen to enhance the sensitivity of the discrimination between the particles, and changing the medium to one having a dielectric constant which causes faster separation between the particles.Type: ApplicationFiled: November 14, 2001Publication date: September 5, 2002Applicant: GenoptixInventors: Mark M. Wang, Eugene Tu, James P. O'Connell, Kristie L. Lykstad, William F. Butler
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Publication number: 20020113204Abstract: Apparatus and methods are provided for interacting light with particles, including but not limited to biological matter such as cells, in unique and highly useful ways. Optophoresis consists of subjecting particles to various optical forces, especially optical gradient forces, and more particularly moving optical gradient forces, so as to obtain useful results. In biology, this technology represents a practical approach to probing the inner workings of a living cell, preferably without any dyes, labels or other markers. In one aspect, an apparatus is provided for collecting optically sorted particles by providing a first surface adapted to support a plurality of particles, an optical illumination system for subjecting the particles to a moving gradient force to cause the separation of the particles from the first surface, and a second adhesive surface for adhering the separated particles to the second surface.Type: ApplicationFiled: November 14, 2001Publication date: August 22, 2002Applicant: GenoptixInventors: Mark M. Wang, Eugene Tu, James P. O'Connell, Kristie L. Lykstad, William F. Butler
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Publication number: 20020115098Abstract: Methods and apparatus are provided for the analysis and determination of the nature of repeat units in a genetic target. In one method of this invention, the nature of the repeat units in the genetic target is determined by the steps of providing a plurality of hybridization complex assays arrayed on a plurality of test sites, where the hybridization complex assay includes at least a nucleic acid target containing a simple repetitive DNA sequence, a capture probe having a first unique flanking sequence and n repeat units, where n=0,1,2 . . . , or fractions thereof, being complementary to the target sequence, and a reporter probe having a selected sequence complementary to the same target sequence strand wherein the selected sequence of the reporter includes a second unique flanking sequence and m repeat units, where m=0,1,2 . . . , or fractions thereof, but where the sum of repeat units in the capture probe plus reporter probe is greater than 0 (n+m>0).Type: ApplicationFiled: March 25, 2002Publication date: August 22, 2002Applicant: Nanogen, Inc.Inventors: Ronald G. Sosnowski, Eugene Tu
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Publication number: 20020115163Abstract: Apparatus and methods are provided for interacting light with particles, including but not limited to biological matter such as cells, in unique and highly useful ways. Optophoresis consists of subjecting particles to various optical forces, especially optical gradient forces, and more particularly moving optical gradient forces, so as to obtain useful results. In biology, this technology represents a practical approach to probing the inner workings of a living cell, preferably without any dyes, labels or other markers. In one aspect, a method is provided for separating a population of particles according to size by subjecting the particles to an optical gradient pattern having a defined spatial periodicity and moving the gradient relative to the particles, wherein the improvement comprises selecting the spatial periodicity of the gradient to have a differential effect on differently sized particles.Type: ApplicationFiled: November 14, 2001Publication date: August 22, 2002Applicant: GenoptixInventors: Mark M. Wang, Eugene Tu, James P. O'Connell, Kristie L. Lykstad, William F. Butler
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Publication number: 20020115164Abstract: Apparatus and methods are provided for interacting light with particles, including but not limited to biological matter such as cells, in unique and highly useful ways. Optophoresis consists of subjecting particles to various optical forces, especially optical gradient forces, and more particularly moving optical gradient forces, so as to obtain useful results. In biology, this technology represents a practical approach to probing the inner workings of a living cell, preferably without any dyes, labels or other markers. In one aspect, a method is provided for interacting an optical gradient field in three dimensions with a particle by interfering two beams to generate a plurality of planar fronts, providing a plurality of particles in a medium, and moving the planar fronts relative to the particles, whereby the particles are separated at least in part based upon the dielectric constant of the particles.Type: ApplicationFiled: November 14, 2001Publication date: August 22, 2002Applicant: GenoptixInventors: Mark M. Wang, Eugene Tu, James P. O'Connell, Kristie L. Lykstad, William F. Butler
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Publication number: 20020108859Abstract: Apparatus and methods are provided for interacting light with particles, including but not limited to biological matter such as cells, in unique and highly useful ways. Optophoresis consists of subjecting particles to various optical forces, especially optical gradient forces, and more particularly moving optical gradient forces, so as to obtain useful results. In biology, this technology represents a practical approach to probing the inner workings of a living cell, preferably without any dyes, labels or other markers. In one aspect, a method is provided for reducing forces between a particle and a surface in a system for optically moving particles by providing particles adjacent a first surface, subjecting the particles to a first light intensity pattern to effect sorting of the particles, and subjecting the particles to a second force in an amount and direction to reduce the interaction between the particle and the surface.Type: ApplicationFiled: November 14, 2001Publication date: August 15, 2002Applicant: GenoptixInventors: Mark M. Wang, Eugene Tu, James P. O'Connell, Kristie L. Lykstad, William F. Butler
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Patent number: 6395493Abstract: Methods and apparatus are provided for the analysis and determination of the nature of repeat units in a genetic target. In one method of this invention, the nature of the repeat units in the genetic target is determined by the steps of providing a plurality of hybridization complex assays arrayed on a plurality of test sites, where the hybridization complex assay includes at least a nucleic acid target containing a simple repetitive DNA sequence, a capture probe having a first unique flanking sequence and n repeat units, where n=0,1,2 . . . , or fractions thereof, being complementary to the target sequence, and a reporter probe having a selected sequence complementary to the same target sequence strand wherein the selected sequence of the reporter includes a second unique flanking sequence and m repeat units, where m=0,1,2 . . . , or fractions thereof, but where the sum of repeat units in the capture probe plus reporter probe is greater than 0 (n+m>0).Type: GrantFiled: August 24, 2000Date of Patent: May 28, 2002Assignee: Nanogen, Inc.Inventors: Ronald G. Sosnowski, Eugene Tu
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Patent number: 6385080Abstract: An optical memory system includes memory cells which utilize synthetic DNA as a component of the information storage mechanism. In the preferred embodiment, memory cells contain one or more chromophoric memory units attached to a support substrate. Each chromophoric memory unit comprises a donor, an acceptor and, at some time during its existence, an active quencher associated with the donor and/or the acceptor. The donor and the acceptor permit non-radiative energy transfer, preferably by Förster energy transfer. To write to the memory cell, the quencher is rendered inactive, preferably by illumination with ultraviolet light. To read, the chromophoric memory units in a read portal are illuminated, and the read illumination is detected. In the preferred embodiment, multiple chromophoric memory units having resolvable read properties are contained within a single read portal. In this way, a multibit word of data may be read from a single diffraction limited read portal.Type: GrantFiled: May 9, 2000Date of Patent: May 7, 2002Assignee: Nanogen, Inc.Inventors: Michael J. Heller, Eugene Tu
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Patent number: 6238624Abstract: A self-addressable, self-assembling microelectronic device is designed and fabricated to actively carry out and control multi-step and multiplex molecular biological reactions in microscopic formats. These reactions include nucleic acid hybridizations, antibody/antigen reactions, diagnostics, and biopolymer synthesis. The device can be fabricated using both microlithographic and micro-machining techniques. The device can electronically control the transport and attachment of specific binding entities to specific micro-locations. The specific binding entities include molecular biological molecules such as nucleic acids and polypeptides. The device can subsequently control the transport and reaction of analytes or reactants at the addressed specific micro-locations. The device is able to concentrate analytes and reactants, remove non-specifically bound molecules, provide stringency control for DNA hybridization reactions, and improve the detection of analytes. The device can be electronically replicated.Type: GrantFiled: October 4, 1996Date of Patent: May 29, 2001Assignee: Nanogen, Inc.Inventors: Michael J. Heller, Eugene Tu, Glen A. Evans, Ronald G. Sosnowski
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Patent number: 6207373Abstract: Methods and apparatus are provided for the analysis and determination of the nature of repeat units in a genetic target. In one method of this invention, the nature of the repeat units in the genetic target is determined by the steps of providing a plurality of hybridization complex assays arrayed on a plurality of test sites, where the hybridization complex assay includes at least a nucleic acid target containing a simple repetitive DNA sequence, a capture probe having a first unique flanking sequence and n repeat units, where n=0,1,2 . . . , or fractions thereof, being complementary to the target sequence, and a reporter probe having a selected sequence complementary to the same target sequence strand wherein the selected sequence of the reporter includes a second unique flanking sequence and m repeat units, where m=0,1,2 . . . , or fractions thereof, but where the sum of repeat units in the capture probe plus reporter probe is greater than 0 (n+m>0).Type: GrantFiled: February 25, 1998Date of Patent: March 27, 2001Assignee: Nanogen, Inc.Inventors: Ronald G. Sosnowski, Eugene Tu
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Patent number: 6067246Abstract: An optical memory system includes memory cells which utilize synthetic DNA as a component of the information storage mechanism. In the preferred embodiment, memory cells contain one or more chromophoric memory units attached to a support substrate. Each chromophoric memory unit comprises a donor, an acceptor and, at some time during its existence, an active quencher associated with the donor and/or the acceptor. The donor and the acceptor permit non-radiative energy transfer, preferably by Forster energy transfer. To write to the memory cell, the quencher is rendered inactive, preferably by illumination with ultraviolet light. To read, the chromophoric memory units in a read portal are illuminated, and the read illumination is detected. In the preferred embodiment, multiple chromophoric memory units having resolvable read properties are contained within a single read portal. In this way, a multibit word of data may be read from a single diffraction limited read portal.Type: GrantFiled: August 5, 1998Date of Patent: May 23, 2000Assignee: NanogenInventors: Michael J. Heller, Eugene Tu