Self-addressable self-assembling microelectronic integrated systems, component devices, mechanisms, methods, and procedures for molecular biological analysis and diagnostics
First Claim
1. A method for electronically stabilizing hybridization of nucleic acids bound at a test site of a microelectronic device, comprising the steps of:
- providing a first negatively charged nucleic acid bound to the test site, wherein said test site is generated using a technique selected from the group consisting of a microlithographic technique and a micromachining technique;
providing a solution including a second negatively charged nucleic acid;
applying a zwitterionic buffer having a conductance of less than 100 mS/cm to the microelectronic device; and
applying current to the test site to positively bias the test site,wherein the second negatively charged nucleic acid is transported to the positively biased test site having the first negatively charged nucleic acid,wherein the first and second negatively charged nucleic acids hybridize,wherein the zwitterionic buffer acquires a net positive charge under influence of the current, wherein the positively charged zwitterionic buffer stabilizes the hybridization by reducing the repulsion between the first and second negatively charged nucleic acids.
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Abstract
A method for electronically stabilizing hybridization of nucleic acids bound at a test site of a microelectronic device is described. First and second negatively charged nucleic acids are provided, the second nucleic acid being bound to the test site. A zwitterionic buffer having a conductance of less than 100 mS/cm is applied to the microelectronic device. A current is applied to the test site to positively bias the test site, such that the first negatively charged nucleic acid is transported to the positively biased test site having the bound the second negatively charged nucleic acid. At the test site, the first and second negatively charged nucleic acids hybridize. The zwitterionic buffer acquires a net positive charge under influence of the current, such that the positively charged zwitterionic buffer stabilizes the hybridization by reducing the repulsion between the first and second negatively charged nucleic acids.
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Citations
6 Claims
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1. A method for electronically stabilizing hybridization of nucleic acids bound at a test site of a microelectronic device, comprising the steps of:
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providing a first negatively charged nucleic acid bound to the test site, wherein said test site is generated using a technique selected from the group consisting of a microlithographic technique and a micromachining technique; providing a solution including a second negatively charged nucleic acid; applying a zwitterionic buffer having a conductance of less than 100 mS/cm to the microelectronic device; and applying current to the test site to positively bias the test site, wherein the second negatively charged nucleic acid is transported to the positively biased test site having the first negatively charged nucleic acid, wherein the first and second negatively charged nucleic acids hybridize, wherein the zwitterionic buffer acquires a net positive charge under influence of the current, wherein the positively charged zwitterionic buffer stabilizes the hybridization by reducing the repulsion between the first and second negatively charged nucleic acids. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification
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- Resources
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Current AssigneeGamida for Life B.V.
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Original AssigneeGamida for Life B.V.
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InventorsSosnowski, Ronald G., Butler, William F., Tu, Eugene, Nerenberg, Michael I., Heller, Michael J., Edman, Carl F.
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Primary Examiner(s)Dejong, Eric S
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Application NumberUS11/726,520Publication NumberTime in Patent Office1,790 DaysField of SearchNoneUS Class Current435/6CPC Class CodesB01J 19/0046 Sequential or parallel reac...B01J 19/0093 Microreactors, e.g. miniatu...B01J 2219/00315 Microtiter platesB01J 2219/00317 Microwell devices, i.e. hav...B01J 2219/00527 SheetsB01J 2219/00585 Parallel processesB01J 2219/0059 Sequential processesB01J 2219/00596 Solid-phase processesB01J 2219/00605 the compounds being directl...B01J 2219/0061 The surface being organicB01J 2219/00612 the surface being inorganicB01J 2219/00621 by physical means, e.g. tre...B01J 2219/00626 CovalentB01J 2219/0063 Other, e.g. van der Waals f...B01J 2219/00635 by reactive plasma treatmentB01J 2219/00637 by coating it with another ...B01J 2219/00644 the porous medium being pre...B01J 2219/00653 the compounds being bound t...B01J 2219/00659 Two-dimensional arraysB01J 2219/00686 AutomaticView All
