Surface treatments for DNA processing devices
First Claim
1. A method of treating a surface to enhance biological activities on or proximal to the surface comprising:
- (a) contacting the surface with a mixture solution comprising ammonium hydroxide and hydrogen peroxide;
(b) contacting the surface with a solution comprising EDTA; and
(c) contacting the surface with a solution comprising ammonium hydroxide and hydrogen peroxide to produce a treated surface.
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Abstract
The present invention discloses methodologies for the treatment of the surface(s) of DNA processing devices so as to greatly reduce contamination with metal ions and semi-metal ions. These aforementioned surface treatments include an ammonium hydroxide and hydrogen peroxide wash, followed by a wash with EDTA which is followed by a wash with ammonium hydroxide and hydrogen peroxide. The present invention also discloses the fabrication of DNA processing devices utilizing surface(s) treated by the methods described. Such DNA processing devices include, for example, FORA, miniaturized electrophoresis and other DNA separation devices, such as miniaturized PCR reactors, and the like. Additionally, the methodologies and devices of the present invention are also applicable to the processing of nucleic acids, in general.
13 Citations
37 Claims
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1. A method of treating a surface to enhance biological activities on or proximal to the surface comprising:
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(a) contacting the surface with a mixture solution comprising ammonium hydroxide and hydrogen peroxide;
(b) contacting the surface with a solution comprising EDTA; and
(c) contacting the surface with a solution comprising ammonium hydroxide and hydrogen peroxide to produce a treated surface. - View Dependent Claims (2, 5, 8, 9)
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3. A method of treating a surface to enhance biological activities on or proximal to the surface comprising:
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(a) contacting the surface with a solution comprising EDTA; and
(b) contacting the surface with a solution comprising ammonium hydroxide and hydrogen peroxide to produce a treated surface. - View Dependent Claims (4)
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6. A FORA with at least one surface having the following elemental compositions:
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(a) barium of no more than 1.6% by XPS;
(b) aluminum of no more than 0.1% by XPS; and
(c) boron of no more than 0.1% by XPS. - View Dependent Claims (7)
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10. A FORA wherein glass in the reaction core has the property of
(a) barium of no more than 1.6% by XPS; -
(b) aluminum of no more than 0.1% by XPS; and
(c) boron of no more than 0.1% by XPS.
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11. A method of cleaning a surface of a biochemical apparatus, comprising:
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(a) contacting the surface with a solution of ammonium hydroxide and hydrogen peroxide;
(b) contacting the surface with a solution of EDTA; and
(c) contacting the surface with the solution of ammonium hydroxide and hydrogen peroxide. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18)
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19. A method of cleaning a surface of a biochemical apparatus, comprising:
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(a) contacting the surface with a solution of EDTA; and
(b) contacting the surface with the solution of ammonium hydroxide and hydrogen peroxide. - View Dependent Claims (20, 21, 22, 23, 24, 25, 26, 33)
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27. A solution for treating the surface of a biochemical apparatus in order to enhance a biochemical reaction, comprising ammonium hydroxide, hydrogen peroxide and EDTA.
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28. A method for reducing the amount of metal ions present on a surface of a device for performing biochemical reactions, comprising:
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(a) optionally washing one or more surfaces with a solution of at least 1% ammonium hydroxide and at least 1% hydrogen peroxide;
(b) washing the one or more surfaces with a solution of EDTA;
(c) washing the one or more surfaces with a solution of at least 1% ammonium hydroxide and at least 1% hydrogen peroxide;
thereby reducing the amount of metal ions bound to one or more surfaces used in a device for performing biochemical reactions. - View Dependent Claims (29, 30, 31, 32)
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34. A method for removing metal ion or semi-metal ion contaminants on one or more surfaces used in a device, the method comprising:
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(a) washing the one or more surfaces with an EDTA solution; and
(b) washing the one or more surfaces with an alkaline solution comprising an oxidizing agent, wherein said solution is at a temperature between room temperature and 75°
C. thereby reducing the amount of metal ion or semi-metal ion contaminants bound to one or more surfaces of the device.
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35. A method for reducing the amount of metal ion or semi-metal ion contaminants bound to one or more surfaces used in a device, the method comprising:
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(a) washing the one or more surfaces with an alkaline solution comprising an oxidizing agent, wherein said solution is at a temperature between room temperature and 75°
C.;
(b) washing the one or more surfaces with an EDTA solution; and
(c) repeating step (a) thereby reducing the amount of metal ion or semi-metal ion contaminants bound to one or more surfaces used in the device.
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36. A method for minimizing metal ion or semi-metal ion contaminants on a surface, the method comprising:
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(a) providing a device comprising a surface for performing a biochemical reaction;
(b) treating the surface with an EDTA solution;
(c) treating the surface with an alkaline solution comprising an oxidizing agent, wherein said solution is at a temperature between room temperature and 75°
C. thereby removing metal ion or semi-metal ion contaminants bound to the surface.
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37. A method for minimizing contamination with metal ions or semi-metal ions to a surface, the method comprising:
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(a) providing a device comprising a surface;
(b) treating said surface with an alkaline solution comprising an oxidizing agent, wherein said solution is at a temperature between room temperature and 75°
C.;
(d) treating said surface with an EDTA solution;
(e) repeating step (b) thereby minimizing contamination with metal ions or semi-metal ions on the surface of the device.
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Specification