DEVICE FOR CHEMICAL AND BIOCHEMICAL REACTIONS USING PHOTO-GENERATED REAGENTS

US 20080318806A1
Filed: 01/13/2003
Published: 12/25/2008
Est. Priority Date: 02/11/1998
Status: Active Grant

First Claim

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1-30. -30. (canceled)

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Abstract

This invention provides method and apparatus for performing chemical and biochemical reactions in solution using in situ generated photo-products as reagent or co-reagent. In particular, the present invention provides methods and devices for generating a photogenerated reaction in solution on a substrate comprising generating a light beam using an optical device system comprising a light source and a computer-controlled spatial optical modulator comprising a digital micromirror device and using the spatial optical modulator to direct light to fluidly isolated reaction sites under conditions such that a photogenerated reaction takes place. The method and apparatus of the present invention have applications in parallel synthesis of molecular sequence arrays on solid surfaces.

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65 Claims

1-30. -30. (canceled)

31-34. -34. (canceled)

37-42. -42. (canceled)

43. A method for parallel synthesis of an array of selected multimers on a substrate comprising isolated reaction sites containing one or more protected initiation moieties, the method comprising:
- (a) selectively irradiating, using a spatial optical modulator comprising a digital micromirror device, isolated reaction sites to generate deprotected initiation moieties at the irradiated isolated reaction sites;
  
  wherein the deprotected initiation moieties are generated by;
  
  (i) contacting the substrate with a liquid solution comprising one or more photo-reagent precursors, such that the liquid solution is in contact with the initiation moieties; and
  
  (ii) selectively irradiating isolated reaction sites to produce one or more photo-generated reagents, wherein the photo-generated reagents are effective to deprotect the initiation moieties at the irradiated isolated reaction sites;
  
  (b) coupling one or more monomers to the deprotected initiation moieties to generate new protected initiation moieties; and
  
  (c) repeating steps (a)-(b) until the array of selected multimers has been synthesized;
  
  wherein the coupling reactions to synthesize the array of selected multimers occur with a yield of 98% or greater.
- View Dependent Claims (44, 45, 46, 47, 48, 49, 50, 52, 53, 54, 55)
- - 44. The method of claim 43, wherein the selected multimers are DNA.
  - 45. The method of claim 44, wherein the DNA is selected from the group consisting of nucleotide phosphoramidites and analogs thereof.
  - 46. The method of claim 43, wherein the selected multimers are oligonucleotides.
  - 47. The method of claim 43, wherein the selected multimers are RNA.
  - 48. The method of claim 43, wherein the selected multimers are DNA/RNA hybrids.
  - 49. The method of claim 43, wherein the selected multimers are peptides.
  - 50. The method of claim 43, wherein the selected multimers are carbohydrates.
  - 52. The method of claim 43, wherein the photo-reagent precursors are selected from the group consisting of acid precursors and base precursors.
  - 53. The method of claim 43, wherein the monomer comprises an unprotected reactive site and a protected reactive site.
  - 54. The method of claim 43, wherein the protected initiation moieties are protected by an acid-labile group.
  - 55. The method of claim 43, wherein the protected initiation moieties comprise linker molecules, wherein each of the linker molecules comprise a reactive functional group protected by an acid-labile group.

51. (canceled)

56. A method for generating a photogenerated reaction in solution on a substrate comprising:
- a) generating a light beam using an optical device system comprising a light source and a computer-controlled spatial optical modulator comprising a digital micromirror device; and
  
  b) redirecting the light beam using the spatial optical modulator comprising a digital micromirror device to a fluidly isolated reaction site on said substrate under conditions such that a photogenerated reaction takes place, wherein said photogenerated reaction comprises contacting said substrate with a liquid solution comprising one or more photo-reagent precursors, said precursors selected from the group consisting of acid precursors and base precursors, such that the liquid solution is in contact with initiation moieties on said substrate and selectively irradiating fluidly isolated reaction sites with said mircomirror device to produce one or more photo-generated reagents, wherein said photo-generated reagents deprotect initiation moieties at the irradiated, fluidly isolated reaction sites.
- View Dependent Claims (57, 58)
- - 57. The method of claim 56, wherein the digital micromirror device comprises a plurality of micromirrors.
  - 58. The device of claim 57, wherein the micromirrors are individual rocking mirrors.

59. A method for parallel synthesis of an array of selected multimers on a substrate comprising isolated reaction sites containing one or more protected initiation moieties, the method comprising:
- (a) selectively irradiating, using a spatial optical modulator comprising a digital micromirror device, fluidly isolated reaction sites to generate deprotected initiation moieties at the irradiated isolated reaction sites, wherein generating said deprotected initiation moieties comprises;
  
  (i) contacting the substrate with a liquid solution comprising one or more photo-reagent precursors, said precursors selected from the group consisting of acid precursors and base precursors, such that the liquid solution is in contact with the initiation moieties; and
  
  (ii) selectively irradiating fluidly isolated reaction sites to produce one or more photo-generated reagents, wherein the photo-generated reagents deprotect the initiation moieties at the irradiated, fluidly isolated reaction sites;
  
  (b) coupling one or more monomers to the deprotected initiation moieties to generate new protected initiation moieties; and
  
  (c) repeating steps (a)-(b) until the array of selected multimers has been synthesized;
  
  wherein the coupling reactions to synthesize the array of selected multimers occur with a yield of 98% or greater.
- View Dependent Claims (60, 61, 62, 63, 64, 65)
- - 60. The method of claim 59, wherein the selected multimers are DNA.
  - 61. The method of claim 60, wherein the DNA is selected from the group consisting of nucleotide phosphoramidites and analogs thereof.
  - 62. The method of claim 59, wherein the selected multimers are oligonucleotides.
  - 63. The method of claim 59, wherein the monomer comprises an unprotected reactive site and a protected reactive site.
  - 64. The method of claim 59, wherein the protected initiation moieties are protected by an acid-labile group.
  - 65. The method of claim 59, wherein the protected initiation moieties comprise linker molecules, wherein each of the linker molecules comprise a reactive functional group protected by an acid-labile group.

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Current Assignee
University of Houston Law Center (University of Houston System), Board of Regents of the University of Michigan (University of Michigan)
Original Assignee
Board of Regents of the University of Michigan (University of Michigan)
Inventors
Gao, Xiaolian, Zhou, Xiaochuan, Gulari, Erdogan

Granted Patent

US 7,544,638 B2
Time in Patent Office

Days
Field of Search
US Class Current

506/15
CPC Class Codes

B01J 19/0046   Sequential or parallel reac...

B01J 2219/00434   Liquid crystal masks

B01J 2219/00439   using micromirror arrays

B01J 2219/00497   Features relating to the so...

B01J 2219/00527   Sheets

B01J 2219/00529   DNA chips

B01J 2219/00585   Parallel processes

B01J 2219/0059   Sequential processes

B01J 2219/00596   Solid-phase processes

B01J 2219/00605   the compounds being directl...

B01J 2219/00608   DNA chips

B01J 2219/0061   The surface being organic

B01J 2219/00612   the surface being inorganic

B01J 2219/00617   by chemical means

B01J 2219/00621   by physical means, e.g. tre...

B01J 2219/00626   Covalent

B01J 2219/00637   by coating it with another ...

B01J 2219/00641   the porous medium being con...

B01J 2219/00659   Two-dimensional arrays

B01J 2219/00675   In-situ synthesis on the su...

B01J 2219/00689 : using computers

B01J 2219/00711 : Light-directed synthesis

B01J 2219/00722 : Nucleotides

B01J 2219/00725 : Peptides

B01J 2219/00731 : Saccharides

B82Y 30/00 : Nanotechnology for material...

C07B 2200/11 : Compounds covalently bound ...

C07H 21/00 : Compounds containing two or...

C07K 1/045 : using devices to improve sy...

C07K 1/047 : Simultaneous synthesis of d...

C40B 40/06 : Libraries containing nucleo...

C40B 40/10 : Libraries containing peptid...

C40B 40/12 : Libraries containing saccha...

C40B 50/14 : Solid phase synthesis, i.e....

C40B 60/14 : for creating libraries

G03F 7/00 : Photomechanical, e.g. photo...

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DEVICE FOR CHEMICAL AND BIOCHEMICAL REACTIONS USING PHOTO-GENERATED REAGENTS

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

94 Citations

65 Claims

Specification

Solutions

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DEVICE FOR CHEMICAL AND BIOCHEMICAL REACTIONS USING PHOTO-GENERATED REAGENTS

First Claim

1 Assignment

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

94 Citations

65 Claims

Specification

Subscription Required

Solutions

Use Cases

Quick Links