Biosensors and methods for detecting agents based upon time resolved luminescent resonance energy transfer

US 20060240571A1
Filed: 04/20/2006
Published: 10/26/2006
Est. Priority Date: 04/20/2005
Status: Abandoned Application

First Claim

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1. A device comprising a first molecular recognition element labeled with a luminescence donor and a second molecular recognition element labeled with a luminescence acceptor, both recognition elements affixed to a substrate, wherein the first molecular recognition element can bind to an agent at a first spot on the agent and the second molecular recognition element can bind to the agent at a second spot on the agent such that, in the presence of the agent, the luminescence donor transfers energy to the luminescence acceptor and the luminescence acceptor emits a detectable signal.

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Abstract

Disclosed are biosensors useful in the detection of potentially harmful or undesirable agents, particularly chemicals and microorganisms in food and water. The biosensors operate under the principle of time-resolved luminescence resonance energy transfer. In a preferred embodiment, the biosensor comprises at antibodies that recognized different but proximal epitopes on a particular agent. One antibody contains a luminescence donor that emits energy over time, such as a lanthanide series-based luminophor. Another antibody contains a luminescence acceptor that is excited by the emission spectrum of the donor and emits at a particular wavelength, such as for example the fluorophor Cy3. In the presence of the agent, the donor and acceptor are brought into close proximity, such that the energy transfer can occur. The donor is excited by a transient burst of light and the emitted wavelength is received by a photodiode, quantified and correlated to amount of agent in a sample.

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16 Claims

1. A device comprising a first molecular recognition element labeled with a luminescence donor and a second molecular recognition element labeled with a luminescence acceptor, both recognition elements affixed to a substrate, wherein the first molecular recognition element can bind to an agent at a first spot on the agent and the second molecular recognition element can bind to the agent at a second spot on the agent such that, in the presence of the agent, the luminescence donor transfers energy to the luminescence acceptor and the luminescence acceptor emits a detectable signal.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The device according to claim 1 wherein the first and second molecular recognition elements are a first and second antibody, respectively, wherein the first antibody and the second antibody bind to different but proximal epitopes on the agent, wherein the epitopes are within a Fö
    - rster radius of each other.
  - 3. The device according to claim 1 wherein the donor is a lanthanide chelate and the acceptor is an organic dye.
  - 4. The device according to claim 1 wherein the substrate is selected from the group consisting of flexible polymer, silicon chip, glass slide, and swab.
  - 5. The device according to claim 1 wherein the substrate is a glass slide.

6. A biosensor comprising a first molecular recognition element labeled with a luminescence donor and a second molecular recognition element labeled with a luminescence acceptor, wherein the first molecular recognition element can bind to an agent at a first spot on the agent and the second molecular recognition element can bind to the agent at a second spot on the agent such that, in the presence of the agent, the luminescence donor transfers energy to the luminescence acceptor and the luminescence acceptor emits a detectable signal.
- View Dependent Claims (7, 8, 9, 10)
- - 7. The biosensor according to claim 6 wherein the first molecular recognition element is selected from the group consisting of aptamer, receptor, antibody and antibody fragment, and the second molecular recognition element is selected from the group consisting of aptamer, receptor, antibody and antibody fragment.
  - 8. The biosensor according to claim 6 wherein the first and second molecular recognition elements are a first and second antibody, respectively, wherein the first antibody and the second antibody bind to different but proximal epitopes on the agent, wherein the epitopes are within a Fö
    - rster radius of each other.
  - 9. The biosensor according to claim 6 wherein the donor is a lanthanide chelate and the acceptor is an organic dye.
  - 10. The biosensor according to claim 9 wherein the lanthanide is terbium and the acceptor is Cy3.

11. A method of detecting an agent in a sample comprising the steps of (a) applying a sample to a biosensor, wherein the biosensor comprises a first molecular recognition element labeled with a luminescence donor and a second molecular recognition element labeled with a luminescence acceptor, wherein the first molecular recognition element can bind to an agent at a first spot on the agent and the second molecular recognition element can bind to the agent at a second spot on the agent such that, in the presence of the agent, the luminescence donor transfers energy to the luminescence acceptor and the luminescence acceptor emits a detectable signal, (b) exposing the biosensor to a pulse of light which excites the donor, (c) quantitatively detecting light emitted from the acceptor, and (d) estimating the amount of agent present in the sample.
- View Dependent Claims (12, 13, 14, 15, 16)
- - 12. The method according to claim 11 wherein the agent is a bacteria and the sample is a food sample.
  - 13. The method according to claim 11 wherein the first and second molecular recognition elements are a first and second antibody, respectively, wherein the first antibody and the second antibody bind to different but proximal epitopes on the agent, wherein the epitopes are within a Fö
    - rster radius of each other
  - 14. The method according to claim 11 wherein the donor is a lanthanide chelate and the acceptor is an organic dye.
  - 15. The method according to claim 11 wherein the pulse of light which excites the donor is ultraviolet and the light emitted from the acceptor is visible or infrared.
  - 16. The method according claim 14 wherein the lanthanide is terbium and the acceptor is Cy3.

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Current Assignee
Joseph Edward Zahner
Original Assignee
Joseph Edward Zahner
Inventors
Zahner, Joseph Edward

Application Number

US11/408,529
Publication Number

US 20060240571A1
Time in Patent Office

Days
Field of Search
US Class Current

436/518
CPC Class Codes

G01N 21/6428   Measuring fluorescence of f...

G01N 33/542   with steric inhibition or s...

G01N 33/54366   Apparatus specially adapted...

G01N 33/54373   involving physiochemical en...

G01N 33/56911   Bacteria

Biosensors and methods for detecting agents based upon time resolved luminescent resonance energy transfer

First Claim

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Abstract

7 Citations

16 Claims

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Biosensors and methods for detecting agents based upon time resolved luminescent resonance energy transfer

First Claim

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0 Petitions

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Accused Products

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Abstract

7 Citations

16 Claims

Specification

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Use Cases

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Others