IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0447754
(2006-06-05)
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등록번호 |
US-7504265
(2009-03-17)
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발명자
/ 주소 |
- Clague,David S.
- Wheeler,Elizabeth K.
- Lee,Abraham P.
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출원인 / 주소 |
- Lawrence Livermore National Security, LLC
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
1 인용 특허 :
6 |
초록
▼
A flow cytometer includes a flow cell for detecting the sample, an oil phase in the flow cell, a water phase in the flow cell, an oil-water interface between the oil phase and the water phase, a detector for detecting the sample at the oil-water interface, and a hydrophobic unit operatively connecte
A flow cytometer includes a flow cell for detecting the sample, an oil phase in the flow cell, a water phase in the flow cell, an oil-water interface between the oil phase and the water phase, a detector for detecting the sample at the oil-water interface, and a hydrophobic unit operatively connected to the sample. The hydrophobic unit is attached to the sample. The sample and the hydrophobic unit are placed in an oil and water combination. The sample is detected at the interface between the oil phase and the water phase.
대표청구항
▼
The invention claimed is: 1. A flow cytometry method for detecting a target species a sample, comprising the steps of: providing an oil-water flow cell, providing a mixing chamber connected to said oil-water flow cell, said mixing chamber containing oil and water, providing antibody-coated amphiphi
The invention claimed is: 1. A flow cytometry method for detecting a target species a sample, comprising the steps of: providing an oil-water flow cell, providing a mixing chamber connected to said oil-water flow cell, said mixing chamber containing oil and water, providing antibody-coated amphiphilic beads in said mixing chamber, mixing the sample with fluorescently labeled antibodies specific for the target species and with said oil, water, and antibody-coated amphiphilic beads in said mixing chamber thereby attaching the target species in said sample to said amphiphilic beads and said fluorescently labeled antibodies, providing a filter positioned between the mixing chamber and the flow cell for recycling unattached fluorescently labeled antibodies, injecting said mixed sample, oil, water, antibody coated amphiphilic beads and fluorescently labeled antibodies from said mixing chamber into said oil-water flow cell thereby providing an oil and water combination with an interface between said oil and said water, maintaining the target species said antibody-coated amphiphilic beads and said fluorescently labeled antibodies in said oil and water combination in said oil-water flow cell allowing the target species, antibody-coated amphiphilic beads and said fluorescently labeled antibodies to reach said interface, and optically detecting the target species at said interface. 2. The flow cytometry method of claim 1 wherein said step of mixing the sample with said oil, water, antibody coated amphiphilic beads and fluorescently labeled antibodies in said mixing chamber thereby attaching the target species to said antibody coated amphiphilic beads includes attaching a hydrophobic surfactant to the amphiphilic beads. 3. The flow cytometry method of claim 1 wherein said step of attaching a hydrophobic unit to the amphiphilic beads includes attaching an amphiphilic surfactant to the amphiphilic beads. 4. The flow cytometry method of claim 1 wherein said step of mixing the sample with said oil, water, antibody-coated amphiphilic beads and fluorescently labeled antibodies in said mixing chamber thereby attaching the target species to said antibody coated amphiphilic beads includes attaching a hydrophobic surfactant to said antibody coated amphiphilic beads and to the target species. 5. The flow cytometry method of claim 1 wherein said step of mixing the sample with said oil, water, antibody-coated amphiphilic beads and fluorescently labeled antibodies in said mixing chamber thereby attaching the target species to said antibody-coated amphiphilic beads includes attaching an amphiphilic surfactant to said antibody-coated amphiphilic beads and to the target species. 6. The flow cytometry method of claim 1 wherein said step of mixing the sample with said oil, water, and amphiphilic beads in said mixing chamber thereby attaching the target species to said antibody-coated amphiphilic beads includes attaching an amphiphilic surfactant with a hydrophobic tail to said antibody-coated amphiphilic beads and to the target species. 7. The flow cytometry method of claim 1 wherein said step of mixing the sample with said oil, water, antibody-coated amphiphilic beads and fluorescently labeled antibodies in said mixing chamber thereby attaching the target species to said antibody-coated amphiphilic beads includes attaching an amphiphilic surfactant with a hydrophobic tail group to said antibody-coated amphiphilic beads and to the target species. 8. The flow cytometry method of claim 1 wherein said step of mixing the sample with said oil, water, antibody-coated amphiphilic beads and fluorescently labeled antibodies in said mixing chamber thereby attaching the target species to said antibody-coated amphiphilic beads includes attaching an amphiphilic surfactant with a surfactant head and a hydrophobic tail to said antibody-coated amphiphilic beads and to the target species. 9. The flow cytometry method of claim 1 wherein said step of mixing the sample with said oil, water, antibody-coated amphiphilic beads and fluorescently labeled antibodies in said mixing chamber thereby attaching the target species to said antibody-coated amphiphilic beads includes attaching an amphiphilic surfactant with a surfactant head group and a hydrophobic tail group to said antibody-coated amphiphilic beads and to the target species. 10. The flow cytometry method of claim 1 wherein said step of optically detecting the target species at said interface comprises detecting the target species with a laser detector.
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