IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0895076
(2001-07-02)
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우선권정보 |
FR-0008504 (2000-06-30) |
발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
Finnegan, Henderson, Farabow, Garrett & Dunner, L.L.P.
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인용정보 |
피인용 횟수 :
32 인용 특허 :
7 |
초록
▼
The present application relates to a device for applying a product to keratinous fibers. The device may include a plurality of applicator elements oriented substantially transversely to a longitudinal axis of the device and comprising a first applicator element and a second applicator element consec
The present application relates to a device for applying a product to keratinous fibers. The device may include a plurality of applicator elements oriented substantially transversely to a longitudinal axis of the device and comprising a first applicator element and a second applicator element consecutive with the first applicator element. A first portion of a peripheral edge of the first applicator element may be at a first longitudinal distance from a corresponding first portion of the second applicator element. A second portion of the peripheral edge of the first applicator element may be at a second longitudinal distance from a corresponding second portion of the second applicator element. The second longitudinal distance may be less than the first longitudinal distance so as to define at least one narrowed section configured to engage at least one keratinous fiber between the first and second applicator elements.
대표청구항
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The present application relates to a device for applying a product to keratinous fibers. The device may include a plurality of applicator elements oriented substantially transversely to a longitudinal axis of the device and comprising a first applicator element and a second applicator element consec
The present application relates to a device for applying a product to keratinous fibers. The device may include a plurality of applicator elements oriented substantially transversely to a longitudinal axis of the device and comprising a first applicator element and a second applicator element consecutive with the first applicator element. A first portion of a peripheral edge of the first applicator element may be at a first longitudinal distance from a corresponding first portion of the second applicator element. A second portion of the peripheral edge of the first applicator element may be at a second longitudinal distance from a corresponding second portion of the second applicator element. The second longitudinal distance may be less than the first longitudinal distance so as to define at least one narrowed section configured to engage at least one keratinous fiber between the first and second applicator elements. ature, and wherein generation of said signal is indicative of the presence of a target nucleic acid sequence in said sample. 2. The method of claim 1, wherein said signal is detected or measured, wherein said detecting and/or measuring the signal comprises detecting and/or measuring the amount of said fragment. 3. A method of detecting or measuring a target nucleic acid sequence comprising the steps of: forming a cleavage structure comprising duplex and single-stranded nucleic acid by incubating a sample containing a target nucleic acid sequence with a probe having a secondary structure that changes upon binding of said probe to said target nucleic acid sequence, cleaving said cleavage structure with a nuclease to release a nucleic acid fragment wherein said cleavage is performed at a cleaving temperature and said secondary structure of said probe when not bound to said target nucleic acid sequence is stable at or below said cleaving temperature; and detecting and/or measuring the amount of said fragment as an indication of the presence of the target sequence in the sample. 4. The method of claim 1 or 3, further comprising a nucleic acid polymerase, wherein said nucleic acid polymerase and said cleavage structure are incubated under conditions wherein said nucleic acid polymerase forms a primer extension product. 5. The method of claim 1 or 3 wherein said cleavage structure further comprises a 5' flap. 6. The method of claim 1 or 3 wherein said cleavage structure further comprises an oligonucleotide primer. 7. The method of claim 1 or 3 wherein said secondary structure is selected from the group consisting of a stem-loop structure, a hairpin structure, an internal loop, a bulge loop, a branched structure, a pseudoknot structure and a cloverleaf structure. 8. The method of claim 1 or 3 wherein said nuclease is a FEN nuclease. 9. The method of claim 1 or 3 wherein said probe further comprises at least one labeled moiety capable of providing a signal. 10. The method of claim 1 or 3 wherein a cleavage structure is formed comprising a pair of interactive signal generating labeled moieties effectively positioned on said probe to quench the generation of a detectable signal when the probe is not bound to said target nucleic acid. 11. The method of claim 10 wherein said labeled moieties are separated by a site susceptible to nuclease cleavage, thereby allowing the nuclease activity of said nuclease to separate the first interactive signal generating labeled moiety from the second interactive signal generating labeled moiety by cleaving at said site susceptible to nuclease cleavage, thereby generating a detectable signal. 12. The method of claim 10 wherein said pair of interactive signal generating moieties comprises a quencher moiety and a fluorescent moiety. 13. A polymerase chain reaction process for detecting a target nucleic acid sequence in a sample comprising: providing a cleavage structure comprising duplex and single-stranded nucleic acid and further comprising a probe having a secondary structure that changes upon binding of said probe to said target nucleic acid sequence, a set of oligonucleotide primers wherein a forward primer contains a sequence complementary to a region in one strand of said target nucleic acid sequence and primes the synthesis of a complementary DNA strand, and a reverse primer contains a sequence complementary to a region in a second strand of the target nucleic acid sequence and primes the synthesis of a complementary DNA strand; and amplifying the target nucleic acid sequence employing a nucleic acid polymerase as a template-dependent polymerizing agent under conditions which are permissive for PCR cycling steps of (i) annealing of primers required for amplification to a template nucleic acid sequence contained within said target nucleic acid sequence, (ii) extending the primers wherein said nucleic acid polymerase synthesizes a primer extension product, and (iii) cleaving said cleavage structure employing a nuclease as a cleavage agent for release of labeled fragments from said cleavage structure thereby creating detectable labeled fragments; wherein said cleaving is performed at a cleaving temperature and said secondary structure of said second probe when not bound to said target nucleic acid sequence is stable at or below said cleaving temperature; and detecting and/or measuring the amount of released, labeled fragment. 14. The polymerase chain reaction process of claim 13 wherein said nuclease is a FEN nuclease. 15. The polymerase chain reaction process of claim 13 wherein said oligonucleotide primers are oriented such that the forward primer is located upstream of said cleavage structure and the reverse primer is located downstream of said cleavage structure. 16. The polymerase chain reaction process of claim 13 wherein the nucleic acid polymerase has strand displacement activity. 17. The polymerase chain reaction process of claim 13 wherein the nucleic acid polymerase is thermostable. 18. The polymerase chain reaction process of claim 13 wherein the nuclease is thermostable. 19. The polymerase chain reaction process of claim 13 wherein the nuclease is a flap-specific nuclease. 20. The polymerase chain reaction process of claim 13 wherein the cleavage structure is formed by the addition of at least one labeled moiety capable of providing a signal. 21. The polymerase chain reaction process of claim 13 wherein a cleavage structure is formed comprising a pair of interactive signal generating labeled moieties effectively positioned on said probe to quench the generation of a detectable signal when said probe is not bound to said target nucleic acid. 22. The polymerase chain reaction process of claim 21 wherein said pair of interactive signal generating labeled moieties are separated by a site susceptible to nuclease cleavage, thereby allowing the nuclease activity of said nuclease to separate the first interactive signal generating labeled moiety from the second interactive signal generating labeled moiety by cleaving at said site susceptible to nuclease cleavage, thereby generating a detectable signal. 23. The method of claim 21 or 22 wherein said pair of interactive signal generating moieties comprises a quencher moiety and a fluorescent moiety. 24. A polymerase chain reaction process for simultaneously forming a cleavage structure comprising duplex and single-stranded nucleic acid, amplifying a target nucleic acid sequence in a sample and cleaving said cleavage structure comprising the steps of: (a) providing an upstream oligonucleotide primer complementary to a first region in one strand of the target nucleic acid sequence, a downstream labeled probe complementary to a second region in the same strand of the target nucleic acid sequence, wherein said downstream labeled probe is capable of forming a secondary structure that changes upon binding of said probe to said target nucleic acid sequence, and a downstream oligonucleotide primer complementary to a region in a second strand of the target nucleic acid; and wherein the upstream primer primes the synthesis of a complementary DNA strand, and the downstream primer primes the synthesis of a complementary DNA strand; and (b) detecting a nucleic acid which is produced in a reaction comprising amplification of said target nucleic acid sequence by a nucleic acid polymerase and cleavage thereof comprising (i) annealing of primers to a target nucleic acid sequence, (ii) extending the primers of step (a), wherein said nucleic acid polymerase synthesizes primer extension products, and wherein the primer extension product of the upstream primer of step (a) partially displaces the downstream probe of step (a) to form a cleavage structure; and (iii) cleaving said cleavage structure employing a nuclease as a cleavage agent for release of labeled fragments from said cleavage structure, wherein said cleaving is performed at a cleaving temperature and said secon dary structure of said probe when not bound to said target nucleic acid sequence is stable at or below said cleaving temperature, thereby creating detectable labeled fragments. 25. The polymerase chain reaction process of claim 24 wherein said cleavage structure further comprises a 5' flap. 26. A method of forming a cleavage structure comprising duplex and single-stranded nucleic acid, comprising the steps of: (a) providing a target nucleic acid sequence, (b) providing an upstream nucleic acid complementary to said target nucleic acid sequence, (c) providing a downstream probe having a secondary structure that changes upon binding of said probe to said target nucleic acid sequence; and (d) annealing said target nucleic acid sequence, said upstream nucleic acid and said downstream probe and; wherein said cleavage structure can be cleaved with a nuclease at a cleaving temperature, and wherein said secondary structure of said probe when not bound to said target nucleic acid sequence is stable at or below said cleaving temperature. 27. The method of claim 26 wherein the cleavage structure comprises a 5' flap. 28. A composition comprising a target nucleic acid sequence, a probe having a secondary structure that changes upon binding of said probe to a target nucleic acid sequence, and a nuclease; and wherein said probe and said target nucleic acid can bind to form a cleavage structure comprising duplex and single-stranded nucleic acid that can be cleaved by said nuclease wherein said cleaving is performed at a cleaving temperature, and wherein said secondary structure of said probe when not bound to said target nucleic acid sequence is stable at or below said cleaving temperature. 29. The composition of claim 28 further comprising an oligonucleotide primer. 30. A kit for generating a signal indicative of the presence of a target nucleic acid sequence in a sample, comprising a probe having a secondary structure that changes upon binding of said probe to a target nucleic acid sequence and a FEN nuclease; wherein said probe can bind to a target nucleic acid sequence to form a cleavage structure comprising duplex and single-stranded nucleic acid that can be cleaved by said nuclease; and wherein said cleaving is performed at a cleaving temperature, and wherein said secondary structure of said probe when not bound to said target nucleic acid sequence is stable at or below said cleaving temperature. 31. The kit of claim 30 further comprising an oligonucleotide primer. 32. The kit of claim 30, wherein said probe comprises at least one labeled moiety. 33. The kit of claim 30, wherein said probe comprises a pair of interactive signal generating labeled moieties effectively positioned to quench the generation of a detectable signal when said probe is not bound to said target nucleic acid. 34. The kit of claim 33 wherein said labeled moieties are separated by a site susceptible to nuclease cleavage, thereby allowing the nuclease activity of said nuclease to separate the first interactive signal generating labeled moiety from the second interactive signal generating labeled moiety by cleaving at said site susceptible to nuclease cleavage, thereby generating a detectable signal. 35. The kit of claim 33 or 34, wherein said pair of interactive signal generating moieties comprises a quencher moiety and a fluorescent moiety.
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