US2010248237A1PendingUtilityA1

Miniaturized, high-throughput nucleic acid analysis

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Assignee: FROEHLICH THOMASPriority: Feb 25, 2009Filed: Feb 22, 2010Published: Sep 30, 2010
Est. expiryFeb 25, 2029(~2.6 yrs left)· nominal 20-yr term from priority
C12Q 1/6834C12Q 1/6846C12Q 1/6874
52
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Claims

Abstract

The present invention is directed to method for analyzing multiple nucleic acid molecules of interest comprising in the steps of (i) providing a plurality of beads, characterized in that each bead comprises at least two sequence specific amplification primers, further characterized in that at least one of the primers is bound to the bead via a cleavable linker, (ii) capturing the nucleic acid molecules of interest from a sample, (iii) clonally isolating the plurality of beads, (iv) cleaving the at least one primer, (v) clonally amplifying the nucleic acid thereby creating multiple amplification products, and (vi) analyzing the amplification products.

Claims

exact text as granted — not AI-modified
1 . A method for analyzing a sample comprising nucleic acid molecules of interest, the method comprising the steps of:
 (a) providing a plurality of beads and a plurality of sequence specific amplification primer pairs, wherein each bead comprises at least one pair of sequence specific amplification primers and wherein at least one of said primer pairs is bound to the bead via a photo-cleavable linker,   (b) capturing onto the beads the nucleic acid molecules of interest from the sample by hybridization of the nucleic acid molecules with the primers,   (c) clonally isolating said plurality of beads with captured nucleic acid molecules,   (d) cleaving by photo-induction said at least one hybridized primer to release the nucleic acid from the bead,   (e) clonally amplifying said nucleic acid, thereby generating multiple amplification products, and   (f) analyzing said amplification products.   
     
     
         2 . The method according to  claim 1 , wherein step (c) comprises the generation of an emulsion wherein each bead is encapsulated in a single micelle. 
     
     
         3 . The method according to  claim 1 , wherein step (f) further comprises sequencing said amplification products. 
     
     
         4 . The method according to  claim 3 , wherein said sequencing is performed by a sequencing by synthesis reaction. 
     
     
         5 . The method according to  claim 1 , wherein the generation of amplification products is monitored. 
     
     
         6 . The method according to  claim 5 , wherein said amplification products are monitored by means of a specifically double-stranded DNA binding fluorescent entity or a sequence specific hybridization probe. 
     
     
         7 . The method according to  claim 5 , wherein said amplification products are monitored by means of a thermal gradient. 
     
     
         8 . The method according to  claim 1 , wherein step (c) comprises the distribution of said plurality of beads into the cavities of a micro- or picotiter plate. 
     
     
         9 . The method according to  claim 1 , wherein steps (e) and (f) are performed simultaneously by means of real time PCR. 
     
     
         10 . The method according to  claim 1 , wherein at said at least one primer which is bound to the bead via a cleavable linker carries a detectable label. 
     
     
         11 . The method according to  claim 10 , wherein said detectable label is selected from the group consisting of a mass-tag, a color label, an e-tag, and a hapten which is detectable by an antibody. 
     
     
         12 . The method according to  claim 10 , wherein said detectable label is a fluorescent label which is quenched as long as said labeled primer has not been elongated. 
     
     
         13 . The method according to  claim 1  wherein each member of the plurality of primer pairs which are bound to a bead via a cleavable linker carries a different detectable label.

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