Terry Beck scite author profile

Monitoring proteins in real time and in homogeneous solution has always been a difficult task. We have applied a fluorophore-labeled molecular probe based on a high-affinity platelet-derived growth factor (PDGF) aptamer for the ultrasensitive detection of PDGF in homogeneous solutions. The aptamer is labeled with fluorescein to specifically bind with the PDGF protein. Fluorescence anisotropy is used for the real-time monitoring of the binding between the aptamer and the protein. When the labeled aptamer is bound with its target protein, the rotational motion of the fluorophore attached to the complex becomes much slower because of an increased molecular weight after binding, resulting in a significant fluorescence anisotropy change. Using the anisotropy change, we are able to detect the binding events between the aptamer and the protein in real time and in homogeneous solutions (detection without separation). This assay is highly selective and ultrasensitive. It can detect PDGF in the subnanomolar range. The new method for protein detection is simple and inherits all of the advantages of molecular aptamers. Efficient oncoprotein detection using aptamer-based fluorescence anisotropy measurement will find wide applications in protein monitoring, in cancer diagnosis as well as other studies in which protein analysis is important.

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Design of a Molecular Beacon DNA Probe with Two Fluorophores

Zhang

Beck

Tan

2001

Angew. Chem. Int. Ed.

200

117

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Fluorescence resonance energy transfer between two fluorophores (F1 and F2) attached to the two ends of a molecular beacon DNA probe containing a hairpin structure can be used for quantitative DNA/RNA studies (see scheme). Concentrations of target‐DNA as low as 1.7×10−10 M could be determined with a commercial spectrometer by using coumarin and 6‐carboxyfluorescein as the fluorophores. Measurements on the Förster energy transfer distance for the donor/acceptor pair can also be carried out using these DNA probes.

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Synthesis and Thermodynamics of Oligonucleotides Containing Chirally Pure RP Methylphosphonate Linkages

Reynolds

Hogrefe

Jaeger

et al. 1996

Nucleic Acids Research

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Methylphosphonate (MP) oligodeoxynucleotides (MPOs) are metabolically stable analogs of conventional DNA containing a methyl group in place of one of the non-bonding phosphoryl oxygens. All 16 possible chiral R(P) MP dinucleotides were synthesized and derivatized for automated oligonucleotide synthesis. These dimer synthons can be used to prepare (i) all-MP linked oligonucleotides having defined R(P) chirality at every other position (R(P) chirally enriched MPOs) or (ii) alternating R(P) MP/phosphodiester backbone oligonucleotides, depending on the composition of the 3'-coupling group. Chirally pure dimer synthons were also prepared with 2'-O-methyl sugar modifications. Oligonucleotides prepared with these R(P) chiral methylphosphonate linkage synthons bind RNA with significantly higher affinity than racemic MPOs.

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Terry Beck

Molecular Aptamer for Real-Time Oncoprotein Platelet-Derived Growth Factor Monitoring by Fluorescence Anisotropy

Design of a Molecular Beacon DNA Probe with Two Fluorophores

Synthesis and Thermodynamics of Oligonucleotides Containing Chirally Pure RP Methylphosphonate Linkages

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