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1.
JACS Au ; 4(2): 760-770, 2024 Feb 26.
Article in English | MEDLINE | ID: mdl-38425914

ABSTRACT

We reported over 20 years ago MNS-4.1, the first DNA aptamer with a micromolar affinity for cocaine. MNS-4.1 is based on a structural motif that is very common in any random pool of oligonucleotides, and it is actually a nonspecific hydrophobic receptor with wide cross-reactivity with alkaloids and steroids. Despite such weaknesses preventing broad applications, this aptamer became widely used in proof-of-concept demonstrations of new formats of biosensors. We now report a series of progressively improved DNA aptamers recognizing cocaine, with the final optimized receptors having low nanomolar affinity and over a thousand-fold selectivity over the initial cross-reactants. In the process of optimization, we tested different methods to eliminate cross-reactivities and improve affinity, eventually achieving properties that are comparable to those of the reported monoclonal antibody candidates for the therapy of overdose. Multiple aptamers that we now report share structural motifs with the previously reported receptor for serotonin. Further mutagenesis studies revealed a palindromic, highly adaptable, broadly cross-reactive hydrophobic motif that could be rebuilt through mutagenesis, expansion of linker regions, and selections into receptors with exceptional affinities and varying specificities.

2.
J Am Chem Soc ; 125(20): 6085-9, 2003 May 21.
Article in English | MEDLINE | ID: mdl-12785838

ABSTRACT

We report herein a novel system for the parallel processing of molecular recognition events utilizing arrays of oligonucleotide-based fluorescent sensors to characterize hydrophobic molecules in solution. The binding domains of the sensors were based on three-way junctions that utilize double helical stems as framework regions to reliably fold regardless of variations in or around the binding domain. A reporting domain was introduced by the specific substitution of a single phosphodiester group with a phosphorothioate, followed by selective functionalization with a fluorophore. The sensors were organized into cross-reactive arrays to yield characteristic fingerprints for samples containing hydrophobic molecules. The fingerprints can be used to characterize steroids in solution, including complex biologically important fluids. Arrays have the potential for clinical applications such as the detection of gross errors in steroidogenesis.


Subject(s)
Biosensing Techniques/methods , Fluorescent Dyes/chemistry , Oligonucleotides/chemistry , Phosphorous Acids/chemistry , Cocaine/analysis , Cross Reactions , Fluorescent Dyes/chemical synthesis , Hydrophobic and Hydrophilic Interactions , Ligands , Nucleic Acid Conformation , Oligonucleotides/chemical synthesis , Phosphorous Acids/chemical synthesis , Structure-Activity Relationship
3.
Acta Crystallogr D Biol Crystallogr ; 58(Pt 10 Pt 1): 1544-8, 2002 Oct.
Article in English | MEDLINE | ID: mdl-12351858

ABSTRACT

The Haas - Drenth - Wilson (HDW) (Haas et al., 1999) theoretical model was used to correlate osmotic second virial coefficient (B) values with solubility (S) values for equine serum albumin (ESA) and ovalbumin for corresponding solution conditions. The best fit from the theoretical model was compared to experimental S versus B data. B values were experimentally measured using static light scattering. Solubilities of ESA were estimated using a sitting drop method. When the experimental data for S versus B were plotted, an excellent fit for ESA was obtained according to the HDW model. The results showed that the coordination number (z) in the crystal lattice was 6, and the adjustable parameter (A) was 0.072. For ovalbumin, previously reported solubility data in aqueous ammonium sulfate solutions were utilized. The solubility data for ovalbumin were correlated with the measured B values obtained in our laboratory. The resulting best fit from the HDW model showed that z = 6 and A = 0.084.


Subject(s)
Ovalbumin/chemistry , Serum Albumin/chemistry , Ammonium Sulfate , Animals , Anisotropy , Crystallization , Horses , Light , Models, Chemical , Molecular Weight , Osmosis , Scattering, Radiation , Solubility
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