Screening HIV‐1 antigenic peptides as receptors for antibodies and CD4 in allosteric nanosensors

Abstract: We have analyzed the suitability of six antigenic peptides from several HIV-1 structural proteins (namely gp41, gp120, p17, and p24), as anti-HIV-1 antibody receptors in an allosteric enzymatic biosensor. These peptides were inserted in a solvent-exposed surface of Escherichia coli (E. coli) beta-galactosidase by means of conventional recombinant DNA technology. The resulting enzymes were tested to allosterically respond to sera from HIV-1-infected individuals. Only stretches from gp41 and gp120 envelope prote… Show more

“…In recent years, allosteric enzymes have received much attention in various research fields such as drug design and the development of protein switches or biosensors. − The activity of such enzymes is modulated by the binding of an allosteric effector such as specific ligands, ions, or proteins. − ,, Applications of allosteric proteins in biosensing include the detection of drugs, biomarkers, cells, antibodies, DNA, carbohydrates, pesticides, hormone receptor ligands, and the specification of metal ions . Moreover, allosteric signal modulation in sensors and catalytic devices was achieved not only with natural effector/protein couples but also with synthetic supramolecular/organometallic systems that were subject to molecular activity stimulation. ,, …”

Tuned Amperometric Detection of Reduced β-Nicotinamide Adenine Dinucleotide by Allosteric Modulation of the Reductase Component of the p-Hydroxyphenylacetate Hydroxylase Immobilized within a Redox Polymer

“…In recent years, allosteric enzymes have received much attention in various research fields such as drug design and the development of protein switches or biosensors. − The activity of such enzymes is modulated by the binding of an allosteric effector such as specific ligands, ions, or proteins. − ,, Applications of allosteric proteins in biosensing include the detection of drugs, biomarkers, cells, antibodies, DNA, carbohydrates, pesticides, hormone receptor ligands, and the specification of metal ions . Moreover, allosteric signal modulation in sensors and catalytic devices was achieved not only with natural effector/protein couples but also with synthetic supramolecular/organometallic systems that were subject to molecular activity stimulation. ,, …”

Tuned Amperometric Detection of Reduced β-Nicotinamide Adenine Dinucleotide by Allosteric Modulation of the Reductase Component of the p-Hydroxyphenylacetate Hydroxylase Immobilized within a Redox Polymer

“…[15] However, activity changes in these sensor proteins are typically small and depend on subtle allosteric effects. A second, more-rational approach is based on peptide epitopes that are sandwiched in between two synthetic fluorophores.…”

Antibody Detection by Using a FRET‐Based Protein Conformational Switch

HIV-derived peptide mimics