Из воспоминаний о М. А. Усове

In this study, star PEG coatings on glass substrates have been used as support material for oligonucleotide microarrays. These coatings are prepared from solutions of six armed star shaped prepolymers that carry reactive isocyanate endgroups. As described earlier, such films prevent the adsorption of proteins and the adhesion of cells but can easily be functionalized for specific biological recognition. Here we used the high functionality of these coatings for the covalent immobilization of amino terminated 20mer oligonucleotides, both by microcontact printing and spotting techniques. The permanent immobilization of fluorescently labeled DNA as well as hybridization of 20mer oligonucleotides have been monitored by fluorescence microscopy. The hybridization efficiency as determined by fluorescence intensity varied from 30% to 80% depending on the way of layer preparation. The direct spotting without additional activation and blocking steps of the surface demonstrates the potential of star PEG coatings as ultrathin surface modification for microarrays

Ultrathin functional star PEG coatings for DNA microarrays

In this study, star PEG coatings on glass substrates have been used as support material for oligonucleotide microarrays. These coatings are prepared from solutions of six armed star shaped prepolymers that carry reactive isocyanate endgroups. As described earlier, such films prevent the adsorption of proteins and the adhesion of cells but can easily be functionalized for specific biological recognition. Here we used the high functionality of these coatings for the covalent immobilization of amino terminated 20mer oligonucleotides, both by microcontact printing and spotting techniques. The permanent immobilization of fluorescently labeled DNA as well as hybridization of 20mer oligonucleotides have been monitored by fluorescence microscopy. The hybridization efficiency as determined by fluorescence intensity varied from 30% to 80% depending on the way of layer preparation. The direct spotting without additional activation and blocking steps of the surface demonstrates the potential of star PEG coatings as ultrathin surface modification for microarrays

Cleavage and binding of a DNA fragment containing a single 8-oxoguanine by wild type and mutant FPG proteins

International audienceA 34-mer oligonucleotide containing a single 7,8-dihydro-8-oxoguanine (8-OxoG) residue was used to study the enzymatic and DNA binding properties of the Fpg protein from E. coli. The highest rates of incision of the 8-OxoG containing strand by the Fpg protein were observed for duplexes where 8-OxoG was opposite C (*G/C) or T (*G/T). In contrast, the rates of incision of duplexes containing 8-OxoG opposite G (*G/G) and A (*G/A) were 5-fold and 200-fold slower. Gel retardation studies showed that the Fpg protein had a strong affinity for duplexes where the 8-OxoG was opposite pyrimidines and less affinity for duplexes where the 8-OxoG was opposite purines. KDapp values were 0.6 nM (*G/C), 1.0 nM (*G/T), 6.0 nM (*G/G) and 16.0 nM (*G/A). The Fpg protein also binds to unmodified (G/C) duplex and a KDapp of 90 nM was measured. The cleavage and binding of the (*G/C) duplex were also studied using bacterial crude lysates. Wild type E. coli crude extract incised the 8-OxoG containing strand and formed a specific retardation complex with the (*G/C) duplex. These two reactions were mediated by the Fpg protein, since they were not observed with a crude extract from a bacterial strain whose fpg gene was inactivated. Furthermore, we have studied the properties of 6 mutant Fpg proteins with Cys-->Gly mutations. The results showed that the 2 Fpg proteins with Cys-->Gly mutations outside the zinc finger sequence cleaved the 8-OxoG containing strand, formed complexes with the (*G/C) duplex and suppressed the mutator phenotype of the fpg-1 mutant. In contrast, the 4 Fpg proteins with Cys-->Gly mutations within the zinc finger motif neither cleave nor bind the (*G/C) duplex, nor do these proteins suppress the fpg-1 mutator phenotype