T. O. Guseinov

The effect of chromophore charge on the incorporation efficiency of fluorescence-labeled nucleotides catalyzed by Taq DNA polymerase in matrix synthesis

The effect of the chromophore charge on the efficiency of incorporation of fluorescent-labeled nucleotides into DNA during PCR was studied using three dUTP derivatives that contain different fluorescent labels, i.e., electroneutral, positively charged, and negatively charged Cy5 analogs. dUTP labeled with an electroneutral Cy5 analog was shown to be most efficiently incorporated into DNA when Tag polymerase was used in PCR.

Cyanine-dye-modified 2′-deoxyuridine-5′-triphosphates: Synthesis, applications, and linker effect on substrate properties for Taq DNA polymerase

A number of fluorescently labeled nucleoside triphosphates containing electroneutral indodicarbocyanine dye (Cy) have been synthesized. The dye has been attached to the C5 position of pyrimidine through the transalkene linkers of different structure. The synthesized labeled nucleoside triphosphates have been tested as substrates for Taq polymerase in PCR using the “TB-biochip” test system.

Structural and functional analysis of biopolymers and their complexes: Enzymatic synthesis of high-modified DNA

Here, we describe the synthesis and purification of six deoxyuridine triphosphate derivatives that contain protein-like functional groups and alkene linkers of various lengths. Using KOD XL and Deep Vent polymerases, these derivatives have been incorporated into single-stranded DNA, achieving a high degree of DNA modification. These polymerases are able to utilize highly modified DNA strands as templates for synthesizing unmodified DNA. The synthesized deoxyuridine triphosphate derivatives are promising as substrates for producing modified aptamers to various target proteins using, e.g., the systematic evolution of ligands by exponential enrichment (SELEX) methodology.

Comparative Study of Novel Fluorescent Cyanine Nucleotides: Hybridization Analysis of Labeled PCR Products Using a Biochip

This study investigated the synthesis and substrate properties of Cy5-labeled dUTP derivatives with different substituents, linkers between the dye unit and pyrimidine heterocycle and fluorophore charges. Fluorescently labeled nucleoside triphosphates were studied as substrates using multiplex PCR with Taq and Vent (exo-) DNA polymerases, the typical representatives of the A and B polymerase families. The efficiency of nucleotide incorporation during PCR was assessed with a multi-parameter hybridization analysis using a diagnostic DNA microarray. The hybridization analysis indirectly estimates the incorporation efficiency of dye-labeled nucleotides in multiplex PCR. Our results demonstrated higher efficiencies of substrates with electrically neutral dyes than electropositive and electronegative Cy5 residues.

The kinetics of fluorescent DNA labeling using PCR with different Taq polymerases depends on the chemical structures of modified nucleotides

The kinetics of DNA labeling during PCR using six fluorescent derivatives of 2′-deoxyuridine 5′-triphosphate has been studied. These compounds differ in their chemical structure, total electric charge and the length of the linker between a dye and the C5 position of a pyrimidine base. The efficiency of the incorporation of the fluorescent derivatives into a growing DNA chain by four commercially available Taq DNA polymerases with 5′→3′ exonuclease and hot start activity has been determined using real-time PCR with a TaqMan probe and the subsequent electrophoretic analysis of the reaction products. Modified deoxyuridines with a total positive or negative charge of the chromophore were practically not incorporated by Taq polymerases during PCR. The modified deoxyuridines with a neutral charge of the chromophore were effectively incorporated into DNA. The extended length of the linker between the pyrimidine base and the chromophore led to a lower PCR inhibition and a more effective inclusion of modified nucleotides in the growing DNA chain. This fact can be explained by the reduced steric effects that were caused by the dye. As a result, the most promising combinations of fluorescently labeled nucleotide and Taq polymerase have been chosen for further use in fluorescent DNA labeling.

Infrared fluorescent markers for microarray DNA analysis

In order to expand the informational capabilities of molecular genetic research, new indotricarbocyanine dyes that fluoresce in the near infrared (IR) spectral region have been synthesized. The developed IR dyes were studied using a biochip-based test system for detection of mutations in the BRCA1/BRCA2 and CHECK2 genes associated with breast cancer. The fluorescent label was introduced to the analyzed DNA during PCR using primers labeled with the synthesized IR dyes. An analyzer that allows recording and processing of images of fluorescent microarrays in the IR spectral region was designed and manufactured. It has been shown that the use of the synthesized dyes enables to conduct analysis in the IR region and improve the reliability of medical diagnostic tests due to low fluorescence intensity of sample components as well as of a biochip substrate and the reagents used for analysis.

New Synthetic Route to CY5-Labeled 2'-Deoxycytidine- 5'-Triphosphates Using Sonogashira Reaction

Herein, we present a new synthetic route to fluorescently-labeled nucleoside triphosphates via Sonogashira cross-coupling of iodinated deoxycytidine monophosphate and cyanine dye with a terminal alkyne group.

Substrate Properties of New Fluorescently Labeled Deoxycytidine Triphosphates in Enzymatic Synthesis of DNA with Polymerases of Families A and B

The efficiency of the incorporation of fluorescently labeled derivatives of 2-deoxycytidine in DNA synthesized de novo has been studied using PCR with Taq and Tth polymerases of family A and Vent (exo–) and Deep Vent (exo–) polymerases of family B. Four derivatives of 5-triphosphate-2-deoxycytidine (dCTP) have different chemical structures of the indodicarbocyanine dye and Cy5 analogue attached to position 5 of cytosine. The kinetics of the accumulation of the PCR products and the intensity of the fluorescent signals in the hybridization analysis with immobilized DNA probes depend on the modification of the fluorescently labeled dCTP counterpart, its concentration, and the type of DNA polymerase. All labeled triphosphates showed some inhibitory effects on PCR. The best balance between the efficiency of incorporating labeled cytidine derivatives and the negative effect on the PCR kinetics has been shown in the case of Hot Taq polymerase in combination with the Cy5-dCTP analogue, which contains containing electrically neutral chromophore, the axis of which is a continuation of the linker between the chromophore and the pyrimidine base.

The Effect of the Structure of Fluorescently Labeled Nucleotide Derivatives on the Efficiency of Their Incorporation in DNA in the Polymerase Chain Reaction

The efficiency of fluorescence DNA labeling was estimated for four fluorescent 2′-deoxyuridine 5′-triphosphate derivatives differing in the orientation of the main dye axis, which passes through the polymethine chain, relative to the linker connecting the dye to the nucleotide. To estimate the polymerase chain reaction (PCR) rate, real-time PCR was run with two commercial hot-start DNA polymerases possessing 5′→3′ exonuclease activity in the presence of an intercalating dye. The efficiency of the test compound incorporation in the PCR product was estimated via a quantitative analysis of the amplification product by agarose gel electrophoresis. The fluorescently labeled product was then hybridized on a biological microchip and the ratio of signals from perfect match and mismatch duplexes was determined. The incorporation efficiency and discrimination between perfect match and mismatch duplexes were found to depend on the relative orientation of the dye and the linker between the dye and pyrimidine base, as well as on the presence of hydrophilic groups in the dye. Compounds that are efficiently incorporated in a growing DNA strand and show a high specificity in hybridization analysis were identified using biochips.

Infrared fluorescent markers for microarray DNA analysis on biological microchip

To expand the informational capabilities of molecular genetic research, on the biological microchips, new indotricarbocyanine dyes that fluoresce in the near infrared (IR) spectral region have been synthesized. The developed IR dyes were studied using a biochip-based test system for detection of mutations in the BRCA1/BRCA2 and CHECK2 genes associated with breast cancer. The fluorescent label was introduced to the analyzed DNA during PCR using primers labeled with the synthesized IR dyes. An analyzer that allows recording and processing of images of fluorescent microarrays in the IR spectral region was designed and manufactured. It has been shown that the use of the synthesized dyes enables to conduct analysis in the IR region and improve the reliability of medical diagnostic tests due to low fluorescence intensity of sample components as well as of a biochip substrate and the reagents used for analysis.