Your search keyword '"Garkovenko, Alexey V."' showing total 2 results

1. Improved DOP-PCR (iDOP-PCR): A robust and simple WGA method for efficient amplification of low copy number genomic DNA.

Author

Blagodatskikh, Konstantin A., Kramarov, Vladimir M., Barsova, Ekaterina V., Garkovenko, Alexey V., Shcherbo, Dmitriy S., Shelenkov, Andrew A., Ustinova, Vera V., Tokarenko, Maria R., Baker, Simon C., Kramarova, Tatiana V., and Ignatov, Konstantin B.

Subjects

GENE amplification, OLIGONUCLEOTIDES, POLYMERASE chain reaction, DNA copy number variations, ALLELES

Abstract

Whole-genome amplification (WGA) techniques are used for non-specific amplification of low-copy number DNA, and especially for single-cell genome and transcriptome amplification. There are a number of WGA methods that have been developed over the years. One example is degenerate oligonucleotide-primed PCR (DOP-PCR), which is a very simple, fast and inexpensive WGA technique. Although DOP-PCR has been regarded as one of the pioneering methods for WGA, it only provides low genome coverage and a high allele dropout rate when compared to more modern techniques. Here we describe an improved DOP-PCR (iDOP-PCR). We have modified the classic DOP-PCR by using a new thermostable DNA polymerase (SD polymerase) with a strong strand-displacement activity and by adjustments in primers design. We compared iDOP-PCR, classic DOP-PCR and the well-established PicoPlex technique for whole genome amplification of both high- and low-copy number human genomic DNA. The amplified DNA libraries were evaluated by analysis of short tandem repeat genotypes and NGS data. In summary, iDOP-PCR provided a better quality of the amplified DNA libraries compared to the other WGA methods tested, especially when low amounts of genomic DNA were used as an input material. [ABSTRACT FROM AUTHOR]

Published

2017

2. Bacillus velezensis Strains for Protecting Cucumber Plants from Root-Knot Nematode Meloidogyne incognita in a Greenhouse.

Author

Asaturova, Anzhela M., Bugaeva, Ludmila N., Homyak, Anna I., Slobodyanyuk, Galina A., Kashutina, Evgeninya V., Yasyuk, Larisa V., Sidorov, Nikita M., Nadykta, Vladimir D., and Garkovenko, Alexey V.

Subjects

SOUTHERN root-knot nematode, ROOT-knot, CUCUMBERS, ROOT-knot nematodes, GREENHOUSES, CROPS, PLANTS

Abstract

Meloidogyne incognita Kofoid et White is one of the most dangerous root-knot nematodes in greenhouses. In this study, we evaluated two Bacillus strains (Bacillus velezensis BZR 86 and Bacillus velezensis BZR 277) as promising microbiological agents for protecting cucumber plants from the root-knot nematode M. incognita Kof. The morphological and cultural characteristics and enzymatic activity of the strains have been studied and the optimal conditions for its cultivation have been developed. We have shown the nematicidal activity of these strains against M. incognita. Experiments with the cucumber variety Courage were conducted under greenhouse conditions in 2016–2018. We determined the effect of plant damage with M. incognita to plants on the biometric parameters of underground and aboveground parts of cucumber plants, as well as on the gall formation index and yield. It was found that the treatment of plants with Bacillus strains contributed to an increase in the height of cucumber plants by 7.4–43.1%, an increase in leaf area by 2.7–17.8%, and an increase in root mass by 3.2–16.1% compared with the control plants without treatment. The application of these strains was proved to contribute to an increase in yield by 4.6–45.8% compared to control. Our experiments suggest that the treatment of cucumber plants with two Bacillus strains improved plant health and crop productivity in the greenhouse. B. velezensis BZR 86 and B. velezensis BZR 277 may form the basis for bionematicides to protect cucumber plants from the root-knot nematode M. incognita. [ABSTRACT FROM AUTHOR]

Published

2022