Your search keyword '"GOLUB, NATALIA V."' showing total 8 results

1. The First FISH-Confirmed Non-Canonical Telomeric Motif in Heteroptera: Cimex lectularius Linnaeus, 1758 and C. hemipterus (Fabricius, 1803) (Hemiptera, Cimicidae) Have a 10 bp Motif (TTAGGGATGG) n.

Author

Stoianova, Desislava, Grozeva, Snejana, Golub, Natalia V., Anokhin, Boris A., and Kuznetsova, Valentina G.

Subjects

FLUORESCENCE in situ hybridization, TELOMERES, INSECTS, SPECIES, SPECIES hybridization, BEDBUGS, HEMIPTERA

Abstract

Fluorescence in situ hybridization (FISH) with two different probes, the canonical insect telomeric sequence (TTAGG)n and the sequence (TTAGGGATGG)n, was performed on meiotic chromosomes of two members of the true bug family Cimicidae (Cimicomorpha), the common bed bug Cimex lectularius Linnaeus, 1758 and the tropical bed bug C. hemipterus (Fabricius, 1803), whose telomeric motifs were not known. In both species, there were no hybridization signals with the first probe, but strong signals at chromosomal ends were observed with the second probe, indicating the presence of a telomeric motif (TTAGGGATGG)n. This study represents the first FISH confirmation of the presence of a non-canonical telomeric motif not only for the infraorder Cimicomorpha but also for the suborder Heteroptera (Hemiptera) as a whole. The present finding is of key significance for unraveling the evolutionary shifts in the telomeric sequences in this suborder. [ABSTRACT FROM AUTHOR]

Published

2024

2. Expanding the Chromosomal Evolution Understanding of Lygaeioid True Bugs (Lygaeoidea, Pentatomomorpha, Heteroptera) by Classical and Molecular Cytogenetic Analysis.

Author

Golub, Natalia V., Maryańska-Nadachowska, Anna, Anokhin, Boris A., and Kuznetsova, Valentina G.

Subjects

KARYOTYPES, HEMIPTERA, SEX chromosomes, CHROMOSOMES, TELOMERES, RECOMBINANT DNA

Abstract

The Lygaeoidea comprise about 4660 species in 790 genera and 16 families. Using standard chromosome staining and FISH with 18S rDNA and telomeric (TTAGG)n probes, we studied male karyotypes and meiosis in 10 species of Lygaeoidea belonging to eight genera of the families Blissidae, Cymidae, Heterogastridae, Lygaeidae, and Rhyparochromidae. Chromosome numbers were shown to range from 12 to 28, with 2n = 14 being predominant. All species have an XY system and all but one have a pair of m-chromosomes. The exception is Spilostethus saxatilis (Lygaeidae: Lygaeinae); in another species of Lygaeinae, Thunbergia floridulus, m-chromosomes were present, which represents the first finding for this subfamily. All species have an inverted sequence of sex chromosome divisions ("post-reduction"). The 18S rDNA loci were observed on one or both sex chromosomes in Kleidocerys resedae and Th. floridulus, respectively (Lygaeidae), while on an autosomal bivalent in all other species. The rDNA loci tended to be close to the end of the chromosome. Using (TTAGG)n—FISH, we were able to show for the first time that the Lygaeoidea lack the canonical "insect" telomere motif (TTAGG)n. We speculate that this ancestral motif is absent from the entire infraorder Pentatomomorpha being replaced by some other telomere repeat motif sequences. [ABSTRACT FROM AUTHOR]

Published

2023

3. Comparative Cytogenetics of Lace Bugs (Tingidae, Heteroptera): New Data and a Brief Overview.

Author

Golub, Natalia V., Golub, Viktor B., Anokhin, Boris A., and Kuznetsova, Valentina G.

Subjects

KARYOTYPES, Y chromosome, CYTOGENETICS, SEX chromosomes, HEMIPTERA, DNA probes

Abstract

Simple Summary: Tingidae, or lace bugs, is a family of herbivorous true bugs, with approximately 2600 identified species in 318 genera classified in two or sometimes three subfamilies, among which the largest subfamily Tinginae comprises about 2500 species. Here, an account is given of the karyotypes of 16 lace bug species studied using conventional chromosomal techniques and FISH with two repetitive DNA probes, 18S rDNA and (TTAGG)n. We also summarize and analyze all information accumulated to date on karyotypes of lace bugs. In general, such information is available for 60 species and 22 genera of Tinginae. We show that lace bugs are characterized by: (1) very conservative karyotypes, with six pairs of autosomes in a haploid set; (2) either an XY or X(0) sex chromosome system; (3) a conventional sequence of sex chromosome divisions in male meiosis; (4) absence of the (TTAGG)n mechanism for maintaining telomere integrity; (5) four discrete patterns of 18S rDNA chromosomal localization. We conclude that the search for chromosomal landmarks is of paramount importance for the characterization of the lace bug cytogenetics in more detail. The lace bug family Tingidae comprises more than 2600 described species in 318 genera that are classified into the subfamilies Tinginae (about 2500 species and 300 genera), Cantacaderinae, and Vianadinae. We provide data on karyotypes of 16 species belonging to 10 genera of the tribes Tingini and Acalyptaini (Tinginae) studied using conventional chromosome staining and FISH. The species of Tingini possess 2n = 12A + XY, whereas those of Acalyptaini have 2n = 12A + X(0). FISH for 18S rDNA revealed hybridization signals on one of the medium-sized bivalents in species of both tribes. FISH with a telomeric probe TTAGG produced no signals in any species. In addition, we provide a list of all data obtained to date on Tingidae karyotypes, which includes 60 species from 22 genera of Tinginae. The subfamily is highly conservative in relation to the number and size of autosomes, whereas it shows diversity in the number and chromosomal distribution of the rDNA arrays, which may be located either on a pair of autosomes (the predominant and supposedly ancestral pattern), on one or both sex chromosomes, or on an autosome pair and the X. The absence of the "insect" telomeric sequence TTAGG in all species implies that Tinginae have some other, yet unknown, telomere organization. [ABSTRACT FROM AUTHOR]

Published

2022

4. Characterization of H3PO4/HNO3–NANO2 oxidized bacterial cellulose and its usage as a carrier for the controlled release of cephalexin.

Author

Solomevich, Sergey O., Dmitruk, Egor I., Aharodnikau, Uladzislau E., Salamevich, Daria A., Bychkovsky, Pavel M., Golub, Natalia V., and Yurkshtovich, Tatiana L.

Subjects

CELLULOSE, DRUG delivery systems, CARBOXYL group, GRAM-negative bacteria, DRUG carriers, ANTIBIOTICS

Abstract

Biocompatibility, biodegradation, good sorption characteristics, and unique structure of highly oxidized bacterial cellulose (OBC) are of great interest for the development of new drug delivery systems. In this study, OBC with 9.6, 13.0 and 19.5% carboxyl groups for 5, 20, and 48 h of synthesis, respectively, was successfully obtained using the HNO3/H3PO4–NaNO2. The results of morphological analysis showed that with an increase in the number of carboxyl groups, OBC fibers become thicker and rougher. Fourier-transform infrared spectroscopy showed the formation of carboxyl groups in the OBC after the oxidation reaction. The crystallinity of the samples according to X-Ray diffraction analysis decreased with increasing reaction time. The immobilization of cephalexin in the polymer matrix was studied in detail, it took 120 min to achieve balance in the solution with a concentration of 1 mg/ml, and the maximum amount of a sorbed antibiotic reached 43 mg/g. The drug release in vitro at 37 °C in PBS with pH 7.4 and 2.0 was prolonged. Various models were used to describe the release mechanism, the best of which was Ritger-Peppas with a diffusion exponent value ranging from 0.743 to 0.830, which explains the drug release mainly through non-Fickian diffusional release. The cephalexin-loaded OBC showed high antimicrobial activity against Gram-negative bacteria Escherichia coli and Gram-positive bacteria Staphylococcus aureus. The structure and properties of the resulting highly oxidized cellulose make it an excellent candidate as a drug delivery carrier with prolonged antimicrobial drug release characteristics. [ABSTRACT FROM AUTHOR]

Published

2021

5. Comparative analysis of chromosome numbers and sex chromosome systems in Paraneoptera (Insecta).

Author

Kuznetsova, Valentina G., Gavrilov-Zimin, Ilya A., Grozeva, Snejana M., and Golub, Natalia V.

Subjects

SEX chromosomes, CHROMOSOME analysis, HEMIPTERA, CHROMOSOME structure, INSECTS, STINKBUGS

Abstract

This article is part (the 4th article) of the themed issue (a monograph) "Aberrant cytogenetic and reproductive patterns in the evolution of Paraneoptera". The purpose of this article is to consider chromosome structure and evolution, chromosome numbers and sex chromosome systems, which all together constitute the chromosomal basis of reproduction and are essential for reproductive success. We are based on our own observations and literature data available for all major lineages of Paraneoptera including Zoraptera (angel insects), Copeognatha (=Psocoptera; bark lice), Parasita (=Phthiraptera s. str; true lice), Thysanoptera (thrips), Homoptera (scale insects, aphids, jumping plant-lice, whiteflies, and true hoppers), Heteroptera (true bugs), and Coleorrhyncha (moss bugs). Terminology, nomenclature, classification, and the study methods are given in the first paper of the issue (Gavrilov-Zimin et al. 2021). [ABSTRACT FROM AUTHOR]

Published

2021

6. Distribution of the Major rDNA Loci among Four Hemipteran Species of the Family Tingidae (Heteroptera, Cimicomorpha).

Author

GOLUB, Natalia V., GOLUB, Viktor B., and KUZNETSOVA, Valentina G.

Published

2017

7. Further evidence for the variability of the 18S rDNA loci in the family Tingidae (Hemiptera, Heteroptera).

Author

Golub, Natalia V., Golub, Viktor B., and Kuznetsova, Valentina G.

Subjects

HEMIPTERA, INVERTEBRATE genetics, RECOMBINANT DNA, KARYOTYPES, INSECT phylogeny

Abstract

As of now, within the lace bug family Tingidae (Cimicomorpha), only l.5% of the species described have been cytogenetically studied. In this paper, male karyotypes of Stephanitis caucasica, S. pyri, Physatocheila confinis, Lasiacantha capucina, Dictyla rotundata and D. echii were studied using FISH mapping with an 18S rDNA marker. The results show variability: the major rDNA sites are predominantly located on a pair of autosomes but occasionally on the X and Y chromosomes. All currently available data on the distribution of the major rDNA in the Tingidae karyotypes are summarized and shortly discussed. Our main concern is to clarify whether the chromosomal position of rDNA loci can contribute to resolving the phylogenetic relationships among the Tingidae taxa. [ABSTRACT FROM AUTHOR]

Published

2016

8. First karyotype data on the family Myerslopiidae (Hemiptera, Auchenorrhyncha, Cicadomorpha).

Author

Golub, Natalia V., Kuznetsova, Valentina G., and Rakitov, Roman A.

Subjects

KARYOTYPES, CYTOGENETICS, SILVER nitrate, CHROMOSOME banding, FLUORESCENCE in situ hybridization, TELOMERES, HOMOPTERA

Abstract

In the first cytogenetic study of the recently proposed family Myerslopiidae the male karyotype of Mapuchea chilensis (Nielson, 1996) was analyzed using conventional chromosome staining, AgNOR- and C-bandings, and fluorescence in situ hybridization (FISH) with 18S rDNA and (TTAGG)n telomeric probes. A karyotype of 2n = 16 + XY, NOR on a medium-sized pair of autosomes, subterminal location of C-heterochromatin, and presence of (TTAGG)n telomeric sequence were determined. Additionally, the male internal reproductive system was studied. [ABSTRACT FROM AUTHOR]

Published

2014