Your search keyword '"Kraus YA"' showing total 11 results

1. From apolar gastrula to polarized larva: Embryonic development of a marine hydroid, Dynamena pumila.

Author

Vetrova AA, Lebedeva TS, Saidova AA, Kupaeva DM, Kraus YA, and Kremnyov SV

Subjects

Animals, Body Patterning physiology, Gastrulation, Gene Expression Regulation, Developmental, Larva, Wnt Signaling Pathway physiology, Cnidaria genetics, Gastrula

Abstract

Background: In almost all metazoans examined to this respect, the axial patterning system based on canonical Wnt (cWnt) signaling operates throughout the course of development. In most metazoans, gastrulation is polar, and embryos develop morphological landmarks of axial polarity, such as blastopore under control/regulation from cWnt signaling. However, in many cnidarian species, gastrulation is morphologically apolar. The question remains whether сWnt signaling providing the establishment of a body axis controls morphogenetic processes involved in apolar gastrulation., Results: In this study, we focused on the embryonic development of Dynamena pumila, a cnidarian species with apolar gastrulation. We thoroughly described cell behavior, proliferation, and ultrastructure and examined axial patterning in the embryos of this species. We revealed that the first signs of morphological polarity appear only after the end of gastrulation, while molecular prepatterning of the embryo does exist during gastrulation. We have shown experimentally that in D. pumila, the direction of the oral-aboral axis is highly robust against perturbations in cWnt activity., Conclusions: Our results suggest that morphogenetic processes are uncoupled from molecular axial patterning during gastrulation in D. pumila. Investigation of D. pumila might significantly expand our understanding of the ways in which morphological polarization and axial molecular patterning are linked in Metazoa., (© 2021 American Association for Anatomy.)

Published

2022

2. сWnt signaling modulation results in a change of the colony architecture in a hydrozoan.

Author

Bagaeva TS, Kupaeva DM, Vetrova AA, Kosevich IA, Kraus YA, and Kremnyov SV

Subjects

Animals, Body Patterning genetics, Cnidaria genetics, Cnidaria metabolism, Evolution, Molecular, Fetal Proteins genetics, Fetal Proteins metabolism, Hydrozoa genetics, Morphogenesis, Phylogeny, Signal Transduction, T-Box Domain Proteins genetics, T-Box Domain Proteins metabolism, Wnt Proteins metabolism, Wnt Signaling Pathway genetics, Body Patterning physiology, Hydrozoa metabolism, Wnt Signaling Pathway physiology

Abstract

At the polyp stage, most hydrozoan cnidarians form highly elaborate colonies with a variety of branching patterns, which makes them excellent models for studying the evolutionary mechanisms of body plan diversification. At the same time, molecular mechanisms underlying the robust patterning of the architecturally complex hydrozoan colonies remain unexplored. Using non-model hydrozoan Dynamena pumila we showed that the key components of the Wnt/β-catenin (cWnt) pathway (β-catenin, TCF) and the cWnt-responsive gene, brachyury 2, are involved in specification and patterning of the developing colony shoots. Strikingly, pharmacological modulation of the cWnt pathway leads to radical modification of the monopodially branching colony of Dynamena which acquire branching patterns typical for colonies of other hydrozoan species. Our results suggest that modulation of the cWnt signaling is the driving force promoting the evolution of the vast variety of the body plans in hydrozoan colonies and offer an intriguing possibility that the involvement of the cWnt pathway in the regulation of branching morphogenesis might represent an ancestral feature predating the cnidarian-bilaterian split., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

3. A cadherin switch marks germ layer formation in the diploblastic sea anemone Nematostella vectensis .

Author

Pukhlyakova EA, Kirillova AO, Kraus YA, Zimmermann B, and Technau U

Subjects

Animals, Ectoderm cytology, Ectoderm metabolism, Endoderm cytology, Endoderm metabolism, Cadherins metabolism, Embryo, Nonmammalian cytology, Embryo, Nonmammalian metabolism, Germ Layers cytology, Germ Layers metabolism, Sea Anemones embryology, Sea Anemones metabolism

Abstract

Morphogenesis is a shape-building process during development of multicellular organisms. During this process, the establishment and modulation of cell-cell contacts play an important role. Cadherins, the major cell adhesion molecules, form adherens junctions connecting epithelial cells. Numerous studies of Bilateria have shown that cadherins are associated with the regulation of cell differentiation, cell shape changes, cell migration and tissue morphogenesis. To date, the role of cadherins in non-bilaterians is unknown. Here, we study the expression and function of two paralogous classical cadherins, Cadherin 1 and Cadherin 3, in a diploblastic animal, the sea anemone Nematostella vectensis We show that a cadherin switch accompanies the formation of germ layers. Using specific antibodies, we show that both cadherins are localized to adherens junctions at apical and basal positions in ectoderm and endoderm. During gastrulation, partial epithelial-to-mesenchymal transition of endodermal cells is marked by stepwise downregulation of Cadherin 3 and upregulation of Cadherin 1. Knockdown experiments show that both cadherins are required for maintenance of tissue integrity and tissue morphogenesis. Thus, both sea anemones and bilaterians use independently duplicated cadherins combinatorially for tissue morphogenesis and germ layer differentiation., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2019. Published by The Company of Biologists Ltd.)

Published

2019

4. Epithelial folding in the morphogenesis of the colonial marine hydrozoan, Dynamena pumila.

Author

Kupaeva DM, Vetrova AA, Kraus YA, and Kremnyov SV

Subjects

Animals, Cell Proliferation, Cell Shape, Cnidaria cytology, Microscopy, Confocal, Microscopy, Electron, Transmission, Morphogenesis, Stress, Mechanical, Actins metabolism, Cnidaria growth & development, Epithelium growth & development

Abstract

Epithelial folding (EF) is a fundamental morphogenetic process that can be observed in the development of many organisms ranging from metazoans to green algae. Being early branching metazoans, cnidarians represent the best models to study evolutionarily conserved morphogenetic processes, including EF. Hydrozoa is the most evolutionary advanced group of the phylum Cnidaria. All colonial hydrozoans grow continuously, changing the shape of their colonies and spreading over the substrate with the help of elongating stolons. Owing to high diversity of colony architecture, they are ideal objects for comparative and evolutionary morphology. In the hydrozoan Dynamena pumila, the growth of the colony proceeds via a variety of morphogenetic processes. Our work is focused on the formation of the anchoring disc of the stolon, which is accompanied by inward-folding morphogenesis of the ectodermal layer. Successive stages of anchoring disc development were described with light, confocal transmission electron microscopy. We have shown that EF in Dynamena is associated with accumulation of F-actin in the constricting apical domains of forming bottle cells located at the bottom of the emerging fold. In addition, the nuclei of these cells are displaced to the basal domains. Taken together, these features may indicate that EF in Dynamena proceeds as an active invagination, although this process has never been described in the development of hydrozoans. Apparently, development of the anchoring disc can be viewed as a reliable and versatile model system for studying the cell-shape-change-driven epithelial sheet morphogenesis, which can be easily observed and analysed., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

5. Embryonic development of thecate hydrozoan Gonothyraea loveni (Allman, 1859).

Author

Burmistrova YA, Osadchenko BV, Bolshakov FV, Kraus YA, and Kosevich IA

Subjects

Animals, Hydrozoa cytology, Hydrozoa growth & development, Larva growth & development, Hydrozoa embryology

Abstract

Progress of Evo-Devo requires broad phylogenetic sampling providing the data for comparative analysis as well as new objects suitable for experimental investigation. Representatives of the early-branching animal phylum Cnidaria and particularly hydrozoans draw great attention due to the high diversity of embryonic and post-embryonic development and life-cycles in general. Most detailed studies on embryonic development in hydrozoans were performed on the species shedding their gametes with subsequent embryo development in the water column. Widely distributed thecate hydrozoan Gonothyraea loveni broods its embryos within reduced medusae attached to the colony until development of a free-swimming metamorphosis competent planula-larva. In the current essay we present a detailed description of G. loveni embryonic development based on in vivo observations, histology, immuno-cytochemistry, and electron microscopy. Starting from early cleavage, the embryo becomes a morula without any sign of blastocoele. Gastrulation proceeds as mixed delamination and ends with parenchymula formation. The first morphological sign of primary body axis appears only in the beginning of parenchymula-preplanula transition. In mature metamorphosis competent planula only the cells of the oral two-thirds of endoderm retain proliferative activity resulting in accumulation of great number of i-cells and nematoblasts, which can be used during metamorphosis accompanied with essential reorganization of larval tissues. G. loveni demonstrates the diversity as well as evolutionary plasticity of hydrozoans development: in brooding hydrozoans embryonic and larval development is highly embryonized in comparison with the spawning species with free-swimming embryos., (© 2018 Japanese Society of Developmental Biologists.)

Published

2018

6. [Environmental factors inducing the transformation of polyp into medusae in Aurelia aurita (Scyphozoa)].

Author

Sukhoputova AV and Kraus YA

Subjects

Animals, Gene-Environment Interaction, Life Cycle Stages physiology, Scyphozoa embryology, Scyphozoa genetics

Abstract

The transformation of polyp into medusa is one of the most interesting processes in the life cycle of cnidarians. In the polyps of the class Scyphozoa this transformation occurs in the form of strobilation, which is the transverse fission of polyps with the formation of discoidal ephyrae. At present, the endogenous regulation of strobilation in one of scyphozoans, Aurelia aurita, is being investigated by the methods of molecular biology (Fuchs et al., 2014). However, it is still unclear which key environmental factors induce this process. The main purposes of this review are to summarize the literature data on the conditions in which strobilation in A. aurita occurs in nature and in the laboratory and to try to identify the environmental factors that are most likely to play a signaling role in strobilation.

Published

2017

7. [Dissociation-reaggregation experiments in cnidarians as a model system for study of regulative capacity of metazoan development].

Author

Kirillova AO, Kraus YA, and Markov AV

Subjects

Animals, Hydra cytology, Hydra physiology, Models, Biological, Regeneration physiology

Abstract

Developmental processes of cnidarians, the basal metazoan representatives, possess extremely high regulative ability. It is known that any isolated fragment of the freshwater polyp hydra's body can regenerate an intact animal. Moreover, in many cnidarian species, suspension of single dissociated cells can form aggregates, which regenerate normal body plan of polyp or medusa. This process can be considered as an extreme case of regeneration. The development of cell reaggregates of Hydra is a conventional experimental system to study the physical basis of morphogenesis. Investigations of the cnidarians' reaggregate development help to clarify basic rules and mechanisms of the metazoan body plan formation and the role of self-organization in the metazoan early development. In this review, we summarize the data revealed by dissociation - reaggregation experiments performed on the representatives of different cnidarian taxa. We also analyze the data on the morphogenetic and molecular basis of the reaggregate development from randomly organized group of cells to cnidarian-specific body plan.

Published

2016

8. [The gastrulation in Cnidaria: A key to understanding phylogeny or the chaos of secondary modifications?].

Author

Kraus YA and Markov AV

Subjects

Animals, Blastoderm cytology, Blastoderm embryology, Blastoderm growth & development, Cell Differentiation, Cnidaria cytology, Cnidaria embryology, Germ Layers cytology, Germ Layers embryology, Germ Layers growth & development, Phylogeny, Biological Evolution, Cnidaria growth & development, Gastrulation

Abstract

The data revealed by comparative embryology of the basal (diploblastic) metazoans is traditionally considered a valuable potential source of information on the origin and early evolution of the animal kingdom and its major clades. Special attention is paid to the fundamental morphogenetic process of gastrulation during which the cells of the early embryo differentiate into the germ layers and the primary body plan is formed. Comparative analysis of gastrulation in different cnidarian taxa reveals high level of intergroup, intragroup, and individual variation. With few exceptions, there is no robust correlation between the type of gastrulation and the taxon. Current data do not support the idea that morphogenetic processes underlying cnidarian gastrulation can be divided into several distinct types. Rather, there is a continuum of equifinal ontogenetic trajectories. In cnidarians, the mode of gastrulation apparently depends less on the macroevolutionary history of the species than on various evolutionary plastic features, such as the oocyte size, the amount of yolk, the number of cells at the blastula (or morula) stage, the presence of phototrophic symbionts, or the ecology of the larva. Thus, in cnidarians, morphogenetic basis of gastrulation contains only a very weak phylogenetic signal and can have only limited application in phylogenetic reconstructions. On the other hand, comparative studies of the ontogeny of the basal metazoans shed light on the general rules of the evolution of morphogenetic processes that is crucial for understanding the early history of the animal kingdom.

Published

2016

9. [Informative indices of the biocorrosion activity for the determination of the character of the aggression ground].

Author

Chesnokova MG, Shalai VV, Kraus YA, Mironov AY, and Blinova EG

Subjects

Corrosion, Ecosystem, Gram-Negative Chemolithotrophic Bacteria isolation & purification, Sulfur-Reducing Bacteria isolation & purification, Biochemical Phenomena, Biophysical Phenomena, Soil chemistry, Soil Microbiology

Abstract

Underground corrosion is referred to the most difficult types of corrosion in connection with that it is multifactorial and differs in progressive dynamics of the participation of each parameter in the process of destruction of the metal. With the aim of the evaluation of the informativeness of the index of the biocorrosion activity caused by the influence of various factors to determine the character of the soil aggressiveness in the district of pipeline laying there was studied the complex of microbiological and physical-chemical indices). There was determined the amount of sulfur cycle bacteria (autotrophic thiobacteria and sulphate-reducing bacteria), the total concentration of sulfur and iron in the soil samples adjacent to the surface of the underground pipelines in the territory of the Khanty-Mansi Autonomous District of Yugra, and the ratio of these indices with a specific electrical resistance of the soil. There was established the predominance ofsamples with weak aggressiveness of the soil (55.17% of cases), with the criterion ofbiocorrosion soil activity of 2,44 ± 0,19. The results show significant differences in the thiobacteria content and mobile iron in the studied soil-ground samples. There was revealed a direct correlation of the average force of concentrations of identified bacteria and iron content in the soil. There was shown the necessity of the implementation of dynamic control and the development of methods of protection of metal structures to prevent biocorrosion in the design and in the process of the operation of the pipeline.

Published

2016

10. Morphomechanical programming of morphogenesis in cnidarian embryos.

Author

Kraus YA

Subjects

Animals, Biomechanical Phenomena, Cnidaria embryology, Morphogenesis physiology

Abstract

The factors governing the pattern formation process in the early morphogenesis of a marine colonial hydroid, Dynamena pumila, have been studied. Two different types of morphogenesis have been distinguished. Morphogenesis of the first type goes on via changes in cell shape and cell axis orientation, while morphogenesis of the second type is based upon the active coordinated cell movements associated with cell rearrangements. It was shown that morphogenesis of both types can be considered as cascades in which any event is a consequence of the previous one. The spatial structure of each developmental stage contains information about the direction and the initial conditions of further morphogenesis. So, an "epigenetic program" of morphogenesis gradually originates in the course of development and provides the stable reproduction of spatial structures. It is reasonable to consider the activity of epigenetic factors guiding Dynamena morphogenesis (geometry/topology of an embryo, heterogeneity of an embryo spatial structure, configuration of the field of mechanical stresses of the embryo surface) as "morphomechanical programming" of morphogenesis.

Published

2006

11. [Carpal tunnel syndrome].

Author

Fernández-Domínguez L and Kraus YA

Subjects

Adrenal Cortex Hormones therapeutic use, Adult, Anti-Inflammatory Agents, Non-Steroidal therapeutic use, Diagnosis, Differential, Electrophysiology, Female, Humans, Male, Middle Aged, Nerve Compression Syndromes diagnosis, Occupational Diseases epidemiology, Occupational Diseases etiology, Pregnancy, Pregnancy Complications, Pyridoxine therapeutic use, Carpal Tunnel Syndrome epidemiology, Carpal Tunnel Syndrome etiology

Published

1990