Foreign trade and marketing processes in the context of sustainable development

Purpose: The article aims to study foreign economic and trade relations between the countries of Central and Eastern Europe, the CIS and the Western European countries. In addition, the study improves forms of foreign economic cooperation between the countries and suggests the stages of its implementation in the integration group. Design/Methodology/Approach: Central and Eastern European countries are experiencing the increase and acceleration of the labour migration to Western European countries, which has a negative impact on their medium-and long-term development. As a theoretical and methodological basis, the article uses historical-logical, dialectical principles and contradictions, the method of the scientific abstraction. The process-system approach, which was used in the study of foreign economic relations between the partner countries, gained special importance in the argument of the need to implement stages. Findings: Authors presented the form of the foreign economic cooperation between the countries as the geostrategic economic block and the stages of its implementation. As the study shows, these stages will help to smooth out the economic inequality between the Central and Eastern regions of Europe and Western European countries. Practical implications: In practice, authors investigate the phased implementation of the geostrategic economic bloc form, which will reduce inequality between the partner countries of the European Union. Originality/Value: The economic inequality between developed and developing countries of the European Union is increasing every year, which can lead to the transformation of the integration group, so it is necessary to develop new forms and mechanisms of foreign economic relations between the partner countries.peer-reviewe

Socio-economic consequences and prospective opportunities of the international labour migration as a process of the global labour market development

Purpose: The aim is to study the causes, processes and economic consequences of remittances carried out during international labour migrations in the global labour market. Design/Methodology/Approach: The comprehensive analysis of remittances of migrants based on official data of the World Bank is carried out in this article. The systematic approach and logical research methods were used. The paper analyzes data on the remittances dynamics in the XXI century, shows the largest countries of senders and recipients of migrant workers remittances. Authors studied corridors of cash flows, the cost of transfers depending on the region of departure and the main transfer organizations. Findings: Remittances from migrant workers is the significant amount of aid, especially for low-and middle-income countries, and it is the largest source of external financing for them. The economies of the number of countries are highly dependent on these transfers. According to experts, remittances of migrants are many times higher than the volume of the official development assistance to these countries, as well as remittances of migrants surpass the volume of the foreign direct investment. And according to forecasts, the volume of remittances will only grow. Practical implications: The practical significance of the study is to substantiate and highlight the most important methodological and theoretical economic consequences of remittances of international migration flows. Originality/value: The theoretical and applied value of the study is to substantiate the prospect area with better mechanisms for the implementation, accounting and stimulation of remittances by international labour migrants.peer-reviewe

Questions associated with the social adaptation of immigrants in the British society from a linguistic point of view

The present research is aimed at studying the peculiarities of linguistic fixation of lexemes that verbalize the processes of mutual social adaptation of both muslim immigrants and members of the british linguistic cultur

Structural basis for mechanotransduction in a potassium-dependent mechanosensitive ion channel

Mechanosensitive channels of small conductance, found in many living organisms, open under elevated membrane tension and thus play crucial roles in biological response to mechanical stress. Amongst these channels, MscK is unique in that its activation also requires external potassium ions. To better understand this dual gating mechanism by force and ligand, we elucidate distinct structures of MscK along the gating cycle using cryo-electron microscopy. The heptameric channel comprises three layers: a cytoplasmic domain, a periplasmic gating ring, and a markedly curved transmembrane domain that flattens and expands upon channel opening, which is accompanied by dilation of the periplasmic ring. Furthermore, our results support a potentially unifying mechanotransduction mechanism in ion channels depicted as flattening and expansion of the transmembrane domain

Structural mechanism for gating of a eukaryotic mechanosensitive channel of small conductance

Mechanosensitive ion channels transduce physical force into electrochemical signaling that underlies an array of fundamental physiological processes, including hearing, touch, proprioception, osmoregulation, and morphogenesis. The mechanosensitive channels of small conductance (MscS) constitute a remarkably diverse superfamily of channels critical for management of osmotic pressure. Here, we present cryo-electron microscopy structures of a MscS homolog from Arabidopsis thaliana, MSL1, presumably in both the closed and open states. The heptameric MSL1 channel contains an unusual bowl-shaped transmembrane region, which is reminiscent of the evolutionarily and architecturally unrelated mechanosensitive Piezo channels. Upon channel opening, the curved transmembrane domain of MSL1 flattens and expands. Our structures, in combination with functional analyses, delineate a structural mechanism by which mechanosensitive channels open under increased membrane tension. Further, the shared structural feature between unrelated channels suggests the possibility of a unified mechanical gating mechanism stemming from membrane deformation induced by a non-planar transmembrane domain

MSL1 is a mechanosensitive ion channel that dissipates mitochondrial membrane potential and maintains redox homeostasis in mitochondria during abiotic stress

Mitochondria must maintain tight control over the electrochemical gradient across their inner membrane to allow ATP synthesis while maintaining a redox-balanced electron transport chain and avoiding excessive reactive oxygen species production. However, there is a scarcity of knowledge about the ion transporters in the inner mitochondrial membrane that contribute to control of membrane potential. We show that loss of MSL1, a member of a family of mechanosensitive ion channels related to the bacterial channel MscS, leads to increased membrane potential of Arabidopsis mitochondria under specific bioenergetic states. We demonstrate that MSL1 localises to the inner mitochondrial membrane. When expressed in Escherichia coli, MSL1 forms a stretch-activated ion channel with a slight preference for anions and provides protection against hypo-osmotic shock. In contrast, loss of MSL1 in Arabidopsis did not prevent swelling of isolated mitochondria in hypo-osmotic conditions. Instead, our data suggest that ion transport by MSL1 leads to dissipation of mitochondrial membrane potential when it becomes too high. The importance of MSL1 function was demonstrated by the observation of a higher oxidation state of the mitochondrial glutathione pool in msl1-1 mutants under moderate heat- and heavy-metal-stress. Furthermore, we show that MSL1 function is not directly implicated in mitochondrial membrane potential pulsing, but is complementary and appears to be important under similar conditions

MscS-like mechanosensitive channels in plants and microbes

The challenge of osmotic stress is something all living organisms must face as a result of environmental dynamics. Over the past three decades, innovative research and cooperation across disciplines have irrefutably established that cells utilize mechanically gated ion channels to release osmolytes and prevent cell lysis during hypoosmotic stress. Early electrophysiological analysis of the inner membrane of Escherichia coli identified the presence of three distinct mechanosensitive activities. The subsequent discoveries of the genes responsible for two of these activities, the mechanosensitive channels of large (MscL) and small (MscS) conductance, led to the identification of two diverse families of mechanosensitive channels. The latter of these two families, the MscS family, consists of members from bacteria, archaea, fungi, and plants. Genetic and electrophysiological analysis of these family members has provided insight into how organisms use mechanosensitive channels for osmotic regulation in response to changing environmental and developmental circumstances. Furthermore, determining the crystal structure of E. coli MscS and several homologues in several conformational states has contributed to our understanding of the gating mechanisms of these channels. Here we summarize our current knowledge of MscS homologues from all three domains of life and address their structure, proposed physiological functions, electrophysiological behaviors, and topological diversity

The role of changing geodynamics in the progressive contamination of Late Cretaceous to Late Miocene arc magmas in the southern Central Andes

The tectonic and geodynamic setting of the southern Central Andean convergent margin changed significantly between the Late Cretaceous and the Late Miocene, influencing magmatic activity and its geochemical composition. Here we investigate how these changes, which include changing slab-dip angle and convergence angles and rates, have influenced the contamination of the arc magmas with crustal material. Whole rock geochemical data for a suite of Late Cretaceous to Late Miocene arc rocks from the Pampean flat-slab segment (29–31 °S) of the southern Central Andes is presented alongside petrographic observations and high resolution age dating. In-situ U–Pb dating of magmatic zircon, combined with Ar–Ar dating of plagioclase, has led to an improved regional stratigraphy and provides an accurate temporal constraint for the geochemical data. A generally higher content of incompatible trace elements (e.g. Nb/Zr ratios from 0.019 to 0.083 and Nb/Yb from 1.5 to 16.4) is observed between the Late Cretaceous (~ 72 Ma), when the southern Central Andean margin is suggested to have been in extension, and the Miocene when the thickness of the continental crust increased and the angle of the subducting Nazca plate shallowed. Trace and rare earth element compositions obtained for the Late Cretaceous to Late Eocene arc magmatic rocks from the Principal Cordillera of Chile, combined with a lack of zircon inheritance, suggest limited assimilation of the overlying continental crust by arc magmas derived from the mantle wedge. A general increase in incompatible, fluid-mobile/immobile (e.g., Ba/Nb) and fluid-immobile/immobile (e.g., Nb/Zr) trace element ratios is attributed to the influence of the subducting slab on the melt source region and/or the influx of asthenospheric mantle. The Late Oligocene (~ 26 Ma) to Early Miocene (~ 17 Ma), and Late Miocene (~ 6 Ma) arc magmatic rocks present in the Frontal Cordillera show evidence for the bulk assimilation of the Permian–Triassic (P–T) basement, both on the basis of their trace and rare earth element compositions and the presence of P–T inherited zircon cores. Crustal reworking is also identified in the Argentinean Precordillera; Late Miocene (12–9 Ma) arc magmatic rocks display distinct trace element signatures (specifically low Th, U and REE concentrations) and contain inherited zircon cores with Proterozoic and P–T ages, suggesting the assimilation of both the P–T basement and a Grenville-aged basement. We conclude that changing geodynamics play an important role in determining the geochemical evolution of magmatic rocks at convergent margins and should be given due consideration when evaluating the petrogenesis of arc magmas.</p

Additive maps preserving the scrambling index are bijective

We prove that additive transformations on matrices over the binary Boolean semiring that preserve the scrambling index are automatically bijective. As a consequence we characterize such maps for matrices over an arbitrary antinegative semiring with identity and without zero-divisors

Questions associated with the social adaptation of immigrants in the British society from a linguistic point of view

The present research is aimed at studying the peculiarities of linguistic fixation of lexemes that verbalize the processes of mutual social adaptation of both muslim immigrants and members of the british linguistic cultur