Interactions in the tritrophic system “Host plant–spider mite <Emphasis Type="Italic">Tetranychus urticae</Emphasis> Koch (Acarina,Tetranychidae)–predatory midge <Emphasis Type="Italic">Feltiella</Emphasis> sp. (Diptera,Cecidomyiidae)” on cucumber cultivars

A study of interspecific relations in the tritrophic system “plant–spider mite–predatory gall midge Feltiella sp.” on cucumber cultivars differing in their resistance to the phytophage has shown that the formation and functioning of the consortium are largely influenced by genetic properties of the plant and ecological features of the consorts. The nature of ecological association of the predator and its prey in the tritrophic system appears to depend on the cucumber genotype and on the morphological and physiological state of the plant. It has been shown that at different densities of the spider mite on cucumber plants, the predator increases the plant resistance by reducing the pest density, while genetic resistance of the plant restricts the phytophage densities thereby increasing the efficiency of the acariphage.     

Spatial structure of plant cell wall polysaccharides and its functional significance

Plant polysaccharides comprise the major portion of organic matter in the biosphere. The cell wall built on the basis of polysaccharides is the key feature of a plant organism largely determining its biology. All together, around 10 types of polysaccharide backbones, which can be decorated by different substituents giving rise to endless diversity of carbohydrate structures, are present in cell walls of higher plants. Each of the numerous cell types present in plants has cell wall with specific parameters, the features of which mostly arise from the structure of polymeric components. The structure of polysaccharides is not directly encoded by the genome and has variability in many parameters (molecular weight, length, and location of side chains, presence of modifying groups, etc.). The extent of such variability is limited by the “functional fitting” of the polymer, which is largely based on spatial organization of the polysaccharide and its ability to form supramolecular complexes of an appropriate type. Consequently, the carrier of the functional specificity is not the certain molecular structure but the certain type of the molecules having a certain degree of heterogeneity. This review summarizes the data on structural features of plant cell wall polysaccharides, considers formation of supramolecular complexes, gives examples of tissue- and stage-specific polysaccharides and functionally significant carbohydrate-carbohydrate interactions in plant cell wall, and presents approaches to analyze the spatial structure of polysaccharides and their complexes.     

The significance of the genotype and individual behavioral characteristics for the manifestation of the dominant phenotype in mouse micropopulations]

Influence of genotype and such individual characteristics as locomotor and exploratory activity, aggressiveness and emotionality, was studied in male mice. Males F1 and males of the parent line PT had high level of social dominance. F1 had high level of aggressiveness, and low emotionality, medium level of locomotor and exploratory activity. Significance of these individual behavioural characteristics for dominant behaviour is discussed.     

Human dorsal root ganglion neurons from embryonic donors extend axons into the host rat spinal cord along laminin-rich peripheral surroundings of the dorsal root transitional zone

Following dorsal root crush, the lesioned axons regenerate in the peripheral compartment of the dorsal root, but stop at the boundary between the peripheral and the central nervous system, the dorsal root transitional zone. We have previously shown that fibres from human fetal dorsal root ganglia grafted to adult rat hosts are able to grow into the spinal cord, but were not able to specify the route taken by the ingrowing fibres. In this study we have challenged the dorsal root transitional zone astrocyte boundary with human dorsal root ganglion transplants from 5–8-week-old embryos. By tracing immunolabelled human fibres in serial sections, we found that fibres consistently grow around the dorsal root transitional zone astrocytes in laminin-rich peripheral surroundings, and extend into the host rat spinal cord along blood vessels, either into deep or superficial laminae of the dorsal horn, or into the dorsal funiculus. Human fibres that did not have access to blood vessels grew on the spinal cord surface. These findings indicate, that in spite of a substantial growth capacity by axons from human embryonic dorsal root ganglion cells as well as their tolerance to non-permissive factors in the mature mammalian CNS, these axons are still sensitive to the repellent effects of astrocytes of the mature dorsal root transitional zone. Furthermore, this axonal ingrowth is consistently associated with laminin-expressing structures until the axons reach the host spinal cord.     

Epimerization of hydroxyl group in the lupan series of triterpenes

Two methods of obtaining of 3 alpha-betulinic acid and related compounds from their 3 beta-epimers were studied: the reaction of bimolecular substitution and the stereoselective reduction of 3-ketoderivatives. The substitution of acyloxy by formyloxy group in 3-O-tosyllupeol or of the betulin hydroxyl by benzoyloxy group resulted only in delta 2, 3-elimination products, with none of the expected products of bimolecular substitution being found. The catalytic hydrogenation of betulonic acid over Raney nickel resulted only in reduction of the isopropenyl double bond, whereas the use of 5% Ru/C gave a 60:40 mixture of epimers of dihydrobetulinic acid. Practically the same mixture of betulinic acid epimers was obtained when reducing betulonic acid with L-Selectride. The cytotoxic activity of 3 alpha-betulinic acid increased toward melanoma Bro cells and decreased toward melanoma MS cells.     

Influence of opioid peptides on nerve tissue in vitro

The influence of opioid peptides (gamma- and beta-endorphins, leu- and met-enkephalins, as well as certain synthetic analogs of enkephalin) was investigated on organotypic cultures of rat spinal and sympathetic ganglia. The cellular composition and size of the zone of growth were evaluated on the basis of intravital observations and an analysis of the specimen obtained using the method of impregnation, according to Holmes and the detection of catecholamines with glyoxylic acid. It was established that under the action of all the investigated substances that possess high affinity for opiate receptors, growth of the neurites from an explant was enhanced, and the number of glial and fibroblastoid cells in the growth zone was increased. The effect was observed most distinctly on a model of sympathetic ganglia. The tested compounds exhibited a significant growth-stimulating effect in the range of concentrations 10^–8–10^–14 M. The maximum size of the growth zone of the explants of the sympathetic ganglia in the case of a mean effective concentration of the peptides 10^–10 M by the third to fifth day of culturing was approximately 2–2.5 times this value in the control. The reaction was similar to the response of the nerve cells to nerve growth factor, used as a standard. Thus, the opioid peptides exhibit a pronounced growth effect on the structures of the nerve tissue under conditions of culture. It is suggested that this group of compounds, together with its currently well-known functions, may play a definite role in processes of the development and regenera-of nerve tissue.Institute of Experimental Cardiology, All-Union Cardiologic Science Center, Academy of Medical Sciences of the USSR, Moscow. Translated from Neirofiziologiya, Vol. 17, No. 4, pp. 550–557, July–August, 1985.     

Dynamics of the growth and population composition of the mixed cultures of R, S, and M dissociants of Pseudomonas aeruginosa

The population composition of polycultures of Pseudomonas aeruginosa dissociants (R + M and R + S + M) developing on media with various contents and ratios of nitrogen and phosphorus has been studied. Irrespective of its proportion (10 to 90%) in the inoculum, the R variant accounted for 65 to 84% of the whole population of linear-phase and stationary-phase binary cultures of R and M dissociants, which differ in terms of energy metabolism and nutritional requirements. After prolonged cultivation, the population in the binary culture contained only R cells (100%), which are characterized by minimum requirements with respect to the main biogenic elements. These data agree with the predictive data of model studies and can be attributed to regulation of the population composition of bacterial cultures by trophic factors. It was established that the proportion of M cells, which are distinguished by maximum nutrient requirements and enhanced stability, increased during two developmental stages of the Ps. aeruginosa polycultures (R + M and R + S + M): the lag phase and the decay stage. This result cannot be due to the influence of trophic factors and presumably results from changes in the levels of autoregulatory factors (anabiosis autoinducers) involved in stress resistance and plausibly in the adaptive interconversion of dissociants upon transfer to a new medium (during the lag phase) and under starvation conditions (at the onset of the decay phase).     

Identification of the hereditary variants of skin melanoma

The identification of hereditary variants of cutaneous melanoma and analysis of the role of hereditary factors and syndromes predisposing to cutaneous melanoma were carried out. The involvement of individual nevus phenotypes in the development of this disease was determined. Based on a survey of recent molecular biological data and our studies, the etiological and genetic heterogeneity of cutaneous melanoma is reported. In relatives of patients with cutaneous melanoma and persons with multiple pigmented nevi, the malignant tumors proved to be differentiated in the direction of the neural crist tissues and/or derivatives of cutaneous mesenchyma. Based on the evidence obtained, the approaches have been developed to formation of risk groups for the purpose of early diagnostics of cutaneous melanoma.     

Cultured astrocytes derived from corpus callosum or cortical grey matter show distinct glutamate handling properties

While the astrocytic control of extracellular glutamate concentration at synaptic contacts is well characterized, little is known regarding the clearance of glutamate along axon tracts, even though local excitotoxic damage has been reported. Therefore, we have compared glutamate handling in astrocyte cultures derived from white matter (corpus callosum) and grey matter tissues (cortical structures). These populations of astrocytes showed clearly distinct phenotypes, adopting stellate or protoplasmic morphologies respectively. In addition, white matter astrocytes showed high densities of the intermediate filament proteins glial fibrillary acidic protein, vimentin and nestin. The glutamate–aspartate transporter and glutamate transporter‐1, as well as glutamine synthetase, were found to be expressed at higher levels in white matter compared with grey matter astrocytes. Consistent with this aspartate uptake capacity was three to fourfold higher in white matter cells, and the use of specific inhibitors revealed a substantial activity of glutamate transporter‐1, contrasting with grey matter cells where this transporter appeared poorly functional. In addition, expression of type 5 metabotropic glutamate receptors was considerably higher in white matter astrocytes where the agonist (S)‐3,5‐dihydroxyphenylglycine triggered a large release of intracellular calcium. Differences in these astrocyte cultures were also observed when exposed to experimental conditions that trigger glial activation. This study highlights typical features of cultured astrocytes derived from white matter tissues, which appear constitutively adapted to handle excitotoxic insults. Moreover, the expression and activity of the astroglial components involved in the control of glutamatergic transmission are reinforced when these cells are maintained under conditions mimicking a gliotic environment.