resonant events in membranes having ion channels with two conformational states

A study was carried out of a mathematical model of ion transport through biological membranes along the channels capable of conformational transitions between two states (R, T) with different conductivities. The model describes changes in time of te membrane potential and surface concentration of channels in one of the states (R). It has been shown that there may exist extinguishing oscillations with the frequency close to f0 on such a system may induce the resonance changes of the membrane potential. The resonance frequency f0 increases with an increase of the amplitude of external influence, this induces hesteresis of the membrane resonance parameters.     

Principal directions of the evolution of Monimotrochida

Phylogenetic relations among the main groups of Monimotrochida are considered. The principal directions of monimotrochid evolution were defined by comparative investigations of mastax morphology (SEM), basic body structures, and general biology. On the basis of these results we propose a revision of previous rotifer taxonomy. We suggest to place the Monimotrochida in the order Protoramida divided into two suborders Flosculariina and Conochilina.     

Mathematical model of electrogenic transport through biomembranes via oligomeric channels capable of conformational transitions

A mathematical model of electrogenic ion transport across biomembranes by oligomeric channels liable to conformational transformations has been derived. The model describes changes with time of the membrane potential and near--membrane ion concentrations. Different types of the channel conductance regulation such as activation or inhibition by the permeating ions and membrane potential have been considered. It appears that in the presence of such regulations 1) the channel voltage-current curves have negative resistance regions; 2) the dependence of the quasisteady state (or resting) potential on the ion concentrations in the solution is of hysteresis nature; 3) the model may have multiple steady-state and oscillating solutions.     

Synaptic reactions of sensomotor cortex neurons to stimulation of emotionally significant brain structures

The study deals with synaptic and spike responses of neurones in the rat sensorimotor cortex to stimulation of the lateral and medial hypothalamus, locus coeruleus and raphe nuclei. The activity of 57 neurones was recorded, 41 of them intracellularly and quasi-intracellularly, in response to the stimulation of sites in these structures, which were previously identified as "emotionally/ significant. No considerable differences in the effects of the stimulation of different "emotiogenic" zones were found. The stimulation parameters, differing from the "behavioural" ones by a greater strength, elicited in the majority of neurones clear post-synaptic responses, often in the form of EPSP-IPSP. Latencies of the responses varied from 3 to 80 msec. The most stable and pronounced responses were obtained to the stimulation of the lateral hypothalamus. No significant correlations of the latencies of the responses to the stimulation of different "emotiogenic" structures were found.     

The Significance of Iodine-Containing Thyroid Hormones in Postfractural Changes in the Function and Structure of the Rat Mandible under Stress

Journal of Evolutionary Biochemistry and Physiology - Mandibular fracture is the most common trauma of the maxillofacial region, which initiates a stress response in addition to the impaired...     

Trophic-based diversification in benthivorous charrs (Salvelinus) dwelling littoral zones of Northern lakes

Charrs of the genus Salvelinus form distinct trophic morphs living in sympatry in numerous postglacial lakes. Here we demonstrate that charrs can diversify into amphipod foraging specialists and sedentary macrobenthos consumers in the shallow-water ecosystems. This pattern was revealed in three out of six lakes under exploration supported by differences in stomach content, trophic-transmitted parasite, and stable isotope ratio analyzes. The body shape and growth rate comparison indicates that this kind of trophic-based diversification emerges at a juvenile stage and is maintained throughout the whole life. The restriction in gene flow found between the morphs allows to propose the possibility for the hereditable-based specialization to evolve. We found that those diversification phenomena are possible only in the lakes situated in vicinity of the ocean coastline, while no evidence of this split was found for inland mountain lakes. We suggest that the trophic-based diversification in the littoral ecosystems is accounted for the heterogeneity in the ecological conditions and food resources’ distribution linked to coastal wind action. This phenomenon was previously reported for the charr in Lake Fjellfrosvatn, Scandinavia, so it seems to be some universal yet poorly described kind of disruptive selection pressure for northern latitude fishes.

     

Phospholipids of liver cell nuclei during hibernation of Yakutian ground squirrel

In hibernating Yakutian ground squirrels S. undulatus, the content of total phospholipids in the nuclei of liver increased by 40% compared to that in animals in summer. In torpid state, the amount of sphingomyelin increased almost 8 times; phosphatidylserine, 7 times; and cardiolipin, 4 times. In active “winter” ground squirrels, the amount of sphingomyelin, phosphatidylserine, and cardiolipin decreased compared to the hibernating individuals but remained high compared to the “summer” ones. The torpor state did not affect the amount of lysophosphatidylcholine and phosphatidylinositol.     

Reverberation of excitation in "hippocampus-entorhinal cortex" slices in rats. Optical recording

Using RH155 voltage-sensitive dye and photodiode array for optical recording, responses to electrical stimuli were investigated in rat brain slices, which included hippocampus and entorhinal cortex. It was shown that single electrical stimulation of the entorhinal cortex, subiculum, or dentate gyrus evoked a potential consecutively spreading from the dentate gyrus to the CA3 and then CA1 hippocampal areas. When the GABAergic inhibition was partially blocked by picrotoxin, the first excitation wave was followed by additional several waves. Such secondary waves were observed in all the hippocampal areas with a constant trial-to-trial latency shift increasing in the direction from the dentate gyrus to CA3 and CA1 areas. Reverberation of activity between the hippocampus and entorhinal cortex is regarded as the most probable cause of appearance of the secondary excitation waves.     

Administration of aggregated beta-amyloid peptide (25-35) causes change in long-term potentiation in the hippocampus

A month after intracerebroventricular injection of aggregated beta-amyloid fragment 25-35 (7.5 nmol/ventricle), a significant change in in vivo long-term potentiation in hippocampus was demonstrated. The time course of the long-term potentiation was compared with that in sham-operated animals, a powerful and stable increase in the evoked potential amplitude was observed. This phenomenon can be related with the oxidative stress that was revealed in this model in our previous studies, and, as a consequence, with deterioration of ion homeostasis.     

Lipids of nuclear fractions from neurons and glia of rat neocortex under conditions of artificial hypobiosis

Lipid contents were studied in tissue and nuclei isolated from neurons and glia of neocortex of rats under conditions of normothermia and in the state of artificial hypobiosis caused by hypothermia-hypoxia-hypercapnia. Compared to the neocortex tissue, both nuclear fractions were fivefold impoverished in phospholipids and cholesterol and strongly enriched with mono- and diglycerides and fatty acids. The nuclear fractions from neurons and glia contained similar amounts of phospholipids, and only the cardiolipin content in the neuronal nuclei was lower than in the glial nuclei. The state of artificial hypobiosis in rats led to an increase in the cholesterol/phospholipids ratio (mol/mol) in the nuclei from the neurons and glia; amounts of cholesterol and sphingomyelin in the nuclei from the glia were increased. The increases in the cholesterol and sphingomyelin contents and in the cholesterol/phospholipids ratio suggest an involvement of lipid-dependent signaling systems of the nuclei in the functional response of mammalian neocortex cells to artificial hypobiosis.