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2. PICs in motoneurons do not scale with the size of the animal: a possible mechanism for faster speed of muscle contraction in smaller species.

Author

Huh S, Siripuram R, Lee RH, Turkin VV, O'Neill D, Hamm TM, Heckman CJ, and Manuel M

Subjects
Animals, Cats, Female, Male, Mice, Motor Neurons cytology, Species Specificity, Action Potentials, Body Size, Motor Neurons physiology, Muscle Contraction, Reaction Time
Abstract

The majority of studies on the electrical properties of neurons are carried out in rodents, and in particular in mice. However, the minute size of this animal compared with humans potentially limits the relevance of the resulting insights. To be able to extrapolate results obtained in a small animal such as a rodent, one needs to have proper knowledge of the rules governing how electrical properties of neurons scale with the size of the animal. Generally speaking, electrical resistances of neurons increase as cell size decreases, and thus maintenance of equal depolarization across cells of different sizes requires the underlying currents to decrease in proportion to the size decrease. Thus it would generally be expected that voltage-sensitive currents are smaller in smaller animals. In this study, we used in vivo preparations to record electrical properties of spinal motoneurons in deeply anesthetized adult mice and cats. We found that PICs do not scale with size, but instead are constant in their amplitudes across these species. This constancy, coupled with the threefold differences in electrical resistances, means that PICs contribute a threefold larger depolarization in the mouse than in the cat. As a consequence, motoneuronal firing rate sharply increases as animal size decreases. These differences in firing rates are likely essential in allowing different species to control muscles with widely different contraction speeds (smaller animals have faster muscle fibers). Thus from our results we have identified a possible new mechanism for how electrical properties are tuned to match mechanical properties within the motor output system. NEW & NOTEWORTHY The small size of the mouse warrants concern over whether the properties of their neurons are a scaled version of those in larger animals or instead have unique features. Comparison of spinal motoneurons in mice to cats showed unique features. Firing rates in the mouse were much higher, in large part due to relatively larger persistent inward currents. These differences likely reflect adaptations for controlling much faster muscle fibers in mouse than cat., (Copyright © 2017 the American Physiological Society.)

Published
2017
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3. Development of mass spectrometry selected reaction monitoring method for quantitation and pharmacokinetic study of stepharine in rabbit plasma.

Author

Kopylov AT, Kuznetsova KG, Mikhailova OM, Moshkin AG, Turkin VV, and Alimov AA

Abstract

Highly sensitive liquid chromatography mass spectrometry method on triple quadrupole (QQQ) mass spectrometer was successfully applied for pharmacokinetic study of stepharine in rabbit plasma. Specific ion transitions of stepharine protonated precursor ion were selected and recorded in the certain retention time employing dynamic selected reaction monitoring mode. The developed method facilitated quantitative measurements of stepharine in plasma samples in linear range of five orders of magnitude with high accuracy and low standard deviation coefficient and pharmacokinetics parameters were calculated. The apparent volume of stepharine distribution (estimated as ratio of clearance to elimination rate constant, data not shown) allows us to assume that stepharine was extensively distributed throughout the body.

Published
2014
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4. [Clinical efficacy of reamberin in drug-addicts with hepatic lesions].

Author

Isakov VA, Arkhipov GS, Turkin VV, and Aleksandrov IV

Subjects
Adolescent, Adult, Humans, Meglumine administration & dosage, Meglumine pharmacology, Succinates administration & dosage, Treatment Outcome, Young Adult, Chemical and Drug Induced Liver Injury drug therapy, Hepatitis B drug therapy, Hepatitis C drug therapy, Meglumine analogs & derivatives, Opioid-Related Disorders complications, Succinates pharmacology
Abstract

Infusion of 1.5% reamberin solution was shown to be a safe tool for combined therapy of severe viral hepatitis in drug addicts with signs of polyorganic lesions. Reamberin had detoxicating, antioxidative, hepato- and nephroprotective effects associated with clinical improvement, reduced hospital stay and normalized biochemical characteristics. Moreover, it increased the serum antioxidative potential and non-specific resistance of the patients.

Published
2013

5. Characteristics and organization of discharge properties in rat hindlimb motoneurons.

Author

Turkin VV, O'Neill D, Jung R, Iarkov A, and Hamm TM

Subjects
Animals, Rats, Rats, Long-Evans, Recruitment, Neurophysiological physiology, Action Potentials physiology, Hindlimb physiology, Motor Neurons physiology
Abstract

The discharge properties of hindlimb motoneurons in ketamine-xylazine anesthetized rats were measured to assess contributions of persistent intrinsic currents to these characteristics and to determine their distribution in motoneuron pools. Most motoneurons (30/37) responded to ramp current injections with adapting patterns of discharge and the frequency-current (f-I) relations of nearly all motoneurons included a steep subprimary range of discharge. Despite the prevalence of adapting f-I relations, responses included indications that persistent inward currents (PICs) were activated, including increased membrane noise and prepotentials before discharge, as well as counterclockwise hysteresis and secondary ranges in f-I relations. Examination of spike thresholds and afterhyperpolarization (AHP) trajectories during repetitive discharge revealed systematic changes in threshold and trajectory within the subprimary, primary, and secondary f-I ranges. These changes in the primary and secondary ranges were qualitatively similar to those described previously for cat motoneurons. Within the subprimary range, AHP trajectories often included shallow approaches to threshold following recruitment and slope of the AHP ramp consistently increased until the subprimary range was reached. We suggest that PICs activated near recruitment contributed to these slope changes and formation of the subprimary range. Discharge characteristics were strongly correlated with motoneuron size, using input conductance as an indicator of size. Discharge adaptation, recruitment current, and frequency increased with input conductance, whereas both subprimary and primary f-I gains decreased. These results are discussed with respect to potential mechanisms and their functional implications.

Published
2010
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6. Persistent currents and discharge patterns in rat hindlimb motoneurons.

Author

Hamm TM, Turkin VV, Bandekar NK, O'Neill D, and Jung R

Subjects
Animals, Female, Male, Membrane Potentials physiology, Rats, Rats, Long-Evans, Time Factors, Action Potentials physiology, Hindlimb physiology, Motor Neurons physiology
Abstract

We report here the first direct measurements of persistent inward currents (PICs) in rat hindlimb motoneurons, obtained from ketamine-xylazine anesthetized rats during slow voltage ramps performed by single-electrode somatic voltage clamp. Most motoneurons expressed PICs and current-voltage (I-V) relations often contained a negative-slope region (NSR; 13/19 cells). PICs activated at -52.7 ± 3.89 mV, 9 mV negative to spike threshold. NSR onset was -44.2 ± 4.1 mV. PIC amplitudes were assessed by maximum inward currents measured relative to extrapolated leak current and to NSR-onset current. PIC conductance at potentials just positive to activation was assessed by the relative change in slope conductance (g(in)/g(leak)). PIC amplitudes varied widely; some exceeded 5 and 10 nA relative to current at NSR onset or leak current, respectively. PIC amplitudes did not vary significantly with input conductance, but PIC amplitudes normalized by recruitment current decreased with increasing input conductance. Similarly, g(in)/g(leak) decreased with increasing input conductance. Currents near resting potential on descending limbs of I-V relations were often outward, relative to ascending-limb currents. This residual outward current was correlated with increases in leak conductance on the descending limb and with input conductance. Excluding responses with accommodation, residual outward currents matched differences between recruitment and derecruitment currents, suggesting a role for residual outward current in frequency adaptation. Comparison of potentials for PIC activation and NSR onset with interspike trajectories during discharge demonstrated correspondence between PIC activation and frequency-current (f-I) range boundaries. Contributions of persistent inward and outward currents to motoneuron discharge characteristics are discussed.

Published
2010
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7. [Efficacy of cytoflavin in therapy of encephalophathy in patients with neuroinfection].

Author

Isakov VA, Kovalenko AL, Turkin VV, and Makarov VI

Subjects
Antioxidants analysis, Central Nervous System Infections blood, Central Nervous System Infections physiopathology, Drug Combinations, Electroencephalography, Female, Humans, Male, Metalloproteins blood, Superoxide Dismutase blood, Central Nervous System Infections drug therapy, Flavin Mononucleotide administration & dosage, Inosine Diphosphate administration & dosage, Neuroprotective Agents administration & dosage, Niacinamide administration & dosage, Succinates administration & dosage
Abstract

The use of cytoflavin solution in complex therapy of patients with neuroinfection was studied. It showed a favourable effect on the disease clinical process, evident from less pronounced intoxication and meningeal signs by the 11th day of the treatment and improvement of the liquorological picture. The cytoflavin efficacy was also confirmed by normalization of the brain bioelectric activity evident from the electroencephalograms and by reduction of the level of antioxidants, such as metalloproteids and superoxidodismutase, that was in favour of the drug antiinflammatory and antioxidant effects. The use of cytoflavin tablets during in early convalescence period promoted earlier recovery of the intellectual and mnestic reactions. On the whole, the use of cytoflavin promoted favourable process and outcomes of neuroinfections and could be recommended for the use during the acute state and re habilitation of the patients.

Published
2010

8. [Clinical efficacy of reamberine in therapy for influenza].

Author

Isakov VA, Vodeĭko LP, Kabolova IV, and Turkin VV

Subjects
Adolescent, Adult, Antioxidants administration & dosage, Drug Therapy, Combination, Female, Humans, Influenza, Human blood, Influenza, Human complications, Influenza, Human virology, Infusions, Intravenous, Lipid Peroxides blood, Male, Malondialdehyde blood, Meglumine administration & dosage, Meglumine therapeutic use, Metalloproteins blood, Middle Aged, Pneumonia, Bacterial blood, Pneumonia, Bacterial etiology, Succinates administration & dosage, Superoxide Dismutase blood, Treatment Outcome, Young Adult, Antioxidants therapeutic use, Influenza, Human drug therapy, Meglumine analogs & derivatives, Pneumonia, Bacterial drug therapy, Succinates therapeutic use
Abstract

Aim: To evaluate the tolerance and therapeutic effectiveness of 1.5% reamberine (RB) solution infusions in complex therapy for pneumonia-complicated pneumonia and acute respiratory diseases (ARD)., Subjects and Methods: 133 patients aged 18 to 60 years with pneumonia-complicated influenza and ARD were examined. The investigators measured the dynamic serum levels of metalloproteins (MP), such as transferrin, lactoferrin, and ceruloplasmin, and the activity of superoxide dismutase. They also studied the concentration of secondary lipid peroxidation products (malondialdehyde) by the so-called thiobarbituric acid test., Results: Dropwise intravenous RB infusions exerted a modifying effect on MP content, contributed to more pronounced stabilization of a serum antioxidant potential (versus olifen, vitamin E, and basic therapy) and to enhanced nonspecific protection, which was accompanied by a significant clinical improvement., Conclusion: The study revealed the high clinical efficacy of 1.5% RB solution infusions (300 ml for 4-5 days) in the treatment of 74 patients with pneumonia-complicated influenza, stabilized serum antioxidant potential, and the body's enhanced nonspecific resistance.

Published
2010

9. Location and magnitude of conductance changes produced by Renshaw recurrent inhibition in spinal motoneurons.

Author

Maltenfort MG, McCurdy ML, Phillips CA, Turkin VV, and Hamm TM

Subjects
Animals, Cats, Cell Size physiology, Female, Male, Synapses physiology, Motor Neurons physiology, Neural Conduction physiology, Neural Inhibition physiology
Abstract

The mean location of Renshaw synapses on spinal motoneurons and their synaptic conductance were estimated from changes in impedance magnitude produced by sustained recurrent inhibition. Motoneuron impedance was determined by injecting quasi-white noise current into lumbosacral motoneurons of pentobarbital-anesthetized cats. Synaptic location and conductance were estimated by comparing observed impedance changes to simulation results obtained using standard motoneuron models and compartmental models fit to each impedance function. Estimated synaptic locations ranged from 0.10 to 0.41lambda, with a mean of 0.19 or 0.24lambda, depending on the estimation method. Average dendritic path length was 262 microm. Average synaptic conductance was 23 to 27 nS (range: 6.7 to 57.9 nS), corresponding to conductance changes of 78 to 88% of resting membrane conductance. Estimated accuracy was supported by consistency using different estimation methods, agreement with Fyffe's 1991 morphological data, and comparisons of observed and simulated recurrent IPSP amplitudes. Synaptic location, but not synaptic conductance, was correlated with rheobase, a measure of motoneuron excitability. Synaptic conductance did not depend on synaptic location. A regression analysis demonstrated that synaptic conductance and cell impedance were the principal factors determining recurrent IPSP amplitude. Simulations using the observed values and locations of Renshaw conductance demonstrate that recurrent inhibition can require as much as an additional 14 to 18% sustained excitatory synaptic conductance to depolarize motoneurons sufficiently to activate somatic or dendritic inward currents and recruit motoneurons or amplify excitatory synaptic currents.

Published
2004
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10. [Changes in productivity of plant cells as result of cultivation under the space flight conditions].

Author

Strogov SE, Kalinin IuT, Zaĭtseva GV, Konstantinova NA, Turkin VV, Fetisova EM, Kozlovtseva LV, Mikhaĭlova OM, and Ukraintsev AD

Subjects
Extraterrestrial Environment, Naphthoquinones metabolism, Panax cytology, Pigments, Biological biosynthesis, Seeds cytology, Panax physiology, Plants, Medicinal, Seeds physiology, Space Flight
Abstract

Effects of space flight on growth and biosynthetic features of plant cells were studied in two strains of ginseng (Panax ginseng) differing in growth and particularly biosynthetic activities, a strain of Lithospermum Erythrorhizon and a strain of Macrotomia Euchroma which produce biologically active naphroquin-derived pigments. --and also differ in growth and biosynthetic properties. Following exposure aboard MIR and a Space shuttle, cells of the callosal cultures were subjected to callosal or suspension passaging. Biomass yield and biologically active substances--ginseng saponins ginsenoids and shikonin were determined in the cells cultures. There was no evidence for the biomass yield to be significantly altered by space flight; however, the content of biologically active substances was materially changed with the strain.

Published
2000

11. Organization of recurrent inhibition and facilitation in motoneuron pools innervating dorsiflexors of the cat hindlimb.

Author

Trank TV, Turkin VV, and Hamm TM

Subjects
Animals, Cats, Electric Stimulation, Hindlimb physiology, Muscle Contraction physiology, Muscle, Skeletal innervation, Physical Stimulation, Spinal Nerve Roots cytology, Spinal Nerve Roots physiology, Locomotion physiology, Motor Neurons physiology, Muscle, Skeletal physiology, Neural Inhibition physiology
Abstract

The incidence of recurrent inhibition and facilitation in motor nuclei innervating the dorsiflexors of the ankle and digits was examined in spinalized, decerebrate cats. Motoneurons innervating the anterior and posterior portions of the tibialis anterior (TAa and TAp, respectively) received strong recurrent inhibition following stimulation of either of the homonymous muscle nerves. Both motoneuron species received substantial recurrent inhibition from the semitendinosus (St), but stimulation of the nerve to the extensor digitorum longus (EDL), an ankle flexor synergist, evoked smaller recurrent IPSPs. TA motoneurons received mainly facilitation from hindlimb extensors of the hip and ankle. Motoneurons of the EDL and extensor digitorum brevis (EDB), synergists which share mechanical action at the metatarsophalangeal joint and the digits, received little recurrent inhibition in response to stimulation of the nerve to either muscle. Overall, stimulation of heteronymous flexor nerves (including TAa, TAp, and St) failed to evoke responses in most of the EDB and EDL neurons tested (50-83%), and the amplitude of recurrent inhibitory responses was small. Recurrent facilitation from the extensors was more common in these motor nuclei. Most responses recorded in EDB motoneurons following either flexor or extensor nerve stimulation were recurrent facilitations. The sensitivity of this facilitation in EDB motoneurons to injection of polarizing current and its central latency indicate that it is mediated by a disinhibitory, trisynaptic pathway. Stimulation of the nerve to EDB produced recurrent IPSPs in some flexor motoneurons, but these potentials were infrequent and their amplitude was usually small. Based on a comparison of the distribution of recurrent inhibition to published reports of the activities of TAa, TAp, EDL, and EDB during different forms of locomotion, we conclude that recurrent inhibition is large for motor nuclei that exhibit stereotypical activity, while motor nuclei that are activated independently receive and produce little recurrent inhibition. Despite the absence of recurrent inhibition in some motor nuclei, recurrent circuits may still participate in their control through disinhibitory, facilitatory mechanisms.

Published
1999
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12. Correlations between neurograms and locomotor drive potentials in motoneurons during fictive locomotion: implications for the organization of locomotor commands.

Author

Hamm TM, Trank TV, and Turkin VV

Subjects
Animals, Electrophysiology, Humans, Synapses physiology, Locomotion physiology, Motor Activity physiology, Motor Neurons physiology
Abstract

The patterns of correlation found between motoneuron pools during fictive locomotion are the same whether the coherence functions used to detect the correlations are determined using pairs of rectified ENGs or motoneuron LDPs and rectified ENGs. This finding suggests that the higher frequencies in rectified ENGs (and, perhaps, EMGs) contain information about the synaptic input to motoneurons. Nevertheless, differences between the coherence functions of rectified ENG pairs and those of LDPs and rectified ENGs suggests that this information is distorted by harmonics introduced by rectification. The activities of many motoneuron pools are correlated during the flexor or extensor phase of fictive locomotion, indicating that they receive common synaptic input from branched presynaptic axons or from pools of interneurons whose activities are synchronized. Similar findings were reported by Bayev (1978), based on temporal correlations. Our results indicate that the investigated motor nuclei, which innervate muscles with actions at the hip, knee and ankle, are subject to a set of common locomotor commands. These commands are also received by inhibitory interneurons that project to the motor nuclei of antagonists, as indicated by the correlations between the hyperpolarizing phase of LDPs and activity in the rectified ENGs of antagonists. This last result is consistent with a modular organization for the spinal locomotor generator, in which one set of interneurons drives a motor pool and the inhibitory interneurons that project to the motor pool's antagonist (Jordan, 1991). However, these results also suggest that the spinal modules for locomotion may not be separable into independent unit-burst generators that produce commands for control of each joint as Grillner (1981) has suggested. Our results are more consistent with a model in which a generator distributes flexor and extensor commands to many motor pools (like the half-center model) with as yet unidentified spinal mechanisms that determine differences in the initiation and termination of activity of individual motor nuclei. Alternatively, the correlations between motor pools that we have observed could be explained by spinal mechanisms that synchronize the activity of unit-burst type generators. Despite the distribution of common locomotor commands to many functionally diverse motor nuclei, the spinal locomotor pattern generator is differentiated to the extent that some motor nuclei, like EDL and FDL, receive separate locomotor commands. This conclusion is consistent with other observations. EDL and FDL display distinctive, individualized patterns of locomotor activity that may vary in a facultative manner or in different forms of locomotion (O'Donovan et al., 1980; Trank et al., 1996). A recent study has shown that during fictive locomotion EDL and FDL motoneurons receive input from different sets of last-order interneurons than those which project to other motor pools (Degtyarenko et al., 1998). These results suggest that spinal locomotor generators are differentiated for the individualized control of some digit muscles, like FDL and EDL.

Published
1999
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14. Organization of recurrent inhibition and facilitation in motor nuclei innervating ankle muscles of the cat.

Author

Turkin VV, Monroe KS, and Hamm TM

Subjects
Action Potentials, Animals, Cats, Decerebrate State, Hindlimb physiology, Evoked Potentials physiology, Locomotion physiology, Motor Neurons physiology, Muscle, Skeletal innervation, Tarsus, Animal physiology
Abstract

The distribution of recurrent inhibition and facilitation to motor nuclei of muscles that act at the cat ankle joint was compared with the locomotor activity and mechanical action of those muscles described in published studies. Emphasis was placed on motor nuclei whose muscles have a principal action about the abduction-adduction axis and the pretibial flexors: tibialis posterior (TP), peroneus longus (PerL), peroneus brevis (PerB), the anterior part of tibialis anterior (TA) and extensor digitorum longus (EDL). Most intracellular recordings in spinalized, unanesthetized decerebrate cats showed only inhibitory or excitatory responses to antidromic stimulation of peripheral nerves, but mixed effects were also seen. Recurrent effects among motor nuclei of ankle abductors and adductors were not distributed uniformly. TP motoneurons received recurrent inhibition from most other nuclei active in stance and stimulation of the TP nerve inhibited these motor nuclei. Although PerB motoneurons are also active during stance, they received primarily facilitation from most motor nuclei. PerL received mixtures of inhibition and facilitation from all sources. Stimulation of the nerves to PerL, PerB, and peroneus tertius (PerT) produced weak recurrent inhibition and facilitation, even in homonymous motoneurons and motoneurons of Ia synergists. The ankle flexors TA and EDL displayed different patterns of recurrent inhibition and facilitation. TA motoneurons received prominent homonymous inhibition and inhibition from semitendinosus (St). EDL, whose activity profile differs from TA and which also acts at the digits, did not receive strong recurrent inhibition from either TA or St, nor did stimulation of the EDL nerve produce much inhibition. The distribution of recurrent inhibition and facilitation is correlated with the pattern of locomotor activity, but with exceptions that suggest an influence of mechanical action, particularly in the antagonistic interactions between TP and PerB. The extended pattern of recurrent inhibition, the reduction or absence of inhibition produced by motor nuclei with individualized functions or digit function and the prevalence of facilitation suggest that the recurrent Renshaw system is organized into inhibitory and disinhibitory projections that participate in the control of sets of motor nuclei engaged in rhythmic and stereotyped movements.

Published
1998
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15. [Isolation and properties of superoxide dismutase from human blood plasma].

Author

Dubinina EE, Turkin VV, Babenko GA, and Isakov VA

Subjects
Binding Sites, Chromatography, Gel, Electrophoresis, Polyacrylamide Gel, Erythrocytes enzymology, Humans, Spectrophotometry, Ultraviolet, Superoxide Dismutase isolation & purification, Superoxide Dismutase blood
Abstract

A procedure for purification of superoxide dismutase (SOD) from human blood plasma has been developed, which includes gel filtration on Ultrogels AcA-34 and AcA-44 (LKB, Sweden). The protein purified from blood plasma is a glycoprotein which is thermostable at 70-80 degrees C. The molecular mass of the protein determined immediately after gel filtration is approximately 147,000 daltons. A comparative analysis of effects on the SOD activity of plasma and erythrocytes of compounds capable of forming chelating complexes with metals within the enzyme active center has been carried out. The purified enzyme differs by its physico-chemical characteristics from cytosolic Cu,Zn-SOD and pertains to a new class of SOD, the so-called extracellular SOD, detected in some biological fluids.

Published
1992

16. [The immunoenzyme analysis of ceruloplasmin].

Author

Turkin VV and Drobot IV

Subjects
Animals, Antibodies isolation & purification, Calibration, Ceruloplasmin immunology, Child, Humans, Immunization, Immunoenzyme Techniques instrumentation, Infectious Mononucleosis blood, Rabbits, Time Factors, Yersinia pseudotuberculosis Infections blood, Ceruloplasmin analysis
Abstract

A highly specific and sensitive enzyme immunoassay (EIA) system, suitable for the qualitative analysis of ceruloplasmin, has been developed. The possibility of its use for the examination of children with mononucleosis and pseudotuberculosis has been studied. An increase in the concentration of ceruloplasmin has been more pronounced in infectious mononucleosis (0.506 +/- 0.026 g/l) and pseudotuberculosis (0.421 +/- 0.157 g/l). The results of EIA coincided with the data obtained by radial immunodiffusion.

Published
1991

18. [Responses of neurons of the parietal association cortex of the cat to acoustic stimulation before and after suppression of the auditory cortex in the cat].

Author

Turkin VV

Subjects
Animals, Association, Auditory Threshold, Brain Mapping, Cats, Evoked Potentials, Auditory, Pitch Perception physiology, Reaction Time physiology, Thalamic Nuclei physiology, Auditory Cortex physiology, Auditory Perception physiology, Parietal Lobe physiology
Abstract

The aim of this work was to study the influence of auditory cortex suppression in cat on response patterns of the parietal associative cortex neurons responding to different frequency tones. Suppression was performed by two methods: bilateral isolation and application of 6% nembutal solution on the cortex surface. Frequency-thresholds curves were plotted for all neurons studied. Prior to suppression the majority (84%) of studied neurons had one or two characteristic frequencies. After suppression the percentage of such cells fell to 63% of all responding neurons. Frequency range to which neurons could respond was altered as well. Normally almost all neurons tested could respond to a wide spectrum of presented frequencies. After suppression 69% of neurons did not respond to tones above 8-10 kHz. This may indicate that mainly information about high frequency tones is transmitted via the auditory cortex. The possibility that associative thalamic nuclei are the main source of acoustic information for parietal associative cortex neurons is discussed.

Published
1986

19. [Effect of a single magnetic field pulse on the electric activity of mollusk neurons].

Author

Danilov VI, Parshintsev VV, and Turkin VV

Subjects
Animals, In Vitro Techniques, Mollusca, Neural Conduction radiation effects, Reaction Time radiation effects, Evoked Potentials radiation effects, Magnetics, Neurons physiology
Abstract

The influence of a single impulse of magnetic field (MF) of triangular shape of neuron electrical activity (EA) of Limnaea stagnalis registered intracellulary was studied. The dependence of the neuron reaction on the MP speed changing has been found. The effective values of speeds of impulse fronts were within 0,1 to 10,0 mT/c range. The threshold amplitude of MF impulse for most neurons was between 0,1 and 1,0 mT. With increasing MF amplitude up to 10,0 mT the efficiency of the effect does not essentially increase.

Published
1984

20. [Reversibility of the effect of the change in time of the magnetic field on molluscan neurons].

Author

Danilov VI, Parshintsev VV, Trofimova OI, Turkin VV, and Shvaneva NV

Subjects
Action Potentials radiation effects, Animals, In Vitro Techniques, Lymnaea, Neurons physiology, Time Factors, Electromagnetic Phenomena, Neurons radiation effects
Abstract

Influence of a single impulse of magnetic field (MF) of trapezoidal shape with 10 Oe amplitude on neuron electrical activity (EA) of Lymnaea stagnalis was studied. It has been found that both leading and trailing edges of MF impulse separately were able to change EA of the cells. Nevertheless the impulses with a short time between the edges were found to be of small efficiency. It was suggested that the influence of the rotation electric field induced by the leading edge of this pulse was abolished by the influence of that induced by the trailing edge. The efficiency of MF impulse influence increased with increasing the interval between their edges and ran to the maximum during 10 s interval.

Published
1986

22. [Effect of a series of small amplitude magnetic field pulses on the electrical activity of mollusk neurons].

Author

Danilov VI, Parshintsev VV, and Turkin VV

Subjects
Action Potentials radiation effects, Animals, Neurons radiation effects, Electromagnetic Fields, Electromagnetic Phenomena, Lymnaea physiology, Neurons physiology
Abstract

Possibility of summing up in time the effects of small values of impulses of 1 Oe magnitude magnetic field (MF) on the electrical activity (EA) of Lymnaea stagnalis neurons was studied. The single impulse of MF did not cause changes in neurons EA. EA changes took place under the action of 5-8 impulses of MF. The neuron reaction has a threshold nature dependent on the number of applied impulses.

Published
1984

23. [The role of iron- and copper-binding proteins in resistance to infection].

Author

Iakovlev AM, Turkin VV, and Tolmazova TV

Subjects
Animals, Carrier Proteins deficiency, Communicable Diseases blood, Humans, Immunity, Innate, Iron Deficiencies, Iron-Binding Proteins, Protein Binding, Transferrin-Binding Proteins, Carrier Proteins immunology, Communicable Diseases immunology, Copper blood, Iron blood
Published
1988

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