Search Results - (Author, Cooperation:I. Kruglikov)

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  1. 1
    Staff View
    Publication Date:
    2014-05-30
    Publisher:
    Nature Publishing Group (NPG)
    Print ISSN:
    0028-0836
    Electronic ISSN:
    1476-4687
    Topics:
    Biology
    Chemistry and Pharmacology
    Medicine
    Natural Sciences in General
    Physics
    Keywords:
    Animals ; Antipsychotic Agents/pharmacology ; Behavior, Animal/drug effects/physiology ; Dopamine/*metabolism ; Electrical Synapses/genetics/ultrastructure ; Female ; Genotype ; Humans ; Male ; Membrane Proteins/*genetics/*metabolism ; Mice ; Nerve Tissue Proteins/*genetics/*metabolism ; Polymorphism, Single Nucleotide ; *Signal Transduction ; Synaptic Transmission/*genetics ; gamma-Aminobutyric Acid/*metabolism
    Published by:
    Latest Papers from Table of Contents or Articles in Press
  2. 2
    Kruglikov, I. L. ; Polig, E. ; Jee, W. S. S.
    Springer
    Published 1993
    Staff View
    ISSN:
    1432-2099
    Source:
    Springer Online Journal Archives 1860-2000
    Topics:
    Biology
    Physics
    Notes:
    Abstract The statistics of hits to the nuclei of bone cells irradiated from alpha sources labeling bone tissue is described. It is shown that the law of remodeling of a bone structural unit (BSU), which describes the distribution of quiescence periods of this unit, affects the statistics of hits. It the irradiation of bone cells occurs during the whole cell cycle, the mean number of hits is independent of the law of remodeling. In this case the variance of hits has the minimum value for constant quiescence periods of BSUs (deterministic remodeling) and the maximum value for exponentially distributed quiescence periods (random remodeling). For the first generation of bone cells, i.e. for the cells which existed at the moment of the uptake of the nuclide, the mean number of hits depends on the law of remodeling. For random remodeling the mean number is equal to the mean value for the complete remodeling cycle. For deterministic remodeling the mean is only half this value. For the first generation of bone cells, changing the law of remodeling from random to deterministic increases the probability of no hits to the nuclei of bone cells. For the same mean value of hits, the difference does not exceed 13.3 % of the total number of cells. For the subsequent generations of bone cells, such a change of the law of remodeling decreases the probability of no hits by 20.4%.
    Type of Medium:
    Electronic Resource
    URL:
    Articles: DFG German National Licenses
  3. 3
    Staff View
    ISSN:
    1573-8205
    Source:
    Springer Online Journal Archives 1860-2000
    Topics:
    Energy, Environment Protection, Nuclear Power Engineering
    Physics
    Type of Medium:
    Electronic Resource
    URL:
    Articles: DFG German National Licenses
  4. 4
    Kruglikov, I. L.
    Springer
    Published 1989
    Staff View
    ISSN:
    1573-8205
    Source:
    Springer Online Journal Archives 1860-2000
    Topics:
    Energy, Environment Protection, Nuclear Power Engineering
    Physics
    Type of Medium:
    Electronic Resource
    URL:
    Articles: DFG German National Licenses
  5. 5
    Lalo, U. V. ; Kruglikov, I. A. ; Voitenko, N. V.
    Springer
    Published 1997
    Staff View
    ISSN:
    1573-9007
    Source:
    Springer Online Journal Archives 1860-2000
    Topics:
    Medicine
    Type of Medium:
    Electronic Resource
    URL:
    Articles: DFG German National Licenses
  6. 6
    Kosevich, A. M. ; Kruglikov, I. L.
    Springer
    Published 1985
    Staff View
    ISSN:
    1572-9613
    Keywords:
    Cell population ; spatial distribution ; bifurcation
    Source:
    Springer Online Journal Archives 1860-2000
    Topics:
    Physics
    Notes:
    Abstract By analogy with a problem on the kinetics of the last stages of solid supersaturated solution decay, considered in Ref. 1, the problem on the kinetics of cell population development in the nutrient solution is formulated. The state of the system is described by the cell size distribution function and the concentration of nutrient in the solution. The stability of spatially homogeneous cell distribution is analyzed. Bifurcation, connected with the origin of nonhomogeneous spatial distribution of cells and nutrient, is discovered. Dissipative structures arising near the point of first bifurcation are found.
    Type of Medium:
    Electronic Resource
    URL:
    Articles: DFG German National Licenses