Nerve Fiber Membrane

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A B Rubin - One of the best experts on this subject based on the ideXlab platform.

  • influence of Nerve Fiber k depolarization and altered Membrane protein conformation on the state of myelin
    Biophysics, 2014
    Co-Authors: N N Rodionova, E Z Bibineyshvili, A R Brazhe, A I Yusipovich, G V Maksimov, A B Rubin
    Abstract:

    Using Raman spectrometry and fluorescence microscopy, we studied the rearrangement of carotenoid molecules and Membrane-bound Ca mb 2+ in myelinated Nerve Fibers after K+ depolarization, K+-channel blocking, and altering the Membrane protein conformation. We observed a decrease in Ca mb 2+ and an increase of microviscosity in myelin after depolarization. Changes in Ca mb 2+ and microviscosity were registered after blocking the K+ channels and modifying proteins with PCMB. Our results suggest an interconnection between the condition of Nerve Fiber Membrane proteins, Ca mb 2+ distribution, and myelin microviscosity.

N N Rodionova - One of the best experts on this subject based on the ideXlab platform.

  • influence of Nerve Fiber k depolarization and altered Membrane protein conformation on the state of myelin
    Biophysics, 2014
    Co-Authors: N N Rodionova, E Z Bibineyshvili, A R Brazhe, A I Yusipovich, G V Maksimov, A B Rubin
    Abstract:

    Using Raman spectrometry and fluorescence microscopy, we studied the rearrangement of carotenoid molecules and Membrane-bound Ca mb 2+ in myelinated Nerve Fibers after K+ depolarization, K+-channel blocking, and altering the Membrane protein conformation. We observed a decrease in Ca mb 2+ and an increase of microviscosity in myelin after depolarization. Changes in Ca mb 2+ and microviscosity were registered after blocking the K+ channels and modifying proteins with PCMB. Our results suggest an interconnection between the condition of Nerve Fiber Membrane proteins, Ca mb 2+ distribution, and myelin microviscosity.

E Z Bibineyshvili - One of the best experts on this subject based on the ideXlab platform.

  • influence of Nerve Fiber k depolarization and altered Membrane protein conformation on the state of myelin
    Biophysics, 2014
    Co-Authors: N N Rodionova, E Z Bibineyshvili, A R Brazhe, A I Yusipovich, G V Maksimov, A B Rubin
    Abstract:

    Using Raman spectrometry and fluorescence microscopy, we studied the rearrangement of carotenoid molecules and Membrane-bound Ca mb 2+ in myelinated Nerve Fibers after K+ depolarization, K+-channel blocking, and altering the Membrane protein conformation. We observed a decrease in Ca mb 2+ and an increase of microviscosity in myelin after depolarization. Changes in Ca mb 2+ and microviscosity were registered after blocking the K+ channels and modifying proteins with PCMB. Our results suggest an interconnection between the condition of Nerve Fiber Membrane proteins, Ca mb 2+ distribution, and myelin microviscosity.

A R Brazhe - One of the best experts on this subject based on the ideXlab platform.

  • influence of Nerve Fiber k depolarization and altered Membrane protein conformation on the state of myelin
    Biophysics, 2014
    Co-Authors: N N Rodionova, E Z Bibineyshvili, A R Brazhe, A I Yusipovich, G V Maksimov, A B Rubin
    Abstract:

    Using Raman spectrometry and fluorescence microscopy, we studied the rearrangement of carotenoid molecules and Membrane-bound Ca mb 2+ in myelinated Nerve Fibers after K+ depolarization, K+-channel blocking, and altering the Membrane protein conformation. We observed a decrease in Ca mb 2+ and an increase of microviscosity in myelin after depolarization. Changes in Ca mb 2+ and microviscosity were registered after blocking the K+ channels and modifying proteins with PCMB. Our results suggest an interconnection between the condition of Nerve Fiber Membrane proteins, Ca mb 2+ distribution, and myelin microviscosity.

A I Yusipovich - One of the best experts on this subject based on the ideXlab platform.

  • influence of Nerve Fiber k depolarization and altered Membrane protein conformation on the state of myelin
    Biophysics, 2014
    Co-Authors: N N Rodionova, E Z Bibineyshvili, A R Brazhe, A I Yusipovich, G V Maksimov, A B Rubin
    Abstract:

    Using Raman spectrometry and fluorescence microscopy, we studied the rearrangement of carotenoid molecules and Membrane-bound Ca mb 2+ in myelinated Nerve Fibers after K+ depolarization, K+-channel blocking, and altering the Membrane protein conformation. We observed a decrease in Ca mb 2+ and an increase of microviscosity in myelin after depolarization. Changes in Ca mb 2+ and microviscosity were registered after blocking the K+ channels and modifying proteins with PCMB. Our results suggest an interconnection between the condition of Nerve Fiber Membrane proteins, Ca mb 2+ distribution, and myelin microviscosity.