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IR Fourier Analysis Reveals Individual Cell Mechanisms

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BERKELEY, Calif., May 7, 2012 — To understand how living cells work, it is important to understand the chemistry inside the cell. One such process is protein phosphorylation, which controls cell proliferation, differentiation, metabolism, signaling as well as apoptosis. Before now, it was impossible to observe the changes as a single cell underwent phosphorylation. However, a technique has been developed to observe such chemical mechanisms up close. A research collaboration between the universities of Berkeley and San Diego used the Berkeley synchrotron IR beam line 1.4.3 to perform Fourier transform infrared analysis...Read full article

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    Published: May 2012
    Advanced Light SourceAmericasBasic ScienceBerkeley LabBerkeley Synchrotron Infrared Structural Biology ProgramBiophotonicsFourier transform infrared analysisFTIAHoi-Ying HolmanLian ChengMicroscopymicrospectroscopyPC12protein phosphorylationResearch & TechnologyUniversity of California BerkeleyUniversity of California San DiegoUS Department of Energy Office of ScienceZhao HaoLasers

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