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  • 2460880533412123044010439261522051123PublicAssets/2538The G switch allows our bodies to respond rapidly to hormones. G proteins act like relay batons to pass messages from circulating hormones into cells. A hormone (red) encounters a receptor (blue) in the membrane of a cell. Next, a G protein (green) becomes activated and makes contact with the receptor to which the hormone is attached. Finally, the G protein passes the hormone's message to the cell by switching on a cell enzyme (purple) that triggers a response. See image <a href="https://images.nigms.nih.gov/pages/DetailPage.aspx?imageid2=2536">2536</a> and <a href="https://images.nigms.nih.gov/pages/DetailPage.aspx?imageid2=2537">2537</a> for other versions of this image. Featured in <a href="https://www.nigms.nih.gov/education/Booklets/medicines-by-design/Pages/Home.aspx"><em>Medicines By Design</em></a>.Crabtree + CompanyNational Institute of General Medical SciencesIllustration

    Topic Tags:

    CellsMolecular Structures

    G switch (with labels and stages)

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    The G switch allows our bodies to respond rapidly to hormones. G proteins act like relay batons to pass messages from circulating hormones into cells. A hormone (red) encounters a receptor (blue) in the membrane of a cell. Next, a G protein (green) becomes activated and makes contact with the receptor to which the hormone is attached. Finally, the G protein passes the hormone's message to the cell by switching on a cell enzyme (purple) that triggers a response. See image 2536 and 2537 for other versions of this image. Featured in Medicines By Design.

    Source

    Crabtree + Company

    Credit Line

    National Institute of General Medical Sciences

    Record Type

    Illustration

    ID

    2538

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