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[Antixenosomes]

R A Murav'ev, V V Rogovin, V A Fomina

    Izvestiia Akademii Nauk. Seriia Biologicheskaia
    |March 1, 1994
    PubMed
    Summary
    This summary is machine-generated.

    This study identifies a new class of organelles, antixenosomes, in animal and plant cells. These organelles segregate, bind, and inactivate harmful xenobiotics, protecting organisms.

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    Area of Science:

    • Cell Biology
    • Biochemistry
    • Toxicology

    Context:

    • Subcellular level
    • Animal and plant cells
    • Immunological homeostasis

    Purpose:

    • To present data on organelles that bind and inactivate xenobiotics.
    • To discuss the morphology, enzymatic constituents, and physiological function of these organelles.
    • To propose a unified classification for these xenobiotic-metabolizing organelles.

    Summary:

    • Data on organelles involved in binding and inactivating xenobiotics at the subcellular level in animal and plant cells is presented.
    • The morphology, enzymatic composition, and physiological roles in immunological homeostasis are discussed.
    • Previously identified organelles like chloragosomes, cadmosomes, metallogranules, keratinosomes, and lamellar/myeloid bodies are proposed to belong to a single class: antixenosomes.

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    Impact:

    • Establishes a new class of organelles, antixenosomes.
    • Provides a unified framework for understanding xenobiotic metabolism in cells.
    • Highlights the protective role of antixenosomes against harmful xenobiotics in organisms.