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      A coat protein on phagosomes involved in the intracellular survival of mycobacteria.

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      Publication date:
      Journal: Cell
      Keywords: Animals, Base Sequence, Cell Line, Cloning, Molecular, DNA, Complementary, Humans, Immunoenzyme Techniques, Intracellular Fluid, Kupffer Cells, microbiology, Macrophages, Mice, Mice, Inbred BALB C, Microfilament Proteins, Molecular Sequence Data, Mycobacterium bovis, growth & development, Phagosomes, metabolism, Proteins, genetics, Rabbits, Sequence Analysis, Subcellular Fractions, Tissue Distribution, Tuberculosis, pathology, Tumor Cells, Cultured

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          Abstract

          Mycobacteria are intracellular pathogens that can survive within macrophage phagosomes, thereby evading host defense strategies by largely unknown mechanisms. We have identified a WD repeat host protein that was recruited to and actively retained on phagosomes by living, but not dead, mycobacteria. This protein, termed TACO, represents a component of the phagosome coat that is normally released prior to phagosome fusion with or maturation into lysosomes. In macrophages lacking TACO, mycobacteria were readily transported to lysosomes followed by their degradation. Expression of TACO in nonmacrophages prevented lysosomal delivery of mycobacteria and prolonged their intracellular survival. Active retention of TACO on phagosomes by living mycobacteria thus represents a mechanism preventing cargo delivery to lysosomes, allowing mycobacteria to survive within macrophages.

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          Efficient selection for high-expression transfectants with a novel eukaryotic vector

          Niwa Hitoshi, Yamamura Ken-ichi, Miyazaki Jun-ichi (1991)
          Article 0 comments Cited 272 times – based on 0 reviews     Review now
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            The ancient regulatory-protein family of WD-repeat proteins.

            E J Neer, C. J. Schmidt, R Nambudripad (1994)
            WD proteins are made up of highly conserved repeating units usually ending with Trp-Asp (WD). They are found in all eukaryotes but not in prokaryotes. They regulate cellular functions, such as cell division, cell-fate determination, gene transcription, transmembrane signalling, mRNA modification and vesicle fusion. Here we define the common features of the repeating units, and criteria for grouping such proteins into functional subfamilies.
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              Protein sorting by transport vesicles.

              Kenneth J. Rothman, Wolf F Wieland (1996)
              Eukaryotic life depends on the spatial and temporal organization of cellular membrane systems. Recent advances in understanding the machinery of vesicle transport have established general principles that underlie a broad variety of physiological processes, including cell surface growth, the biogenesis of distinct intracellular organelles, endocytosis, and the controlled release of hormones and neurotransmitters.
              Article 0 comments Cited 150 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                PubMed ID:: 10338208
                DOI:: 10.1016/S0092-8674(00)80754-0

                ScienceOpen disciplines: Chemistry
                Keywords: Animals,Base Sequence,Cell Line,Cloning, Molecular,DNA, Complementary,Humans,Immunoenzyme Techniques,Intracellular Fluid,Kupffer Cells,microbiology,Macrophages,Mice,Mice, Inbred BALB C,Microfilament Proteins,Molecular Sequence Data,Mycobacterium bovis,growth & development,Phagosomes,metabolism,Proteins,genetics,Rabbits,Sequence Analysis,Subcellular Fractions,Tissue Distribution,Tuberculosis,pathology,Tumor Cells, Cultured
                Data availability:
                ScienceOpen disciplines: Chemistry
                Keywords: Animals, Base Sequence, Cell Line, Cloning, Molecular, DNA, Complementary, Humans, Immunoenzyme Techniques, Intracellular Fluid, Kupffer Cells, microbiology, Macrophages, Mice, Mice, Inbred BALB C, Microfilament Proteins, Molecular Sequence Data, Mycobacterium bovis, growth & development, Phagosomes, metabolism, Proteins, genetics, Rabbits, Sequence Analysis, Subcellular Fractions, Tissue Distribution, Tuberculosis, pathology, Tumor Cells, Cultured

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