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21.
Entamoeba histolytica: localization and characterization of ca2+-dependent nucleotidases 总被引:2,自引:0,他引:2
T Takeuchi S Kobayashi M Masuda M Tanabe S Miura T Fujiwara 《International journal for parasitology》1981,11(3):209-215
An activity of Ca2+-dependent nucleotidase was detected in axenically-cultivated trophozoites of Entamoeba histolytica. The enzyme was concentrated by differential and sucrose density gradient centrifugation and catalyzed hydrolysis of nucleoside tri- and diphosphates and also thiamine pyrophosphate. Hydrolysis of nucleoside mono-phosphates was not affected by Ca2+. Among substrates tested, ATP was most active. Addition of Zn2+ or heat treatment almost abolished the enzyme activity. The enzyme exhibited almost the identical activity at acid and neutral pH. Among 6 bands isolated by polyacrylamide gel electrophoresis, 4 were stained with ATP, UTP, CTP and ADP, whereas the other 2 were stained only with ATP, UTP and CTP. The concentrated enzyme preparation, primarily composed of membrane fragments, also had activities of acid phosphatase, acid inorganic pyrophosphatase, 5'-nucleotidase and Mg2+-dependent ATPase. These observations suggest that E. histolytica has 2 Ca2+-dependent nucleotidases, i.e. one Ca2+-dependent ATPase and the other Ca2+-dependent nucleoside diphosphatase or an apyrase-like enzyme, and that these nucleotidases are at least partially associated with the plasma membrane or an organelle of lysosomal nature in this parasite. 相似文献
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Sensitive and High Resolution Localization and Tracking of Membrane Proteins in Live Cells with BRET
Tien‐Hung Lan Qiuju Liu Chunman Li Guangyu Wu Nevin A. Lambert 《Traffic (Copenhagen, Denmark)》2012,13(11):1450-1456
Peripheral and integral membrane proteins can be located in several different subcellular compartments, and it is often necessary to determine the location of such proteins or to track their movement in living cells. Image‐based colocalization of labeled membrane proteins and compartment markers is frequently used for this purpose, but this method is limited in terms of throughput and resolution. Here we show that bioluminescence resonance energy transfer (BRET) between membrane proteins of interest and compartment‐targeted BRET partners can report subcellular location and movement of membrane proteins in live cells. The sensitivity of the method is sufficient to localize a few hundred protein copies per cell. The spatial resolution can be sufficient to determine membrane topology, and the temporal resolution is sufficient to track changes that occur in less than 1 second. BRET requires little user intervention, and is thus amenable to large‐scale experimental designs with standard instruments. 相似文献
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《Molecular membrane biology》2013,30(8):469-489
AbstractThe eukaryotic endomembrane system (ES) is served by hundreds of dedicated proteins. Experimental characterization of the ES-associated molecular machinery in several model eukaryotes complemented by a recent progress in phylogenomics and comparative genomics have revealed a conserved complex core of the machinery that appears to have been established before the last eukaryotic common ancestor (LECA). At the same time, modern eukaryotes exhibit a huge variation in the ES resulting from a multitude of evolutionary processes operating along the ever-branching paths from the LECA to its descendants. The most important source of evolutionary novelty in the ES functioning has undoubtedly been gene duplication followed by divergence of the gene copies, responsible not only for the pre-LECA establishment of many multi-paralog families of proteins in the very core of the ES-associated machinery, but also for post-LECA lineage-specific elaborations via family expansions and the origin of novel components. Extreme sequence divergence has obscured actual homologous relationships between potentially many components of the machinery, even between orthologous proteins, as illustrated by the yeast Vps51 subunit of the vesicle tethering complex GARP hypothesized here to be a highly modified ortholog of a conserved eukaryotic family typified by the zebrafish Fat-free (Ffr) protein. A dynamic evolution of many ES-associated proteins, especially those centred around RAB and ARF GTPases, seems to take place at the level of their domain architectures. Finally, reductive evolution and recurrent gene loss are emerging as pervasive factors shaping the ES in all phylogenetic lineages. 相似文献
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Hemma Brandstaetter Chieko Kishi-Itakura David A Tumbarello Dietmar J Manstein Folma Buss 《Autophagy》2014,10(12):2310-2323
MYO1C, a single-headed class I myosin, associates with cholesterol-enriched lipid rafts and facilitates their recycling from intracellular compartments to the cell surface. Absence of functional MYO1C disturbs the cellular distribution of lipid rafts, causes the accumulation of cholesterol-enriched membranes in the perinuclear recycling compartment, and leads to enlargement of endolysosomal membranes. Several feeder pathways, including classical endocytosis but also the autophagy pathway, maintain the health of the cell by selective degradation of cargo through fusion with the lysosome. Here we show that loss of functional MYO1C leads to an increase in total cellular cholesterol and its disrupted subcellular distribution. We observe an accumulation of autophagic structures caused by a block in fusion with the lysosome and a defect in autophagic cargo degradation. Interestingly, the loss of MYO1C has no effect on degradation of endocytic cargo such as EGFR, illustrating that although the endolysosomal compartment is enlarged in size, it is functional, contains active hydrolases, and the correct pH. Our results highlight the importance of correct lipid composition in autophagosomes and lysosomes to enable them to fuse. Ablating MYO1C function causes abnormal cholesterol distribution, which has a major selective impact on the autophagy pathway. 相似文献
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Delong Meng Qianmei Yang Chase H Melick Brenden C Park TingSung Hsieh Adna Curukovic MiHyeon Jeong Junmei Zhang Nicholas G James Jenna L Jewell 《The EMBO journal》2021,40(12)
The mammalian target of rapamycin complex 1 (mTORC1) integrates nutrients, growth factors, stress, and energy status to regulate cell growth and metabolism. Amino acids promote mTORC1 lysosomal localization and subsequent activation. However, the subcellular location or interacting proteins of mTORC1 under amino acid‐deficient conditions is not completely understood. Here, we identify ADP‐ribosylation factor GTPase‐activating protein 1 (ArfGAP1) as a crucial regulator of mTORC1. ArfGAP1 interacts with mTORC1 in the absence of amino acids and inhibits mTORC1 lysosomal localization and activation. Mechanistically, the membrane curvature‐sensing amphipathic lipid packing sensor (ALPS) motifs that bind to vesicle membranes are crucial for ArfGAP1 to interact with and regulate mTORC1 activity. Importantly, ArfGAP1 represses cell growth through mTORC1 and is an independent prognostic factor for the overall survival of pancreatic cancer patients. Our study identifies ArfGAP1 as a critical regulator of mTORC1 that functions by preventing the lysosomal transport and activation of mTORC1, with potential for cancer therapeutics. 相似文献
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《Fungal biology》2021,125(11):914-922
Lectins are characterized of the carbohydrate-binding ability and play comprehensive roles in fungal physiology (e.g., defense response, development and host–pathogen interaction). Beauveria bassiana, a filamentous entomopathogenic fungus, has a lectin-like protein containing a Fruit Body_domain (BbLec1). BbLec1 could bind to chitobiose and chitin in fungal cell wall. BbLec1 proteins interacted with each other to form multimers, and translocated into eisosomes. Further, the interdependence between BbLec1 and the eisosome protein PliA was essential for stabilizing the eisosome architecture. To test the BbLec1 roles in B. bassiana, we constructed the gene disruption and complementation mutants. Notably, the BbLec1 loss resulted in the impaired cell wall in mycelia and conidia as well as conidial formation capacity. In addition, disruption of BbLec1 led to the reduced cytomembrane integrity and the enhanced sensitivity to osmotic stress. Finally, ΔBbLec1 mutant strain displayed the weakened virulence when compared with the wild-type strain. Taken together, BbLec1 traffics into eisosome and links the functionality of eisosome to development and virulence of B. bassiana. 相似文献