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Mannose receptor-mediated uptake of ricin toxin and ricin A chain by macrophages. Multiple intracellular pathways for a chain translocation
B. M. Simmons
, P. D. Stahl
, J. H. Russell
Department of Developmental Biology
Research output
:
Contribution to journal
›
Article
›
peer-review
156
Scopus citations
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Dive into the research topics of 'Mannose receptor-mediated uptake of ricin toxin and ricin A chain by macrophages. Multiple intracellular pathways for a chain translocation'. Together they form a unique fingerprint.
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Keyphrases
Macrophages
100%
Intracellular Signaling
100%
Mannose Receptor
100%
Receptor-mediated Uptake
100%
Ricin A Chain
100%
Ricin
100%
Ricin Toxin A Chain
100%
Galactose
50%
Intoxication
25%
Carbohydrate Chain
25%
Cell Surface
12%
Golgi Compartment
12%
Macrophage Mannose Receptor
12%
Binding Affinity
12%
Mechanism of Action
12%
Surface Glycoprotein
12%
Two-route Scenario
12%
Carbohydrates
12%
High Mannose
12%
Mannosidase
12%
Ammonium Chloride
12%
Large Loss
12%
Specific Uptake
12%
Beta Chain
12%
Periodate Oxidation
12%
Galactose Receptor
12%
Castanospermine
12%
Acidic Vesicles
12%
Ricin Toxin
12%
Swainsonine
12%
Ricin B-chain
12%
Biochemistry, Genetics and Molecular Biology
Macrophage
100%
Mannose Receptor
100%
Ricin
100%
Galactose
41%
Binding Affinity
8%
Glycoprotein
8%
Mannosidase
8%
Periodate
8%
Castanospermine
8%
Mannose
8%
Swainsonine
8%