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Publications by Kayvan Zainabadi

Malaria Parasite CLAG3, a Protein Linked to Nutrient Channels, Participates in High Molecular Weight Membrane-Associated Complexes in the Infected Erythrocyte

PLoS ONE

Multidisciplinary

2016

English

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A CLAG3 Mutation in an Amphipathic Transmembrane Domain Alters Malaria Parasite Nutrient Channels and Confers Leupeptin Resistance

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Erratum for Gupta Et Al., “CLAG3 Self-Associates in Malaria Parasites and Quantitatively Determines Nutrient Uptake Channels at the Host Membrane”

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The Molecular Weight of the Major Glycoprotein From the Human Erythrocyte Membrane

Proceedings of the National Academy of Sciences of the United States of America

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Malaria Parasite Mutants With Altered Erythrocyte Permeability: A New Drug Resistance Mechanism and Important Molecular Tool

Future Microbiology

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Deformation Responses of a Physically Cross-Linked High Molecular Weight Elastin-Like Protein Polymer

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Ion Channels in the ‘Malaria-Infected’ Red Blood Cell

2003

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The Use of Reductive Methylation of Lysine Residues to Study Protein-Protein Interactions in High Molecular Weight Complexes by Solution NMR

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Activation of a PAK-MEK Signalling Pathway in Malaria Parasite-Infected Erythrocytes

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Heavy Path Mining of Protein–protein Associations in the Malaria Parasite

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Amanote Research

Discover open access scientific publications

Search, annotate, share and cite publications

Publications by Kayvan Zainabadi

Malaria Parasite CLAG3, a Protein Linked to Nutrient Channels, Participates in High Molecular Weight Membrane-Associated Complexes in the Infected Erythrocyte

Related publications

A CLAG3 Mutation in an Amphipathic Transmembrane Domain Alters Malaria Parasite Nutrient Channels and Confers Leupeptin Resistance

Erratum for Gupta Et Al., “CLAG3 Self-Associates in Malaria Parasites and Quantitatively Determines Nutrient Uptake Channels at the Host Membrane”

The Molecular Weight of the Major Glycoprotein From the Human Erythrocyte Membrane

Malaria Parasite Mutants With Altered Erythrocyte Permeability: A New Drug Resistance Mechanism and Important Molecular Tool

Deformation Responses of a Physically Cross-Linked High Molecular Weight Elastin-Like Protein Polymer

Ion Channels in the ‘Malaria-Infected’ Red Blood Cell

The Use of Reductive Methylation of Lysine Residues to Study Protein-Protein Interactions in High Molecular Weight Complexes by Solution NMR

Activation of a PAK-MEK Signalling Pathway in Malaria Parasite-Infected Erythrocytes

Heavy Path Mining of Protein–protein Associations in the Malaria Parasite