(PDF) Incorporation of a Charged Amino Acid Into the

Incorporation of a Charged Amino Acid Into the Membrane-Spanning Domain Blocks Cell Surface Transport but Not Membrane Anchoring of a Viral Glycoprotein.

Molecular and Cellular Biology - United States

doi 10.1128/mcb.5.6.1442

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Date

June 1, 1985

Authors

G A Adams

J K Rose

Publisher

American Society for Microbiology

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Incorporation of a Charged Amino Acid Into the Membrane-Spanning Domain Blocks Cell Surface Transport but Not Membrane Anchoring of a Viral Glycoprotein.

Molecular and Cellular Biology - United States

doi 10.1128/mcb.5.6.1442

Full Text

Abstract

Categories

Date

Authors

Publisher

Related search

Erratum: Phosphatidylinositol Is the Membrane-Anchoring Domain of the Thy-1 Glycoprotein

Role of the Specific Amino Acid Sequence of the Membrane-Spanning Domain of Human Immunodeficiency Virus Type 1 in Membrane Fusion

An Evolutionarily Conserved Positively Charged Amino Acid in the Putative Membrane-Spanning Domain of the Foamy Virus Envelope Protein Controls Fusion Activity

Cytoplasmic Domains of Cellular and Viral Integral Membrane Proteins Substitute for the Cytoplasmic Domain of the Vesicular Stomatitis Virus Glycoprotein in Transport to the Plasma Membrane

Regulation of Function by Dimerization Through the Amino-Terminal Membrane-Spanning Domain of Human ABCC1/MRP1

Deficiency of a Surface Membrane Glycoprotein (Mo1) in Man.

A Conserved Membrane-Spanning Amino Acid Motif Drives Homomeric and Supports Heteromeric Assembly of Presynaptic SNARE Proteins

The Incorporation of Amino Acids Into Ribonucleic Acid

Mitochondrial Targeting and Membrane Anchoring of a Viral Replicase in Plant and Yeast Cells