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Reovirus FAST protein transmembrane domains function in a modular, primary sequence-independent manner to mediate cell-cell membrane fusion
Eileen K. Clancy,
Roy Duncan
Medicine
Department of Microbiology & Immunology
Research output
:
Contribution to journal
›
Article
›
peer-review
36
Citations (Scopus)
Overview
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Dive into the research topics of 'Reovirus FAST protein transmembrane domains function in a modular, primary sequence-independent manner to mediate cell-cell membrane fusion'. Together they form a unique fingerprint.
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Agriculture & Biology
amino acid sequences
6%
cell membranes
64%
cells
23%
lipids
4%
membrane fusion
100%
membrane proteins
7%
plasma membrane
6%
proteins
25%
recombinant fusion proteins
21%
Reoviridae
95%
signal peptide
16%
topology
25%
transmembrane proteins
92%
viral fusion proteins
14%
viruses
5%
Medicine & Life Sciences
Amino Acid Sequence
6%
Cell Fusion
88%
Cell Membrane
54%
Lipids
4%
Membrane Fusion
92%
Membrane Fusion Proteins
11%
Membrane Proteins
12%
Membranes
4%
Protein Domains
75%
Protein Sorting Signals
16%
Proteins
27%
Viral Fusion Proteins
11%
Viruses
5%