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The transmembrane peptide DWORF activates SERCA2a via dual mechanisms
Ang Li
,
Samantha L Yuen
, Daniel Stroik
,
Evan W Kleinboehl
, Razvan L. Cornea
,
David D. Thomas
Biochemistry, Molecular Biology, and Biophysics (CBS)
Structural Biology and Biophysics (TMED)
Administration (CBS)
Research output
:
Contribution to journal
›
Article
›
peer-review
27
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Scopus citations
Overview
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Keyphrases
Dual Mechanism
100%
Upstream Open Reading Frame (uORF)
100%
SERCA2a
100%
Membrane-active Peptides
100%
Phospholamban
70%
SERCA
20%
Sarcoplasmic Reticulum
20%
Cell-based
10%
Therapeutic Approaches
10%
Heart Failure
10%
Mechanistic Understanding
10%
Structural Change
10%
Myocyte Contractility
10%
Ca2+
10%
Therapeutic Development
10%
Protein-protein Interaction
10%
Myocytes
10%
Site-directed mutagenesis
10%
Enzymatic Activity
10%
Ca2+-ATPase
10%
Calcium Level
10%
Ca2+ Transport
10%
Physiological Role
10%
Binding Site
10%
Muscle Relaxation
10%
Diastole
10%
Future Therapeutics
10%
Cytosolic Ca2+
10%
Ca2+ Uptake
10%
Transmembrane Protein
10%
Biosensor System
10%
HEK Cell Line
10%
Heart Failure Research
10%
FRET Biosensor
10%
FRET Efficiency
10%
DWORF
10%
Biochemistry, Genetics and Molecular Biology
Phospholamban
100%
Open Reading Frame
100%
Fluorescence Resonance Energy Transfer
57%
SERCA
28%
Isoform
14%
Enzyme Activity
14%
Binding Site
14%
Muscle Relaxation
14%
Site-Directed Mutagenesis
14%
Muscle Contractility
14%
Cardiac Muscle Cell
14%
Transmembrane Protein
14%
ATPase
14%