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Thermally-induced structural changes in an armadillo repeat protein suggest a novel thermosensor mechanism in a molecular chaperone
Paul J. Bujalowski
, Paul Nicholls
, José M. Barral
,
Andres F. Oberhauser
Research output
:
Contribution to journal
›
Article
›
peer-review
9
Scopus citations
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Dive into the research topics of 'Thermally-induced structural changes in an armadillo repeat protein suggest a novel thermosensor mechanism in a molecular chaperone'. Together they form a unique fingerprint.
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Keyphrases
Structural Change
100%
Molecular Chaperone
100%
UNC-45
100%
Thermal Sensor
100%
Thermally Induced
100%
Armadillo Repeat Proteins
100%
Chaperone
66%
Physiologically Relevant
33%
Myosin
33%
Temperature Effect
33%
Protein Aggregation
33%
Heat-induced
33%
Heat Shock
33%
Aggregation-prone
33%
Hydrophobic Patch
33%
Alpha Band
33%
Protein Topology
33%
Thermal Stress
33%
Sarcomere
33%
Biochemistry, Genetics and Molecular Biology
Protein Repeat
100%
Armadillo Repeat
100%
Chaperone Protein
100%
Protein Aggregation
33%
Heat Shock
33%
Protein Topology
33%
Temperature Stress
33%
Myosin
33%