1. Biochemistry and Chemical Biology
  2. Structural Biology and Molecular Biophysics

A conserved histidine modulates HSPB5 structure to trigger chaperone activity in response to stress-related acidosis

  1. Ponni Rajagopal
  2. Eric Tse
  3. Andrew J Borst
  4. Scott P Delbecq
  5. Lei Shi
  6. Daniel P Southworth
  7. Rachel E Klevit  Is a corresponding author
  1. University of Washington, United Kingdom
  2. University of Michigan, United States
  3. University of Washington, United States
https://doi.org/10.7554/eLife.07304
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  1. Ponni Rajagopal
  2. Eric Tse
  3. Andrew J Borst
  4. Scott P Delbecq
  5. Lei Shi
  6. Daniel P Southworth
  7. Rachel E Klevit
(2015)
A conserved histidine modulates HSPB5 structure to trigger chaperone activity in response to stress-related acidosis
eLife 4:e07304.
https://doi.org/10.7554/eLife.07304
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  1. Ponni Rajagopal
  2. Eric Tse
  3. Andrew J Borst
  4. Scott P Delbecq
  5. Lei Shi
  6. Daniel P Southworth
  7. Rachel E Klevit
(2015)
A conserved histidine modulates HSPB5 structure to trigger chaperone activity in response to stress-related acidosis
eLife 4:e07304.
https://doi.org/10.7554/eLife.07304