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Cotranslational signal-independent SRP preloading during membrane targeting NATUREChartron, J. W., Hunt, K. C., Frydman, J.2016; 536 (7615): 224-?
Delayed emergence of subdiffraction-sized mutant huntingtin fibrils following inclusion body formation. Quarterly reviews of biophysicsSahl, S. J., Lau, L., Vonk, W. I., Weiss, L. E., Frydman, J., Moerner, W. E.2016; 49
Local slowdown of translation by nonoptimal codons promotes nascent-chain recognition by SRP in vivo. Nature structural & molecular biologyPechmann, S., Chartron, J. W., Frydman, J.2014; 21 (12): 1100-1105
Local slowdown of translation by nonoptimal codons promotes nascent-chain recognition by SRP in vivo NATURE STRUCTURAL & MOLECULAR BIOLOGYPechmann, S., Chartron, J. W., Frydman, J.2014; 21 (12): 1100-1105
The Structural Basis of Substrate Recognition by the Eukaryotic Chaperonin TRiC/CCT CELLJoachimiak, L. A., Walzthoeni, T., Liu, C. W., Aebersold, R., Frydman, J.2014; 159 (5): 1042-1055
The structural basis of substrate recognition by the eukaryotic chaperonin TRiC/CCT. CellJoachimiak, L. A., Walzthoeni, T., Liu, C. W., Aebersold, R., Frydman, J.2014; 159 (5): 1042-1055
Interplay between chaperones and protein disorder promotes the evolution of protein networks. PLoS computational biologyPechmann, S., Frydman, J.2014; 10 (6)
Sorting out the trash: the spatial nature of eukaryotic protein quality control CURRENT OPINION IN CELL BIOLOGYSontag, E. M., Vonk, W. I., Frydman, J.2014; 26: 139-146
Spatial sequestration of misfolded proteins by a dynamic chaperone pathway enhances cellular fitness during stress. Nature cell biologyEscusa-Toret, S., Vonk, W. I., Frydman, J.2013; 15 (10): 1231-1243
Spatial sequestration of misfolded proteins by a dynamic chaperone pathway enhances cellular fitness during stress NATURE CELL BIOLOGYEscusa-Toret, S., Vonk, W. I., Frydman, J.2013; 15 (10): 1231-U253