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View article: Clearance of protein aggregates during cell division
Clearance of protein aggregates during cell division Open
Protein aggregates are spatially organized and regulated in cells to prevent the deleterious effects of proteostatic stress. Misfolding of proteins in the endoplasmic reticulum (ER) results in aggregate formation, but how the aggregates ar…
View article: Author response: Clearance of protein aggregates during cell division
Author response: Clearance of protein aggregates during cell division Open
View article: Author response: Clearance of protein aggregates during cell division
Author response: Clearance of protein aggregates during cell division Open
View article: Clearance of protein aggregates during cell division
Clearance of protein aggregates during cell division Open
Protein aggregates are spatially organized and regulated in cells to prevent deleterious effects of proteostatic stress. Misfolding of proteins in the endoplasmic reticulum (ER) results in aggregate formation, but how the aggregates are pr…
View article: Author response: Clearance of protein aggregates during cell division
Author response: Clearance of protein aggregates during cell division Open
View article: Clearance of protein aggregates during cell division
Clearance of protein aggregates during cell division Open
Protein aggregates are spatially organized and regulated in cells to prevent deleterious effects of proteostatic stress. Misfolding of proteins in the endoplasmic reticulum (ER) result in aggregate formation, but how the aggregates are pro…
View article: Clearance of protein aggregates during cell division
Clearance of protein aggregates during cell division Open
Protein aggregates are spatially organized and regulated in cells to prevent the deleterious effects of proteostatic stress. Misfolding of proteins in the endoplasmic reticulum (ER) results in aggregate formation, but how the aggregates ar…
View article: Reviewer #2 (Public Review): Clearance of protein aggregates during cell division
Reviewer #2 (Public Review): Clearance of protein aggregates during cell division Open
Protein aggregates are spatially organized and regulated in cells to prevent deleterious effects of proteostatic stress. Misfolding of proteins in the ER result in aggregate formation, but how the aggregates are processed especially during…
View article: Clearance of protein aggregates during cell division
Clearance of protein aggregates during cell division Open
Protein aggregates are spatially organized and regulated in cells to prevent deleterious effects of proteostatic stress. Misfolding of proteins in the ER result in aggregate formation, but how the aggregates are processed especially during…
View article: Reviewer #3 (Public Review): Clearance of protein aggregates during cell division
Reviewer #3 (Public Review): Clearance of protein aggregates during cell division Open
Protein aggregates are spatially organized and regulated in cells to prevent deleterious effects of proteostatic stress. Misfolding of proteins in the ER result in aggregate formation, but how the aggregates are processed especially during…
View article: Reviewer #1 (Public Review): Clearance of protein aggregates during cell division
Reviewer #1 (Public Review): Clearance of protein aggregates during cell division Open
Protein aggregates are spatially organized and regulated in cells to prevent deleterious effects of proteostatic stress. Misfolding of proteins in the ER result in aggregate formation, but how the aggregates are processed especially during…
View article: Clearance of protein aggregates during cell division
Clearance of protein aggregates during cell division Open
Protein aggregates are spatially organized and regulated in cells to prevent deleterious effects of proteostatic stress. Misfolding of proteins in the endoplasmic reticulum (ER) result in aggregate formation, but how the aggregates are pro…
View article: Mechanosensitive accumulation of non-muscle myosin IIB during mitosis requires its translocation activity
Mechanosensitive accumulation of non-muscle myosin IIB during mitosis requires its translocation activity Open
View article: Mechanoaccumulation of non-muscle myosin IIB during mitosis requires its translocation activity
Mechanoaccumulation of non-muscle myosin IIB during mitosis requires its translocation activity Open
Non-muscle myosin II (NMII) is a force-generating mechanosensitive enzyme that responds to mechanical forces exerted on cells. Mechanoresponse of NMIIs confers mechanical adaptability to cells growing and dividing in a physically complex m…