Cells transmit information through molecular signals that often show complex dynamical patterns. The dynamic behavior of the tumor suppressor p53 varies depending on the stimulus; in response to double-strand DNA breaks, it shows a series of repeated pulses. Using a computational model, we identified a sequence of precisely timed drug additions that alter p53 pulses to instead produce a sustained p53 response. This leads to the expression of a different set of downstream genes and also alters cell fate: Cells that experience p53 pulses recover from DNA damage, whereas cells exposed to sustained p53 signaling frequently undergo senescence. Our results show that protein dynamics can be an important part of a signal, directly influencing cellu...
Cellular stress‐induced temporal alterations—i.e., dynamics—are typically exemplified by the dynami...
Background: The p53 pathway is differentially activated in response to distinct DNA damage, leading ...
Many biological networks respond to various inputs through a common signaling molecule that triggers...
The tumor suppressor p53 has become one of most investigated genes. Once activated by stress, p53 le...
The tumor suppressor p53 has become one of most investigated genes. Once activated by stress, p53 le...
Abstract The p53 tumor suppressor regulates distinct responses to cellular stresses. Although differ...
Functional p53 signaling is essential for appropriate responses to diverse stimuli. P53 dynamics emp...
The tumor suppressor p53, one of the most intensely investigated proteins, is usually studied by exp...
The tumor suppressor p53, one of the most intensely investigated proteins, is usually studied by exp...
SummaryThe tumor suppressor p53 is activated by stress and leads to cellular outcomes such as apopto...
The tumor suppressor p53 is activated by stress and leads to cellular outcomes such as apoptosis and...
The tumor suppressor p53 protein shows various dynamic responses depending on the types and extent o...
The tumor suppressor p53 protein shows various dynamic responses depending on the types and extent o...
Abstract Background The tumor suppressor p53 plays pivotal roles in tumorigenesis suppression. Altho...
The tumor suppressor p53 mainly induces cell cycle arrest/DNA repair or apoptosis in the DNA damage ...
Cellular stress‐induced temporal alterations—i.e., dynamics—are typically exemplified by the dynami...
Background: The p53 pathway is differentially activated in response to distinct DNA damage, leading ...
Many biological networks respond to various inputs through a common signaling molecule that triggers...
The tumor suppressor p53 has become one of most investigated genes. Once activated by stress, p53 le...
The tumor suppressor p53 has become one of most investigated genes. Once activated by stress, p53 le...
Abstract The p53 tumor suppressor regulates distinct responses to cellular stresses. Although differ...
Functional p53 signaling is essential for appropriate responses to diverse stimuli. P53 dynamics emp...
The tumor suppressor p53, one of the most intensely investigated proteins, is usually studied by exp...
The tumor suppressor p53, one of the most intensely investigated proteins, is usually studied by exp...
SummaryThe tumor suppressor p53 is activated by stress and leads to cellular outcomes such as apopto...
The tumor suppressor p53 is activated by stress and leads to cellular outcomes such as apoptosis and...
The tumor suppressor p53 protein shows various dynamic responses depending on the types and extent o...
The tumor suppressor p53 protein shows various dynamic responses depending on the types and extent o...
Abstract Background The tumor suppressor p53 plays pivotal roles in tumorigenesis suppression. Altho...
The tumor suppressor p53 mainly induces cell cycle arrest/DNA repair or apoptosis in the DNA damage ...
Cellular stress‐induced temporal alterations—i.e., dynamics—are typically exemplified by the dynami...
Background: The p53 pathway is differentially activated in response to distinct DNA damage, leading ...
Many biological networks respond to various inputs through a common signaling molecule that triggers...
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