Add to ORKGWe investigate connections between single-cell mechanical properties and subcellular structural reorganization from biochemical factors in the context of two distinctly different human diseases: gastrointestinal tumor and malaria. Although the cell lineages and the biochemical links to pathogenesis are vastly different in these two cases, we compare and contrast chemomechanical pathways whereby intracellular structural rearrangements lead to global changes in mechanical deformability of the cell. This single-cell bio-mechanical response, in turn, seems to mediate cell mobility and thereby facilitates disease progression in situations where the elastic modulus increases or decreases due to membrane or cytoskeleton reorganization. We first pr...
textThe broad objective of this research is to examine the relationship between the cellular microme...
In cancer, two unique and seemingly contradictory behaviors are evident: on the one hand, tumors are...
Metabolism and mechanics are intrinsically intertwined. External forces, sensed through the cytoskel...
We investigate connections between single-cell mechanical properties and subcellular structural reor...
A growing body of work describes how physical forces in and around cells affect their growth, prolif...
Human tissues are remarkably adaptable and robust, harboring the collective ability to detect and re...
AbstractDuring the onset of a disease a cell may experience alterations in both the composition and ...
AbstractCellular mechanics plays a crucial role in many biological processes such as cell migration,...
A cell undergoes many genetic and epigenetic changes as it transitions to malignancy. Malignant tran...
A cell undergoes many genetic and epigenetic changes as it transitions to malignancy. Malignant tran...
In mammals, mechanics at multiple stages - nucleus to cell to ECM - underlie multiple physiological ...
Mammalian cells are known to respond to both extra- and intra- cellular forces as well as the physic...
Forces and the mechanical properties surrounding eukaryotic cells have been increasingly shown to pl...
Cells physical properties and functions like adhesion, migration and division are all regulated by a...
Mechanical cues have been recognized to be critically important in the regulation of cells. A myriad...
textThe broad objective of this research is to examine the relationship between the cellular microme...
In cancer, two unique and seemingly contradictory behaviors are evident: on the one hand, tumors are...
Metabolism and mechanics are intrinsically intertwined. External forces, sensed through the cytoskel...
We investigate connections between single-cell mechanical properties and subcellular structural reor...
A growing body of work describes how physical forces in and around cells affect their growth, prolif...
Human tissues are remarkably adaptable and robust, harboring the collective ability to detect and re...
AbstractDuring the onset of a disease a cell may experience alterations in both the composition and ...
AbstractCellular mechanics plays a crucial role in many biological processes such as cell migration,...
A cell undergoes many genetic and epigenetic changes as it transitions to malignancy. Malignant tran...
A cell undergoes many genetic and epigenetic changes as it transitions to malignancy. Malignant tran...
In mammals, mechanics at multiple stages - nucleus to cell to ECM - underlie multiple physiological ...
Mammalian cells are known to respond to both extra- and intra- cellular forces as well as the physic...
Forces and the mechanical properties surrounding eukaryotic cells have been increasingly shown to pl...
Cells physical properties and functions like adhesion, migration and division are all regulated by a...
Mechanical cues have been recognized to be critically important in the regulation of cells. A myriad...
textThe broad objective of this research is to examine the relationship between the cellular microme...
In cancer, two unique and seemingly contradictory behaviors are evident: on the one hand, tumors are...
Metabolism and mechanics are intrinsically intertwined. External forces, sensed through the cytoskel...