Andrew E. Pelling

Local nanomechanical motion of the cell wall of Saccharomyces cerevisiae.

DNA base pair resolution by single molecule force spectroscopy.

Analysis of type IV pilus and its associated motility in Myxococcus xanthus using an antibody reactive with native pilin and pili.

Nanoscale visualization and characterization of Myxococcus xanthus cells with atomic force microscopy.

Self-organized and highly ordered domain structures within swarms of Myxococcus xanthus.

Time dependence of the frequency and amplitude of the local nanomechanical motion of yeast.

Distinct contributions of microtubule subtypes to cell membrane shape and stability.

Mapping correlated membrane pulsations and fluctuations in human cells.

An historical perspective on cell mechanics.

Moesin controls cortical rigidity, cell rounding, and spindle morphogenesis during mitosis.

Mitochondrial displacements in response to nanomechanical forces.

Dynamic mechanical oscillations during metamorphosis of the monarch butterfly.

Characterization of the interface between normal and transformed epithelial cells.

Mechanical dynamics of single cells during early apoptosis.

Cell nanomechanics and focal adhesions are regulated by retinol and conjugated linoleic acid in a dose-dependent manner.

Cell sheet integrity and nanomechanical breakdown during programmed cell death.

Atomic force microscopy study of the structure-function relationships of the biofilm-forming bacterium Streptococcus mutans.

Force transduction and strain dynamics in actin stress fibres in response to nanonewton forces.

The physical interaction of myoblasts with the microenvironment during remodeling of the cytoarchitecture.

Mechanical cues in cellular signalling and communication.

Chronic over-expression of heat shock protein 27 attenuates atherogenesis and enhances plaque remodeling: a combined histological and mechanical assessment of aortic lesions.

Force nanoscopy of cell mechanics and cell adhesion.

Quantification of intracellular mitochondrial displacements in response to nanomechanical forces.

Femtosecond laser induced surface swelling in poly-methyl methacrylate.

Mechanically induced deformation and strain dynamics in actin stress fibers.

Three dimensional spatial separation of cells in response to microtopography.

Resiliency of the plasma membrane and actin cortex to large-scale deformation.

Actin and microtubules play distinct roles in governing the anisotropic deformation of cell nuclei in response to substrate strain.

A microscale anisotropic biaxial cell stretching device for applications in mechanobiology.

Cross talk between matrix elasticity and mechanical force regulates myoblast traction dynamics.

The role of the actin cortex in maintaining cell shape.

Microtubules mediate changes in membrane cortical elasticity during contractile activation.

Apple Derived Cellulose Scaffolds for 3D Mammalian Cell Culture.

Mechanical cues direct focal adhesion dynamics.

Investigating cell mechanics with atomic force microscopy.

The effect of Young's modulus on the neuronal differentiation of mouse embryonic stem cells.

Extracellular Forces Cause the Nucleus to Deform in a Highly Controlled Anisotropic Manner.

Biocompatibility of Subcutaneously Implanted Plant-Derived Cellulose Biomaterials.

Physical confinement signals regulate the organization of stem cells in three dimensions.

Rapid dynamics of cell-shape recovery in response to local deformations.

Measuring mechanodynamics in an unsupported epithelial monolayer grown at an air-water interface.

The rotation of mouse myoblast nuclei is dependent on substrate elasticity.

Cellular orientation is guided by strain gradients.

Mechanical mismatch between Ras transformed and untransformed epithelial cells.

A vacuum-actuated microtissue stretcher for long-term exposure to oscillatory strain within a 3D matrix.

Time dependence of cellular responses to dynamic and complex strain fields.

Cellulose Biomaterials for Tissue Engineering.

Researcher engagement in policy deemed societally beneficial yet unrewarded.

Structural and mechanical remodeling of the cytoskeleton maintains tensional homeostasis in 3D microtissues under acute dynamic stretch.

Mechanical stretch sustains myofibroblast phenotype and function in microtissues through latent TGF-β1 activation.

Time dependent stress relaxation and recovery in mechanically strained 3D microtissues.

Customizing the Shape and Microenvironment Biochemistry of Biocompatible Macroscopic Plant-Derived Cellulose Scaffolds.

Homemade bread: Repurposing an ancient technology for in vitro tissue engineering.

Mechanosensitive osteogenesis on native cellulose scaffolds for bone tissue engineering.

Seasonal changes in membrane structure and excitability in retinal neurons of goldfish (Carassius auratus) under constant environmental conditions.

Plant Cellulose as a Substrate for 3D Neural Stem Cell Culture.