Alexandre L. Torzynski
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View article: Polymerization From Lipid Membranes
Polymerization From Lipid Membranes Open
In living cells, lipid bilayer membranes can be asymmetrically functionalized, with brush-like layers of macromolecules. These coatings, like the glycocalyx, often originate from the membrane and feature high surface concentrations. Yet in…
View article: Embryo-scale epithelial buckling forms a propagating furrow that initiates gastrulation
Embryo-scale epithelial buckling forms a propagating furrow that initiates gastrulation Open
View article: Data for Embryo-scale epithelial buckling forms a propagating furrow that initiates gastrulation
Data for Embryo-scale epithelial buckling forms a propagating furrow that initiates gastrulation Open
This is the data and code corresponding to Embryo-scale epithelial buckling forms a propagating furrow that initiates gastrulation, Nature Comms. 13:3348. Code The file Surface_Evolver_script.txt …
View article: Data for Embryo-scale epithelial buckling forms a propagating furrow that initiates gastrulation
Data for Embryo-scale epithelial buckling forms a propagating furrow that initiates gastrulation Open
This is the data and code corresponding to Embryo-scale epithelial buckling forms a propagating furrow that initiates gastrulation, Nature Comms. 13:3348. Code The file Surface_Evolver_script.txt …
View article: Data for Embryo-scale epithelial buckling forms a propagating furrow that initiates gastrulation
Data for Embryo-scale epithelial buckling forms a propagating furrow that initiates gastrulation Open
This is the data and code corresponding to Embryo-scale epithelial buckling forms a propagating furrow that initiates gastrulation, Nature Comms. 13:3348. Code The file Surface_Evolver_script.txt …
View article: Embryo-scale epithelial buckling forms a propagating furrow that initiates gastrulation
Embryo-scale epithelial buckling forms a propagating furrow that initiates gastrulation Open
Cell apical constriction driven by actomyosin contraction forces is a conserved mechanism during tissue folding in embryo development. While much effort has been made to better understand the molecular mechanisms responsible for apical con…
View article: Shape-Controlled Nanoparticles from a Low-Energy Nanoemulsion
Shape-Controlled Nanoparticles from a Low-Energy Nanoemulsion Open
Nanoemulsion technology enables the production of uniform nanoparticles for a wide range of applications. However, existing nanoemulsion strategies are limited to the production of spherical nanoparticles. Here, we describe a low-energy na…
View article: Surface tensiometry of phase separated protein and polymer droplets by the sessile drop method
Surface tensiometry of phase separated protein and polymer droplets by the sessile drop method Open
Phase separated macromolecules play essential roles in many biological and synthetic systems. We extend sessile droplet tensiometry to work with small quantities of such ultra-low surface tension droplets.
View article: Surface tensiometry of phase separated protein and polymer droplets by\n the sessile drop method
Surface tensiometry of phase separated protein and polymer droplets by\n the sessile drop method Open
Phase separated macromolecules play essential roles in many biological and\nsynthetic systems. Physical characterization of these systems can be\nchallenging because of limited sample volumes, particularly for phase-separated\nproteins. He…
View article: Transient supramolecular assembly of a functional perylene diimide controlled by a programmable pH cycle
Transient supramolecular assembly of a functional perylene diimide controlled by a programmable pH cycle Open
Transient supramolecular self-assembly with tunable lifetime is achieved by coupling an alkali-generating clock reaction to a slow acid generator.
View article: Supramolecular assembly by time-programmed acid autocatalysis
Supramolecular assembly by time-programmed acid autocatalysis Open
Coupling an acid-autocatalyzed clock reaction with the hydrolysis of a cyclic ester enables the time-domain programming of supramolecular pH-driven self-assembly.
View article: Transient Supramolecular Assembly by Programmable pH Cycles
Transient Supramolecular Assembly by Programmable pH Cycles Open
Transient self-assembly is a necessary step towards the development of life-like materials. Our approach allows to program pH-driven supramolecular assembly in the time domain with tailorable lag- and life-times, overcoming the limitations…
View article: Transient Supramolecular Assembly by Programmable pH Cycles
Transient Supramolecular Assembly by Programmable pH Cycles Open
Transient self-assembly is a necessary step towards the development of life-like materials. Our approach allows to program pH-driven supramolecular assembly in the time domain with tailorable lag- and life-times, overcoming the limitations…