AbstractThis paper illustrates the diversity and esthetic beauty of the spatial patterns produced by a class of heuristic procedures describable by a one-parameter algorithm. While the patterns may provide insight into the structures of biopolymers and other macromolecules, the main focus of this work is the demonstration of how two-dimensional order may arise from one-dimensional processes
A recurring motif in the organization of biological tissues are networks of long, fibrillar protein ...
We define the energetics of proteinlike heteropolymers according to an ensemble of copolymer sequenc...
Synthetic biology has emerged as a multidisciplinary field that provides new tools and approaches to...
Spatial pattern formation is an important feature of almost all biological systems. Thanks to the ad...
How spatial patterning arises in biological systems is still an unresolved mystery. Here, we conside...
Knots are ubiquitous objects and decorative elements that have been studied since antiquity. During ...
Some solutions of rigid polymers like DNA or PBLG display at the same time cholesteric order and loc...
We describe a computational model for studying the complexity of self-assembled structures with acti...
This article reports on the morphogenesis of three-dimensional folding sheets in a computer simulati...
A basic pattern in the body plan architecture of many animals, plants and some molecular and cellula...
Biological organisms rely on spatial variation in cell activity to coordinate diverse activities, su...
One of the characteristics of biological systems is their ability to produce and sustain spatial and...
We discuss the relation between the emergence of new phases with broken symmetry within the framewor...
AbstractThe minimal folding pathway or trajectory for a biopolymer can be defined as the transformat...
One of the central issues in developmental biology is the formation of spatial pattern in the embryo...
A recurring motif in the organization of biological tissues are networks of long, fibrillar protein ...
We define the energetics of proteinlike heteropolymers according to an ensemble of copolymer sequenc...
Synthetic biology has emerged as a multidisciplinary field that provides new tools and approaches to...
Spatial pattern formation is an important feature of almost all biological systems. Thanks to the ad...
How spatial patterning arises in biological systems is still an unresolved mystery. Here, we conside...
Knots are ubiquitous objects and decorative elements that have been studied since antiquity. During ...
Some solutions of rigid polymers like DNA or PBLG display at the same time cholesteric order and loc...
We describe a computational model for studying the complexity of self-assembled structures with acti...
This article reports on the morphogenesis of three-dimensional folding sheets in a computer simulati...
A basic pattern in the body plan architecture of many animals, plants and some molecular and cellula...
Biological organisms rely on spatial variation in cell activity to coordinate diverse activities, su...
One of the characteristics of biological systems is their ability to produce and sustain spatial and...
We discuss the relation between the emergence of new phases with broken symmetry within the framewor...
AbstractThe minimal folding pathway or trajectory for a biopolymer can be defined as the transformat...
One of the central issues in developmental biology is the formation of spatial pattern in the embryo...
A recurring motif in the organization of biological tissues are networks of long, fibrillar protein ...
We define the energetics of proteinlike heteropolymers according to an ensemble of copolymer sequenc...
Synthetic biology has emerged as a multidisciplinary field that provides new tools and approaches to...