Biological organisms rely on spatial variation in cell activity to coordinate diverse activities, such as microbial colonization and embryonic development. Interactions among neighboring cells play a crucial role in generating spatial patterns spontaneously from stochastic initial conditions or by refining simple spatially varying inputs, such as chemical concentration gradients, into complex outputs, such as stripes in gene expression. The ability to synthetically engineer multicellular patterning will facilitate advances in designing microbial communities, creating synthetic biomaterials, and programming tissue and organ growth, among other applications. Researchers face numerous theoretical and practical challenges to implementing pat...
Synthetic biology has emerged as a multidisciplinary field that provides new tools and approaches to...
Synthetic biology aims to develop new biological systems and devices, from the modification of exist...
Summary: Communicating cells can coordinate their gene expressions to form spatial patterns, generat...
Multicellular entities are characterized by intricate spatial patterns, intimately related to the fu...
Multicellular entities are characterized by intricate spatial patterns, intimately related to the fu...
Spatial pattern formation is an important feature of almost all biological systems. Thanks to the ad...
Engineering multicellular patterning may help in the understanding of some fundamental laws of patte...
A major force shaping form and patterns in biology is based in the presence of amplification mechani...
The Turing reaction-diffusion model explains how identical cells can self-organize to form spatial p...
Designing and implementing synthetic biological pattern formation remains challenging due to underly...
How a system of genetically identical biological cells organizes into spatially heterogeneous tissue...
One of the characteristics of biological systems is their ability to produce and sustain spatial and...
Cells form spatial patterns by coordinating their gene expressions. How a group of mesoscopic number...
Biological development is a complex and elegant process that generates the vast array of form and sh...
Organ function is at least partially shaped and constrained by the organization of their constituent...
Synthetic biology has emerged as a multidisciplinary field that provides new tools and approaches to...
Synthetic biology aims to develop new biological systems and devices, from the modification of exist...
Summary: Communicating cells can coordinate their gene expressions to form spatial patterns, generat...
Multicellular entities are characterized by intricate spatial patterns, intimately related to the fu...
Multicellular entities are characterized by intricate spatial patterns, intimately related to the fu...
Spatial pattern formation is an important feature of almost all biological systems. Thanks to the ad...
Engineering multicellular patterning may help in the understanding of some fundamental laws of patte...
A major force shaping form and patterns in biology is based in the presence of amplification mechani...
The Turing reaction-diffusion model explains how identical cells can self-organize to form spatial p...
Designing and implementing synthetic biological pattern formation remains challenging due to underly...
How a system of genetically identical biological cells organizes into spatially heterogeneous tissue...
One of the characteristics of biological systems is their ability to produce and sustain spatial and...
Cells form spatial patterns by coordinating their gene expressions. How a group of mesoscopic number...
Biological development is a complex and elegant process that generates the vast array of form and sh...
Organ function is at least partially shaped and constrained by the organization of their constituent...
Synthetic biology has emerged as a multidisciplinary field that provides new tools and approaches to...
Synthetic biology aims to develop new biological systems and devices, from the modification of exist...
Summary: Communicating cells can coordinate their gene expressions to form spatial patterns, generat...