Design principles of biological networks have been studied extensively in the context of protein-protein interaction networks, metabolic networks, and regulatory (transcriptional) networks. Here we consider regulation networks that occur on larger scales, namely the cell-to-cell signaling networks that connect groups of cells in multicellular organisms. These are the feedback loops that orchestrate the complex dynamics of cell fate decisions and are necessary for the maintenance of homeostasis in stem cell lineages. We focus on "minimal" networks that are those that have the smallest possible numbers of controls. For such minimal networks, the number of controls must be equal to the number of compartments, and the reducibility/irreducibilit...
Multistep cell fate transitions with stepwise changes of transcriptional profiles are common to many...
Abstract Background With the rapid development of high-throughput experiments, detecting functional ...
Cells reside in highly dynamic environments to which they must adapt. Throughout its lifetime, an in...
Organ tissues are organized into cell lineages with a hierarchical structure. At the top of each lin...
Identifying the exact regulatory circuits that can stably maintain tissue homeostasis is critical fo...
Mathematical models of stem cell differentiation are commonly based upon the concept of subsequent c...
The question of stem cell control is at the center of our understanding of tissue functioning, both ...
Life as we know it is based on cells that use proteins and RNA to carry out metabolism, self-replica...
The characterization of the generic properties underlying the complex interplay ruling cell differe...
<p>(a) Networks with two control loops. (b) Networks with three control loops. The circles marked wi...
Summary: Network structures describing regulation between biomolecules have been determined in many ...
Attribution of biological robustness to the specific structural properties of a regulatory network i...
Despite spectacular progress in biophysics, molecular biology and biochemistry our ability to predic...
Attribution of biological robustness to the specific structural properties of a regulatory network i...
International audienceIt is acknowledged that the presence of positive or negative circuits in regul...
Multistep cell fate transitions with stepwise changes of transcriptional profiles are common to many...
Abstract Background With the rapid development of high-throughput experiments, detecting functional ...
Cells reside in highly dynamic environments to which they must adapt. Throughout its lifetime, an in...
Organ tissues are organized into cell lineages with a hierarchical structure. At the top of each lin...
Identifying the exact regulatory circuits that can stably maintain tissue homeostasis is critical fo...
Mathematical models of stem cell differentiation are commonly based upon the concept of subsequent c...
The question of stem cell control is at the center of our understanding of tissue functioning, both ...
Life as we know it is based on cells that use proteins and RNA to carry out metabolism, self-replica...
The characterization of the generic properties underlying the complex interplay ruling cell differe...
<p>(a) Networks with two control loops. (b) Networks with three control loops. The circles marked wi...
Summary: Network structures describing regulation between biomolecules have been determined in many ...
Attribution of biological robustness to the specific structural properties of a regulatory network i...
Despite spectacular progress in biophysics, molecular biology and biochemistry our ability to predic...
Attribution of biological robustness to the specific structural properties of a regulatory network i...
International audienceIt is acknowledged that the presence of positive or negative circuits in regul...
Multistep cell fate transitions with stepwise changes of transcriptional profiles are common to many...
Abstract Background With the rapid development of high-throughput experiments, detecting functional ...
Cells reside in highly dynamic environments to which they must adapt. Throughout its lifetime, an in...
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