<p>Four minimal networks have larger Q values and basin sizes than the biological network. Aside from the edges shared by all of the candidate networks, all these topologies employed self-activation of node 3 and direct activation of node 4 by node 1, which contributes to the robustness of the network.</p
Comment on "Network Motifs: Simple Building Blocks of Complex Networks" and "Superfamilies of Evolve...
<div><p>The topology of cellular circuits (the who-interacts-with-whom) is key to understand their r...
<p>(A) Network response (PSTH) for identical stimulation of 30 different subpopulations of 250 neuro...
<div><p>Cellular networks are highly dynamic in their function, yet evolutionarily conserved in thei...
Cellular networks are highly dynamic in their function, yet evolutionarily conserved in their core n...
Many signaling systems show adaptation-the ability to reset themselves after responding to a stimulu...
<p>The distribution of Q value and basin size for minimal networks and candidate networks. Minimal n...
Complex networks are studied across many fields of science. To uncover their structural design princ...
Signaling networks that convert graded stimuli into binary, all-or-none cellular responses are criti...
Gene Regulatory Networks (GRNs) are biological networks that have been widely studied for their abil...
Statistical properties of large ensembles of networks, all designed to have the same functions of si...
We uncover the underlying potential energy landscape for a cellular network. We find that the potent...
<div><p>Biological networks, such as those describing gene regulation, signal transduction, and neur...
Recent studies uncovered important core/periphery network structures characterizing complex sets of ...
<p>The minimal networks that were identified to have the DoRA function (a–d). The red links in a net...
Comment on "Network Motifs: Simple Building Blocks of Complex Networks" and "Superfamilies of Evolve...
<div><p>The topology of cellular circuits (the who-interacts-with-whom) is key to understand their r...
<p>(A) Network response (PSTH) for identical stimulation of 30 different subpopulations of 250 neuro...
<div><p>Cellular networks are highly dynamic in their function, yet evolutionarily conserved in thei...
Cellular networks are highly dynamic in their function, yet evolutionarily conserved in their core n...
Many signaling systems show adaptation-the ability to reset themselves after responding to a stimulu...
<p>The distribution of Q value and basin size for minimal networks and candidate networks. Minimal n...
Complex networks are studied across many fields of science. To uncover their structural design princ...
Signaling networks that convert graded stimuli into binary, all-or-none cellular responses are criti...
Gene Regulatory Networks (GRNs) are biological networks that have been widely studied for their abil...
Statistical properties of large ensembles of networks, all designed to have the same functions of si...
We uncover the underlying potential energy landscape for a cellular network. We find that the potent...
<div><p>Biological networks, such as those describing gene regulation, signal transduction, and neur...
Recent studies uncovered important core/periphery network structures characterizing complex sets of ...
<p>The minimal networks that were identified to have the DoRA function (a–d). The red links in a net...
Comment on "Network Motifs: Simple Building Blocks of Complex Networks" and "Superfamilies of Evolve...
<div><p>The topology of cellular circuits (the who-interacts-with-whom) is key to understand their r...
<p>(A) Network response (PSTH) for identical stimulation of 30 different subpopulations of 250 neuro...
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