Litcius/Paper detail

Signaling in the crowded cell

Ruth Nussinov, Chung‐Jung Tsai, Hyunbum Jang

2021Current Opinion in Structural Biology27 citationsDOIOpen Access PDF

Abstract

High-resolution technologies have clarified some of the principles underlying cellular actions. However, understanding how cells receive, communicate, and respond to signals is still challenging. Questions include how efficient regulation of assemblies, which execute cell actions at the nanoscales, transmits productively at micrometer scales, especially considering the crowded environment, and how the cell organization makes it happen. Here, we describe how cells can navigate long-range diffusion-controlled signaling via association/dissociation of spatially proximal entities. Dynamic clusters can span the cell, engaging in most signaling steps. Effective local concentration, allostery, scaffolding, affinities, and the chemical and mechanical properties of the macromolecules and the environment play key roles. Signaling strength and duration matter, for example, deciding if a mutation promotes cancer or developmental syndromes.

Topics & Concepts

Cell signalingSignaling proteinsSignallingNeuroscienceAllosteric regulationSignal transductionBiologyNanotechnologyCell biologyGeneticsReceptorMaterials scienceCellular Mechanics and InteractionsRNA Research and SplicingMicrotubule and mitosis dynamics
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