Finding Attractors on a Folding Energy Landscape

Handbook of Research on Computational and Systems Biology Pub Date : 1900-01-01 DOI:10.4018/978-1-60960-491-2.ch025

W. Ndifon, J. Dushoff

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引用次数: 2

Abstract

RNA sequences fold into their native conformations by means of an adaptive search of their folding energy landscapes. The energy landscape may contain one or more suboptimal attractor conformations, making it possible for an RNA sequence to become trapped in a suboptimal attractor during the folding process. How the probability that an RNA sequence will find a given attractor before it finds another one depends on the relative positions of those attractors on the energy landscape is not well understood. Similarly, there is an inadequate understanding of the mechanisms that underlie differences in the amount of time an RNA sequence spends in a particular state. Elucidation of those mechanisms would contribute to the understanding of constraints operating on RNA folding. This chapter explores the kinetics of RNA folding using theoretical models and experimental data. Discrepancies between experimental predictions and expectations based on prevailing assumptions about the determinants of RNA folding kinetics are highlighted. An analogy between kinetic accessibility and evolutionary accessibility is also discussed. DOI: 10.4018/978-1-60960-491-2.ch025

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在折叠能量格局中寻找吸引子

RNA序列通过对其折叠能量景观的适应性搜索折叠成其天然构象。能量格局可能包含一个或多个次优吸引子构象，使得RNA序列在折叠过程中被困在次优吸引子中成为可能。一个RNA序列在找到另一个吸引子之前找到一个吸引子的概率是如何取决于这些吸引子在能量版图上的相对位置的，目前还没有得到很好的理解。同样，人们对RNA序列在特定状态下花费的时间差异背后的机制理解不足。这些机制的阐明将有助于理解RNA折叠的约束。本章用理论模型和实验数据探讨了RNA折叠的动力学。基于对RNA折叠动力学决定因素的普遍假设的实验预测和期望之间的差异被强调。讨论了动态可达性和进化可达性的类比。DOI: 10.4018 / 978 - 1 - 60960 - 491 - 2. - ch025

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Handbook of Research on Computational and Systems Biology

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