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RNA secondary structure is an important computational model to understand how genetic variation maps into phenotypic (structural) variation. Evolutionary innovation in RNA structures is facilitated by neutral networks, large connected sets…

种群与进化 · 定量生物学 2008-01-22 Sumedha , Olivier C Martin , Andreas Wagner

We view the folding of RNA-sequences as a map that assigns a pattern of base pairings to each sequence, known as secondary structure. These preimages can be constructed as random graphs (i.e. the neutral networks associated to the structure…

adap-org · 物理学 2008-02-03 Christian V. Forst , Christian Reidys , Jacqueline Weber

Large sets of genotypes give rise to the same phenotype because phenotypic expression is highly redundant. Accordingly, a population can accept mutations without altering its phenotype, as long as thegenotype mutates into another one on the…

种群与进化 · 定量生物学 2015-02-18 Susanna Manrubia , José A. Cuesta

We introduce a new model of evolution on a fitness landscape possessing a tunable degree of neutrality. The model allows us to study the general properties of molecular species undergoing neutral evolution. We find that a number of…

adap-org · 物理学 2007-05-23 M. E. J. Newman , Robin Engelhardt

In evolution, the effects of a single deleterious mutation can sometimes be compensated for by a second mutation which recovers the original phenotype. Such epistatic interactions have implications for the structure of genome space -…

种群与进化 · 定量生物学 2015-03-19 Steffen Schaper , Iain G. Johnston , Ard A. Louis

Conventional population genetics considers the evolution of a limited number of genotypes corresponding to phenotypes with different fitness. As model phenotypes, in particular RNA secondary structure, have become computationally tractable,…

种群与进化 · 定量生物学 2008-04-22 Gergely J. Szollosi , Imre Derenyi

We introduce and analyze a general model of a population evolving over a network of selectively neutral genotypes. We show that the population's limit distribution on the neutral network is solely determined by the network topology and…

adap-org · 物理学 2009-10-31 Erik van Nimwegen , James P. Crutchfield , Martijn Huynen

The two most fundamental processes describing change in biology, development and evolu-tion, occur over drastically different timescales, difficult to reconcile within a unified framework. Development involves temporal sequences of cell…

生物物理 · 物理学 2020-09-08 Enrico Borriello , Sara I. Walker , Manfred D. Laubichler

We study the evolution of the network properties of a populated network embedded in a genotype space characterised by either a low or a high number of potential links, with particular emphasis on the connectivity and clustering. Evolution…

统计力学 · 物理学 2007-05-23 Paul Anderson , Henrik Jeldtoft Jensen

Our understanding of the evolutionary process has gone a long way since the publication, 150 years ago, of "On the origin of species" by Charles R. Darwin. The XXth Century witnessed great efforts to embrace replication, mutation, and…

种群与进化 · 定量生物学 2012-02-02 Susanna C. Manrubia , Jose A. Cuesta

To what extent do the characteristic features of a chemical reaction network reflect its purpose and function? In general, one argues that correlations between specific features and specific functions are key to understanding a complex…

统计力学 · 物理学 2012-03-22 Sang Hoon Lee , Sebastian Bernhardsson , Petter Holme , Beom Jun Kim , Petter Minnhagen

We study the relative importance of "top-speed" (long-term growth rate) and "acceleration" (how quickly the long-term growth rate can be reached) in the evolutionary race to increase population size. We observe that fitness alone does not…

种群与进化 · 定量生物学 2012-02-02 J. R. Blundell , A. Gallagher , T. M. A Fink

In this paper we present a novel framework for sequence to shape maps. These combinatorial maps realize exponentially many shapes, and have preimages which contain extended connected subgraphs of diameter n (neutral networks). We prove that…

定量方法 · 定量生物学 2009-09-29 Emma Y. Jin , Jing Qin , Christian M. Reidys

Genotype-to-phenotype mappings translate genotypic variations such as mutations into phenotypic changes. Neutrality is the observation that some mutations do not lead to phenotypic changes. Studying the search trajectories in genotypic and…

种群与进化 · 定量生物学 2023-06-26 Ting Hu , Gabriela Ochoa , Wolfgang Banzhaf

We re-examine the evolutionary dynamics of RNA secondary structures under directional selection towards an optimum RNA structure. We find that the punctuated equilibria lead to a very slow approach to the optimum, following on average an…

种群与进化 · 定量生物学 2010-11-05 P. Sulc , A. Wagner , O. C. Martin

We consider Convolutional Neural Networks (CNNs) with 2D structured features that are symmetric in the spatial dimensions. Such networks arise in modeling pairwise relationships for a sequential recommendation problem, as well as secondary…

机器学习 · 统计学 2022-03-07 Kehelwala Dewage Gayan Maduranga , Vasily Zadorozhnyy , Qiang Ye

We consider evolution of a large population, where fitness of each organism is defined by many phenotypical traits. These traits result from expression of many genes. We propose a new model of gene regulation, where gene expression is…

种群与进化 · 定量生物学 2016-09-29 John Reinitz , Sergey Vakulenko , Dmitri Grigoriev , Andreas Weber

We investigate the evolutionary dynamics of a finite population of RNA sequences adapting to a neutral fitness landscape. Despite the lack of differential fitness between viable sequences, we observe typical properties of adaptive…

种群与进化 · 定量生物学 2007-05-23 Robert Forster , Christoph Adami , Claus O. Wilke

Evolution on neutral networks of genotypes has been found in models to concentrate on genotypes with high mutational robustness, to a degree determined by the topology of the network. Here analysis is generalized beyond neutral networks to…

种群与进化 · 定量生物学 2015-09-01 Lee Altenberg

Predicting the secondary structure of RNA is a core challenge in computational biology, essential for understanding molecular function and designing novel therapeutics. The field has evolved from foundational but accuracy-limited…

生物大分子 · 定量生物学 2026-05-20 Giuseppe Sacco , Giovanni Bussi , Guido Sanguinetti
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