Evolution at 'Sutures' and 'Centers': Recombination Can Aid Adaptation of Spatially Structured Populations on Rugged Fitness Landscapes.

Evolution at 'Sutures' and 'Centers': Recombination Can Aid Adaptation of Spatially Structured Populations on Rugged Fitness Landscapes.

Epistatic interactions among genes can give rise to rugged fitness landscapes, in which multiple "peaks" of high-fitness allele combinations are separated by "valleys" of low-fitness genotypes. How populations traverse rugged fitness landscapes is a long-standing question in evol...

Full description

Bibliographic Details
Main Authors:	Jacob D Cooper, Benjamin Kerr
Format:	Article
Language:	English
Published:	Public Library of Science (PLoS) 2016-12-01
Series:	PLoS Computational Biology
Online Access:	http://europepmc.org/articles/PMC5156365?pdf=render

Similar Items

Quantifying the role of population subdivision in evolution on rugged fitness landscapes.
by: Anne-Florence Bitbol, et al.
Published: (2014-08-01)

The Role of Social Learning in the Evolution on a Rugged Fitness Landscape
by: Masahiko Higashi, et al.
Published: (2018-08-01)

Experimental rugged fitness landscape in protein sequence space.
by: Yuuki Hayashi, et al.
Published: (2006-01-01)

The impact of population size on the evolution of asexual microbes on smooth versus rugged fitness landscapes
by: Rozen Daniel E, et al.
Published: (2009-09-01)

Natural selection fails to optimize mutation rates for long-term adaptation on rugged fitness landscapes.
by: Jeff Clune, et al.
Published: (2008-09-01)

Synthetic shuffling and in vitro selection reveal the rugged adaptive fitness landscape of a kinase ribozyme
by: Bartel, David, et al.
Published: (2015)

Morphometrics and evolution: the challenge of crossing rugged phenotypic landscapes with straight paths
by: P. D. Polly
Published: (2017-07-01)

Evolving generalists in switching rugged landscapes.
by: Shenshen Wang, et al.
Published: (2019-10-01)

Rugged landscapes: complexity and implementation science
by: Joseph T. Ornstein, et al.
Published: (2020-09-01)

Evolution of the genetic code: partial optimization of a random code for robustness to translation error in a rugged fitness landscape
by: Koonin Eugene V, et al.
Published: (2007-10-01)

Reciprocal sign epistasis between frequently experimentally evolved adaptive mutations causes a rugged fitness landscape.
by: Daniel J Kvitek, et al.
Published: (2011-04-01)

Optimization on Rugged Landscapes: A Democratic Approach
by: Dittes, Frank-Michael
Published: (2010)

Optimization on Rugged Landscapes: A Democratic Approach
by: Dittes, Frank-Michael
Published: (2010)

Stronger selection can slow down evolution driven by recombination on a smooth fitness landscape.
by: Masahiko Ueda, et al.
Published: (2017-01-01)

Studying the Proportions of the Main Spaces of Safavid Rugs and Contemporary Rugs
by: Fatemeh Akbari, et al.
Published: (2015-09-01)

HIV-1 Env C2-V4 diversification in a slow-progressor infant reveals a flat but rugged fitness landscape.
by: S Abigail Smith, et al.
Published: (2013-01-01)

Rugged Portable Communication System
by: Kamula, Juha, et al.
Published: (2013)

The rug-3 locus of pea
by: Harrison, Christopher John
Published: (1996)

Recombination and mutational robustness in neutral fitness landscapes.
by: Alexander Klug, et al.
Published: (2019-08-01)

The effect of bacterial recombination on adaptation on fitness landscapes with limited peak accessibility.
by: Danesh Moradigaravand, et al.
Published: (2012-01-01)

Sexual recombination and increased mutation rate expedite evolution of Escherichia coli in varied fitness landscapes
by: George L. Peabody V, et al.
Published: (2017-12-01)

RUG WEAVING AND VEGETABLE DYEING IN BEYPAZARI
by: Doç. Dr. H. Sinem ŞANLI, et al.
Published: (2014-12-01)

Logic modeling and the ridiculome under the rug
by: Blinov Michael L, et al.
Published: (2012-11-01)

A RESEARCH ON HAKKARI RUG WEAVING
by: Muhammed Mustafa GÜLDÜR, et al.
Published: (2015-11-01)

Wind flow over rugged terrain
by: Manning, Joel
Published: (2011)

Een rechte rug bij tegenwind
by: Jaap Swijnenburg
Published: (2012-03-01)

What no “Rug Time” sharing means
by: Pauline Harris
Published: (2020-03-01)

Learning the ground state of a non-stoquastic quantum Hamiltonian in a rugged neural network landscape
by: Marin Bukov, Markus Schmitt, Maxime Dupont
Published: (2021-06-01)

A discrete-domain description of multiphase flow in porous media: Rugged energy landscapes and the origin of hysteresis
by: Cueto-Felgueroso Landeira, Luis, et al.
Published: (2017)

Gesäuse National Park – a rugged wilderness
by: Petra Sterl, et al.
Published: (2015-01-01)

Distribution of Precipitation on Rugged Terrain in Central Arizona
by: Osborn, Herbert B., et al.
Published: (1977)

Simulation of Underwater Acoustic Propagation in Rugged Topography
by: Tsung-Sheng Kuo, et al.
Published: (2009)

rugged feminism of Sandra Day O’Connor
Published: ()

Morphological design methodology of rugged underactuated gripper
by: Mayo, John Patrick
Published: (2016)

Recombination accelerates adaptation on a large-scale empirical fitness landscape in HIV-1.
by: Danesh Moradigaravand, et al.
Published: (2014-06-01)

Adaptive Differential Evolution Algorithm Based on Fitness Landscape Characteristic
by: Luo, S., et al.
Published: (2022)

Hydrophobicity and Composition-Dependent Anomalies in Aqueous Binary Mixtures, along with some Contribution to Diffusion on Rugged Energy Landscape
by: Banerjee, Saikat
Published: (2018)

The Analysis of Competition Strategy of P Company’s Rugged Notebook
by: Chih-Chien Weng, et al.
Published: (2011)

Highly passable propulsive device for UGVs on rugged terrain
by: Gradetsky Valery, et al.
Published: (2018-01-01)

Returning Images: Mandela, Marikana and the Rugged Road to the Future
by: Annalisa Oboe
Published: (2014-11-01)