scholarly article | Q13442814 |
P818 | arXiv ID | 1702.00351 |
P356 | DOI | 10.1098/RSIF.2016.0976 |
P724 | Internet Archive ID | arxiv-1702.00351 |
P932 | PMC publication ID | 5414908 |
P698 | PubMed publication ID | 28424303 |
P50 | author | Susanna Manrubia | Q41046199 |
Jose A. Cuesta | Q42319121 | ||
P2093 | author name string | Susanna Manrubia | |
José A Cuesta | |||
P2860 | cites work | Replication and mutation on neutral networks. | Q52069330 |
Exploring phenotype space through neutral evolution. | Q52298835 | ||
From sequences to shapes and back: a case study in RNA secondary structures. | Q52379672 | ||
The robustness and evolvability of transcription factor binding sites. | Q54310563 | ||
Analysis of RNA sequence structure maps by exhaustive enumeration I. Neutral networks | Q56266970 | ||
Algorithm independent properties of RNA secondary structure predictions | Q56272095 | ||
On the structural repertoire of pools of short, random RNA sequences | Q62733575 | ||
Modelling neutral and selective evolution of protein folding | Q68323896 | ||
Combinatorial properties of RNA secondary structures | Q74577067 | ||
Designability of protein structures: a lattice-model study using the Miyazawa-Jernigan matrix | Q78315769 | ||
Mutation-induced fold switching among lattice proteins | Q82655062 | ||
Construction of Escherichia coli K-12 in-frame, single-gene knockout mutants: the Keio collection | Q22122301 | ||
Mutational robustness can facilitate adaptation | Q24624037 | ||
The equilibrium partition function and base pair binding probabilities for RNA secondary structure | Q28261689 | ||
Evolutionary plasticity and innovations in complex metabolic reaction networks | Q28472194 | ||
Are there ergodic limits to evolution? Ergodic exploration of genome space and convergence | Q28607812 | ||
Protein structures sustain evolutionary drift | Q30427746 | ||
Neutral genetic drift can alter promiscuous protein functions, potentially aiding functional evolution | Q30479736 | ||
The ascent of the abundant: how mutational networks constrain evolution | Q33352684 | ||
From genotype to phenotype: buffering mechanisms and the storage of genetic information | Q33925704 | ||
Topological structure of the space of phenotypes: the case of RNA neutral networks | Q34058513 | ||
Natural Selection and the Concept of a Protein Space | Q34233063 | ||
The arrival of the frequent: how bias in genotype-phenotype maps can steer populations to local optima | Q35088076 | ||
The amino acid alphabet and the architecture of the protein sequence-structure map. I. Binary alphabets | Q35488166 | ||
A comparison of genotype-phenotype maps for RNA and proteins | Q35895094 | ||
Genetic Correlations Greatly Increase Mutational Robustness and Can Both Reduce and Enhance Evolvability | Q35944094 | ||
Innovation and robustness in complex regulatory gene networks | Q35962922 | ||
Percolation on fitness landscapes: effects of correlation, phenotype, and incompatibilities | Q37257088 | ||
Conserved expression without conserved regulatory sequence: the more things change, the more they stay the same | Q37677317 | ||
Genotype networks shed light on evolutionary constraints | Q37917100 | ||
Enumerating secondary structures and structural moieties for circular RNAs | Q38945449 | ||
A tractable genotype-phenotype map modelling the self-assembly of protein quaternary structure. | Q39112126 | ||
Global similarities in nucleotide base composition among disparate functional classes of single-stranded RNA imply adaptive evolutionary convergence. | Q41779444 | ||
The organization of biological sequences into constrained and unconstrained parts determines fundamental properties of genotype-phenotype maps | Q41827299 | ||
Asymptotic distribution of motifs in a stochastic context-free grammar model of RNA folding | Q41856558 | ||
toyLIFE: a computational framework to study the multi-level organisation of the genotype-phenotype map. | Q42023667 | ||
Enumerating Designing Sequences in the HP Model | Q42207422 | ||
Adaptive multiscapes: an up-to-date metaphor to visualize molecular adaptation | Q42319058 | ||
The structure of the genotype-phenotype map strongly constrains the evolution of non-coding RNA. | Q43187486 | ||
P433 | issue | 129 | |
P921 | main subject | phenotype | Q104053 |
P577 | publication date | 2017-04-01 | |
P1433 | published in | Journal of the Royal Society Interface | Q2492390 |
P1476 | title | Distribution of genotype network sizes in sequence-to-structure genotype-phenotype maps | |
P478 | volume | 14 |
Q48268076 | Adding levels of complexity enhances robustness and evolvability in a multilevel genotype-phenotype map. |
Q60487619 | Degeneracy and genetic assimilation in RNA evolution |
Q90743445 | Evolution in the light of fitness landscape theory |
Q57002762 | On the networked architecture of genotype spaces and its critical effects on molecular evolution |
Q64109226 | Parsimonious Scenario for the Emergence of Viroid-Like Replicons De Novo |
Q48268065 | Phenotypes can be robust and evolvable if mutations have non-local effects on sequence constraints |
Search more.