| Q53563129 | A synthetic approach to abiogenesis. |
| Q51399044 | Adaptation and Diversification of an RNA Replication System under Initiation- or Termination-Impaired Translational Conditions. |
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| Q92924068 | Autocatalytic networks in biology: structural theory and algorithms |
| Q47833361 | Autocatalytic sets and biological specificity. |
| Q28647655 | Autocatalytic sets in E. coli metabolism |
| Q39952032 | Autocatalytic sets in a partitioned biochemical network. |
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| Q39265302 | Chemical roots of biological evolution: the origins of life as a process of development of autonomous functional systems. |
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| Q39106822 | Competition and cooperation in dynamic replication networks. |
| Q47831737 | Conditions for evolvability of autocatalytic sets: a formal example and analysis. |
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| Q28830387 | Dynamics of prebiotic RNA reproduction illuminated by chemical game theory |
| Q27011350 | Early bioenergetic evolution |
| Q55408150 | Editorial: Genome Invading RNA Networks. |
| Q38615948 | Evolution of Autocatalytic Sets in Computational Models of Chemical Reaction Networks |
| Q35489596 | Evolution of the division of labor between genes and enzymes in the RNA world |
| Q38253498 | Evolutionary game theory: molecules as players |
| Q55510028 | Exploiting limited valence patchy particles to understand autocatalytic kinetics. |
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| Q47384592 | Exploring the emergence of complexity using synthetic replicators |
| Q46305254 | Exponential growth and selection in self-replicating materials from DNA origami rafts |
| Q35161360 | FASTAptamer: A Bioinformatic Toolkit for High-throughput Sequence Analysis of Combinatorial Selections. |
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| Q41270657 | Foldamer hypothesis for the growth and sequence differentiation of prebiotic polymers |
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| Q41235050 | Freeze-thaw cycles as drivers of complex ribozyme assembly |
| Q31129248 | Gause's principle and the effect of resource partitioning on the dynamical coexistence of replicating templates |
| Q47829060 | Group I Intron Internal Guide Sequence Binding Strength as a Component of Ribozyme Network Formation. |
| Q92266898 | Heated gas bubbles enrich, crystallize, dry, phosphorylate and encapsulate prebiotic molecules |
| Q36821547 | Host-parasite oscillation dynamics and evolution in a compartmentalized RNA replication system. |
| Q34521204 | Hypercycle |
| Q88528281 | In the Beginning was a Mutualism - On the Origin of Translation |
| Q36155338 | Intramolecular phenotypic capacitance in a modular RNA molecule |
| Q36629152 | Kinetic properties of an RNA enzyme that undergoes self-sustained exponential amplification |
| Q94523733 | Law of Mass Action Type Chemical Mechanisms for Modeling Autocatalysis and Hypercycles: Their Role in the Evolutionary Race |
| Q47693778 | Length and sequence relaxation of copolymers under recombination reactions. |
| Q64120294 | Limited Sequence Diversity Within a Population Supports Prebiotic RNA Reproduction |
| Q57037487 | Mathematical modeling reveals spontaneous emergence of self-replication in chemical reaction systems |
| Q34377759 | Mechanisms of autocatalysis |
| Q64081749 | Molecular Diversity Required for the Formation of Autocatalytic Sets |
| Q42281924 | Molecular trade-offs in RNA ligases affected the modular emergence of complex ribozymes at the origin of life |
| Q46812108 | Negative Epistasis in Experimental RNA Fitness Landscapes. |
| Q39334742 | Network Modularity is essential for evolution of cooperation under uncertainty |
| Q38992239 | New evolutionary insights into the non-enzymatic origin of RNA oligomers |
| Q46242768 | Nucleic acids: function and potential for abiogenesis |
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| Q57253894 | On the propagation of a conceptual error concerning hypercycles and cooperation |
| Q47821804 | Origins of life: The cooperative gene. |
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| Q28655854 | Pragmatic turn in biology: From biological molecules to genetic content operators |
| Q47132048 | Prebiotic RNA Network Formation: A Taxonomy of Molecular Cooperation |
| Q38613603 | Prebiotic network evolution: six key parameters. |
| Q41058413 | Prebiotic selection for motifs in a model of template-free elongation of polymers within compartments. |
| Q49980094 | Predicting species emergence in simulated complex pre-biotic networks |
| Q52371408 | Primordial sex facilitates the emergence of evolution. |
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| Q38194195 | Progress toward synthetic cells |
| Q64249042 | RNA Regulatory Networks as a Control of Stochasticity in Biological Systems |
| Q28649979 | RNA synthesis by in vitro selected ribozymes for recreating an RNA world |
| Q58327669 | Replicator Equations and Space |
| Q92506958 | Resynthesizing behavior through phylogenetic refinement |
| Q28304041 | Rethinking quasispecies theory: From fittest type to cooperative consortia |
| Q55397393 | Ribozyme-catalysed RNA synthesis using triplet building blocks. |
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| Q28487869 | Selection for replicases in protocells |
| Q47560112 | Sequence selection by dynamical symmetry breaking in an autocatalytic binary polymer model |
| Q33665095 | Serial transfer can aid the evolution of autocatalytic sets |
| Q38952339 | Sex in a test tube: testing the benefits of in vitro recombination |
| Q40994427 | Simulating the origins of life: The dual role of RNA replicases as an obstacle to evolution |
| Q58269910 | Solutions with a bounded support promote permanence of a distributed replicator equation |
| Q39587758 | Some mechanistic requirements for major transitions |
| Q27683763 | Speciation of a group I intron into a lariat capping ribozyme |
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| Q41148008 | Spontaneous fine-tuning to environment in many-species chemical reaction networks |
| Q91166765 | Sustainable replication and coevolution of cooperative RNAs in an artificial cell-like system |
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| Q38901555 | Synthetic transitions: towards a new synthesis |
| Q41581024 | The Central Symbiosis of Molecular Biology: Molecules in Mutualism |
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| Q38266759 | The RNA World: molecular cooperation at the origins of life |
| Q39754403 | The biocommunication method: On the road to an integrative biology |
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| Q40089845 | The elusive quest for RNA knots |
| Q42116039 | The evolution of early cellular systems viewed through the lens of biological interactions. |
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| Q59324877 | The nature and mathematical basis for material stability in the chemical and biological worlds |
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| Q38367623 | The ribosome challenge to the RNA world |
| Q90135210 | The role of sugar-backbone heterogeneity and chimeras in the simultaneous emergence of RNA and DNA |
| Q46387853 | Topological and thermodynamic factors that influence the evolution of small networks of catalytic RNA species |
| Q30662242 | Toward major evolutionary transitions theory 2.0. |
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| Q39427113 | Towards open-ended evolution in self-replicating molecular systems |
| Q41878197 | Trans-splicing with the group I intron ribozyme from Azoarcus |
| Q94521092 | Turbulent coherent structures and early life below the Kolmogorov scale |
| Q47391823 | Two genetic codes: Repetitive syntax for active non-coding RNAs; non-repetitive syntax for the DNA archives |
| Q56999188 | Understanding Life: A Bioinformatics Perspective |
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