| review article | Q7318358 |
| scholarly article | Q13442814 |
| P50 | author | Diego Pesce | Q59564301 |
| P2093 | author name string | J Arjan G M de Visser | |
| Niles Lehman | |||
| P2860 | cites work | The Correlation between Relatives on the Supposition of Mendelian Inheritance | Q7727667 |
| Quantifying the adaptive potential of an antibiotic resistance enzyme | Q21563371 | ||
| The mechanism of double-strand DNA break repair by the nonhomologous DNA end-joining pathway | Q22065419 | ||
| The Evolutionary Enigma of Sex | Q22066104 | ||
| An extracellular Darwinian experiment with a self-duplicating nucleic acid molecule | Q22066252 | ||
| Origin of life: The RNA world | Q22122409 | ||
| Sex increases the efficacy of natural selection in experimental yeast populations | Q22122472 | ||
| On the conservative nature of intragenic recombination | Q24555721 | ||
| DNA shuffling by random fragmentation and reassembly: in vitro recombination for molecular evolution | Q24562755 | ||
| Ultrahigh-throughput screening in drop-based microfluidics for directed evolution | Q24626072 | ||
| Exploring protein fitness landscapes by directed evolution | Q24630945 | ||
| Selection of an improved RNA polymerase ribozyme with superior extension and fidelity | Q24670512 | ||
| Spontaneous rearrangements in RNA sequences | Q77816615 | ||
| Nonenzymatic recombination of RNA: possible mechanism for the formation of novel sequences | Q80180281 | ||
| A recombination-based model for the origin and early evolution of genetic information | Q82068586 | ||
| The low cost of recombination in creating novel phenotypes: Recombination can create new phenotypes while disrupting well-adapted phenotypes much less than mutation | Q84248114 | ||
| To get what we aim for--progress in diversity generation methods | Q26851750 | ||
| Lineage Tracking for Probing Heritable Phenotypes at Single-Cell Resolution | Q27316309 | ||
| Plasticity, evolvability, and modularity in RNA | Q28143252 | ||
| RNA-catalyzed RNA polymerization: accurate and general RNA-templated primer extension | Q28189664 | ||
| Rapid evolution of a protein in vitro by DNA shuffling | Q28245873 | ||
| DNA shuffling of a family of genes from diverse species accelerates directed evolution | Q28259708 | ||
| The RNA moiety of ribonuclease P is the catalytic subunit of the enzyme | Q28262778 | ||
| Structural biology. A glimpse of biology's first enzyme | Q28293161 | ||
| Linkage and the limits to natural selection | Q28769449 | ||
| Self-splicing RNA: Autoexcision and autocyclization of the ribosomal RNA intervening sequence of tetrahymena | Q29615409 | ||
| THE RELATION OF RECOMBINATION TO MUTATIONAL ADVANCE | Q29616118 | ||
| Viewing protein fitness landscapes through a next-gen lens. | Q30367833 | ||
| Directed evolution of ampicillin-resistant activity from a functionally unrelated DNA fragment: A laboratory model of molecular evolution | Q30649929 | ||
| DNA shuffling method for generating highly recombined genes and evolved enzymes | Q30662357 | ||
| Creating multiple-crossover DNA libraries independent of sequence identity | Q30721380 | ||
| High-density mutagenesis by combined DNA shuffling and phage display to assign essential amino acid residues in protein-protein interactions: application to study structure-function of plasminogen activation inhibitor 1 (PAI-I). | Q30914091 | ||
| Libraries of hybrid proteins from distantly related sequences | Q30988721 | ||
| Molecular evolution by staggered extension process (StEP) in vitro recombination | Q32075357 | ||
| Recombination speeds adaptation by reducing competition between beneficial mutations in populations of Escherichia coli | Q33294903 | ||
| Heterogeneous adaptive trajectories of small populations on complex fitness landscapes | Q33322521 | ||
| Ohno's model revisited: measuring the frequency of potentially adaptive mutations under various mutational drifts | Q33358606 | ||
| Nucleic acid evolution and minimization by nonhomologous random recombination | Q33641842 | ||
| Initial mutations direct alternative pathways of protein evolution | Q33847781 | ||
| The evolution of recombination: removing the limits to natural selection. | Q33971025 | ||
| Reciprocal sign epistasis is a necessary condition for multi-peaked fitness landscapes. | Q34155513 | ||
| Deleterious mutations and the evolution of sexual reproduction | Q34164458 | ||
| Ribozyme-catalyzed transcription of an active ribozyme | Q34176686 | ||
| Natural Selection and the Concept of a Protein Space | Q34233063 | ||
| Spontaneous network formation among cooperative RNA replicators | Q34306710 | ||
| Directed evolution of nucleic acid enzymes | Q34326044 | ||
| Advances in directed protein evolution by recursive genetic recombination: applications to therapeutic proteins | Q34365192 | ||
| RNA-directed construction of structurally complex and active ligase ribozymes through recombination | Q34366659 | ||
| Perspective: Sign epistasis and genetic constraint on evolutionary trajectories | Q34437784 | ||
| Robustness-epistasis link shapes the fitness landscape of a randomly drifting protein. | Q34584004 | ||
| ??? | Q51429007 | ||
| From fitness landscapes to seascapes: non-equilibrium dynamics of selection and adaptation. | Q34949551 | ||
| A case for the extreme antiquity of recombination | Q35196854 | ||
| Multidimensional epistasis and the transitory advantage of sex. | Q35260820 | ||
| A tortoise-hare pattern seen in adapting structured and unstructured populations suggests a rugged fitness landscape in bacteria | Q35764270 | ||
| Replicable and recombinogenic RNAs | Q35785843 | ||
| Viroids: the minimal non-coding RNAs with autonomous replication | Q35785845 | ||
| The RNA World: 4,000,000,050 years old. | Q36416055 | ||
| Search strategies for applied molecular evolution | Q36707872 | ||
| The evolution of sex: empirical insights into the roles of epistasis and drift | Q36710753 | ||
| Epistasis between deleterious mutations and the evolution of recombination | Q36751300 | ||
| Construction and evolution of antibody-phage libraries by DNA shuffling | Q36791370 | ||
| Optimization of DNA shuffling for high fidelity recombination | Q36852677 | ||
| Forty years of in vitro evolution | Q36883743 | ||
| Synthetic shuffling and in vitro selection reveal the rugged adaptive fitness landscape of a kinase ribozyme | Q37003205 | ||
| Competition between recombination and epistasis can cause a transition from allele to genotype selection | Q37167732 | ||
| Comprehensive experimental fitness landscape and evolutionary network for small RNA. | Q37173200 | ||
| Empirical fitness landscapes and the predictability of evolution | Q38218962 | ||
| Methods for the directed evolution of proteins | Q38521229 | ||
| From formamide to RNA, the path is tenuous but continuous | Q39428469 | ||
| DNA recombination during PCR. | Q40515497 | ||
| Group II intron RNA-catalyzed recombination of RNA in vitro | Q40526105 | ||
| Sex speeds adaptation by altering the dynamics of molecular evolution. | Q40947611 | ||
| Freeze-thaw cycles as drivers of complex ribozyme assembly | Q41235050 | ||
| Population genetic perspectives on the evolution of recombination. | Q41291263 | ||
| Stepwise error-prone PCR and DNA shuffling changed the pH activity range and product specificity of the cyclodextrin glucanotransferase from an alkaliphilic Bacillus sp | Q41422905 | ||
| Amplification, mutation and selection of catalytic RNA. | Q41847210 | ||
| In vivo evolution of a catalytic RNA couples trans-splicing to translation | Q41888497 | ||
| The dawn of the RNA World: toward functional complexity through ligation of random RNA oligomers | Q42134880 | ||
| Non-enzymatic template-directed recombination of RNAs. | Q43129744 | ||
| Recombination, RNA evolution, and bifunctional RNA molecules isolated through chimeric SELEX. | Q43206304 | ||
| Nonreplicative homologous RNA recombination: promiscuous joining of RNA pieces? | Q43207135 | ||
| Ribozyme motif structure mapped using random recombination and selection | Q43207347 | ||
| Recycling of informational units leads to selection of replicators in a prebiotic soup | Q43907137 | ||
| Exploring the effect of sex on empirical fitness landscapes | Q46501857 | ||
| Genome structure and the benefit of sex | Q51610625 | ||
| A comparison of directed evolution approaches using the beta-glucuronidase model system. | Q51825222 | ||
| Generalized RNA-directed recombination of RNA. | Q53963285 | ||
| Expression, purification, and characterization of SARS coronavirus RNA polymerase. | Q54487408 | ||
| Some Genetic Aspects of Sex | Q56235384 | ||
| Recombination during in vitro evolution | Q56899554 | ||
| A general model for the evolution of recombination | Q71859154 | ||
| Nonhomologous RNA recombination in a cell-free system: evidence for a transesterification mechanism guided by secondary structure | Q73085022 | ||
| P433 | issue | 1706 | |
| P407 | language of work or name | English | Q1860 |
| P577 | publication date | 2016-10-01 | |
| P1433 | published in | Philosophical Transactions of the Royal Society B | Q2153239 |
| P1476 | title | Sex in a test tube: testing the benefits of in vitro recombination | |
| P478 | volume | 371 |
| Q47387337 | Modern methods for laboratory diversification of biomolecules |
| Q46812108 | Negative Epistasis in Experimental RNA Fitness Landscapes. |
| Q59813416 | Random-sequence genetic oligomer pools display an innate potential for ligation and recombination |
| Q38726566 | The role of recombination in evolutionary adaptation of Escherichia coli to a novel nutrient |
| Q37273323 | Weird sex: the underappreciated diversity of sexual reproduction. |
Search more.