Affiliation:
1. Laboratory of Genetics, Wageningen University, Wageningen, The Netherlands
2. Department of Chemistry, Portland State University, Portland, OR 97207, USA
Abstract
The origin and evolution of sex, and the associated role of recombination, present a major problem in biology. Sex typically involves recombination of closely related DNA or RNA sequences, which is fundamentally a random process that creates but also breaks up beneficial allele combinations. Directed evolution experiments, which combine
in vitro
mutation and recombination protocols with
in vitro
or
in vivo
selection, have proved to be an effective approach for improving functionality of nucleic acids and enzymes. As this approach allows extreme control over evolutionary conditions and parameters, it also facilitates the detection of small or position-specific recombination benefits and benefits associated with recombination between highly divergent genotypes. Yet,
in vitro
approaches have been largely exploratory and motivated by obtaining improved end products rather than testing hypotheses of recombination benefits. Here, we review the various experimental systems and approaches used by
in vitro
studies of recombination, discuss what they say about the evolutionary role of recombination, and sketch their potential for addressing extant questions about the evolutionary role of sex and recombination, in particular on complex fitness landscapes. We also review recent insights into the role of ‘extracellular recombination’ during the origin of life.
This article is part of the themed issue ‘Weird sex: the underappreciated diversity of sexual reproduction’.
Subject
General Agricultural and Biological Sciences,General Biochemistry, Genetics and Molecular Biology
Cited by
14 articles.
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