Add to ORKGGenotype-fitness maps of evolution have been well characterized for biological components, such as RNA and proteins, but remain less clear for systems-level properties, such as those of metabolic and transcriptional regulatory networks. Here, we take multi-omics measurements of 6 different E. coli strains throughout adaptive laboratory evolution (ALE) to maximal growth fitness. The results show the following: (i) convergence in most overall phenotypic measures across all strains, with the notable exception of divergence in NADPH production mechanisms; (ii) conserved transcriptomic adaptations, describing increased expression of growth promoting genes but decreased expression of stress response and structural components; (iii) four groups of...
Abstract Background Short-term laboratory evolution of bacteria followed by genomic sequencing provi...
ABSTRACT Antibiotic-resistant bacteria are an increasingly serious public health concern, as strains...
Mutation is fundamental to evolution, because it generates the genetic variation on which selection ...
Adaptive laboratory evolution (ALE) has emerged as a valuable method by which to investigate microbi...
Biological regulatory network architectures are multi-scale in their function and can adaptively acq...
Adaptive laboratory evolution (ALE) has emerged as a valuable method by which to investigate microbi...
Pleiotropic regulatory mutations affect diverse cellular processes, posing a challenge to our unders...
Experimental evolution under controlled laboratory conditions is becoming increasingly important to ...
Experimental evolution under controlled laboratory conditions is becoming increasingly important to ...
It has recently become feasible to study the basis and nature of evolutionary changes in bacteria in...
Synthetic biology aims to design and construct bacterial genomes harboring the minimum number of gen...
Adaptive laboratory evolution (ALE) has emerged as a new approach with which to pursue fundamental b...
Beneficial mutations fuel adaptation by altering phenotypes that enhance the fit of organisms to the...
Bacteria replicate quickly enough that adaptive changes can be observed on a timescale of weeks to m...
BGPI : équipe 2International audienceBeneficial mutations fuel adaptation by altering phenotypes tha...
Abstract Background Short-term laboratory evolution of bacteria followed by genomic sequencing provi...
ABSTRACT Antibiotic-resistant bacteria are an increasingly serious public health concern, as strains...
Mutation is fundamental to evolution, because it generates the genetic variation on which selection ...
Adaptive laboratory evolution (ALE) has emerged as a valuable method by which to investigate microbi...
Biological regulatory network architectures are multi-scale in their function and can adaptively acq...
Adaptive laboratory evolution (ALE) has emerged as a valuable method by which to investigate microbi...
Pleiotropic regulatory mutations affect diverse cellular processes, posing a challenge to our unders...
Experimental evolution under controlled laboratory conditions is becoming increasingly important to ...
Experimental evolution under controlled laboratory conditions is becoming increasingly important to ...
It has recently become feasible to study the basis and nature of evolutionary changes in bacteria in...
Synthetic biology aims to design and construct bacterial genomes harboring the minimum number of gen...
Adaptive laboratory evolution (ALE) has emerged as a new approach with which to pursue fundamental b...
Beneficial mutations fuel adaptation by altering phenotypes that enhance the fit of organisms to the...
Bacteria replicate quickly enough that adaptive changes can be observed on a timescale of weeks to m...
BGPI : équipe 2International audienceBeneficial mutations fuel adaptation by altering phenotypes tha...
Abstract Background Short-term laboratory evolution of bacteria followed by genomic sequencing provi...
ABSTRACT Antibiotic-resistant bacteria are an increasingly serious public health concern, as strains...
Mutation is fundamental to evolution, because it generates the genetic variation on which selection ...