The emergence of microbial antibiotic resistance is a global health threat. In clinical settings, the key to controlling spread of resistant strains is accurate and rapid detection. As traditional culture-based methods are time consuming, genetic approaches have recently been developed for this task. The detection of antibiotic resistance is typically made by measuring a few known determinants previously identified from genome sequencing, and thus requires the prior knowledge of its biological mechanisms. To overcome this limitation, we employed machine learning models to predict resistance to 11 compounds across four classes of antibiotics from existing and novel whole genome sequences of 1936 E. coli strains. We considered a range of meth...
Abstract Background Several studies demonstrated the feasibility of predicting bacterial antibiotic ...
Chemical genomics expands our understanding of microbial tolerance to inhibitory chemicals, but its ...
Abstract Whole genome sequencing (WGS) enables detailed characterization of bacteria at single nucle...
The emergence of microbial antibiotic resistance is a global health threat. In clinical settings, th...
The emergence of microbial antibiotic resistance is a global health threat. In clinical settings, th...
OBJECTIVES: Whole-genome sequencing potentially represents a single, rapid and cost-effective approa...
Escherichia coli is an important cause of bacterial infections worldwide, with multidrug-resistant s...
It is important that antibiotics prescriptions are based on antimicrobial susceptibility data to ens...
Rising antimicrobial resistance is an increasing problem worldwide. Escherichia coli presents a par...
Limited therapy options due to antibiotic resistance underscore the need for optimization of current...
A growing number of studies are using machine learning models to accurately predict antimicrobial re...
In this paper, we present a novel machine learning-based methodology for identifying bacteria DNA su...
Antibiotic resistance is critical to global health. This thesis examines the relationship between an...
Antibiotic resistance is an emerging problem, becoming a serious threat to global public health. The...
Antibiotics have transformed modern medicine in manifold ways. However, the misuse and over-consumpt...
Abstract Background Several studies demonstrated the feasibility of predicting bacterial antibiotic ...
Chemical genomics expands our understanding of microbial tolerance to inhibitory chemicals, but its ...
Abstract Whole genome sequencing (WGS) enables detailed characterization of bacteria at single nucle...
The emergence of microbial antibiotic resistance is a global health threat. In clinical settings, th...
The emergence of microbial antibiotic resistance is a global health threat. In clinical settings, th...
OBJECTIVES: Whole-genome sequencing potentially represents a single, rapid and cost-effective approa...
Escherichia coli is an important cause of bacterial infections worldwide, with multidrug-resistant s...
It is important that antibiotics prescriptions are based on antimicrobial susceptibility data to ens...
Rising antimicrobial resistance is an increasing problem worldwide. Escherichia coli presents a par...
Limited therapy options due to antibiotic resistance underscore the need for optimization of current...
A growing number of studies are using machine learning models to accurately predict antimicrobial re...
In this paper, we present a novel machine learning-based methodology for identifying bacteria DNA su...
Antibiotic resistance is critical to global health. This thesis examines the relationship between an...
Antibiotic resistance is an emerging problem, becoming a serious threat to global public health. The...
Antibiotics have transformed modern medicine in manifold ways. However, the misuse and over-consumpt...
Abstract Background Several studies demonstrated the feasibility of predicting bacterial antibiotic ...
Chemical genomics expands our understanding of microbial tolerance to inhibitory chemicals, but its ...
Abstract Whole genome sequencing (WGS) enables detailed characterization of bacteria at single nucle...