Genome-wide mapping of mutations at single-nucleotide resolution for protein, metabolic and genome engineering
Journal Article
Overview
publication date
- January 1, 2017
has subject area
- Bioengineering - Metabolic Engineering
- Chromosome Mapping
- Computing Methodologies - Algorithms
- Culture Techniques - Metabolic Engineering
- DNA Mutational Analysis
- Environment and Public Health - Reproducibility of Results
- Environment and Public Health - Sensitivity and Specificity
- Environment and Public Health - Sensitivity and Specificity
- Gene Editing
- Genetic Engineering - Metabolic Engineering
- Genome, Bacterial
- Genome, Fungal
- Glycosides - Nucleotides
- Health Care Evaluation Mechanisms - Reproducibility of Results
- Health Care Evaluation Mechanisms - Sensitivity and Specificity
- Health Care Evaluation Mechanisms - Sensitivity and Specificity
- High-Throughput Nucleotide Sequencing
- Investigative Techniques - Reproducibility of Results
- Investigative Techniques - Reproducibility of Results
- Investigative Techniques - Sensitivity and Specificity
- Investigative Techniques - Sensitivity and Specificity
- Mathematical Concepts - Algorithms
- Mathematical Concepts - Sensitivity and Specificity
- Metabolome
- Nucleic Acids, Nucleotides, and Nucleosides - Nucleotides
- Polymorphism, Single Nucleotide
- Protein Engineering
- Proteome
- Software
Full Author List
- Garst AD; Bassalo MC; Pines G; Lynch SA; Halweg-Edwards AL; Liu R; Liang L; Wang Z; Zeitoun R; Alexander WG
published in
- Nature Biotechnology Journal
Other Profiles
Digital Object Identifier (DOI)
Additional Document Info
start page
- 48
end page
- 55
volume
- 35
issue
- 1