| scholarly article | Q13442814 |
| P50 | author | Ryan T Gill | Q90350491 |
| P2093 | author name string | Olivier Tenaillon | |
| Joel L Kaar | |||
| Alaksh Choudhury | |||
| Jacob A Fenster | |||
| Reilly G Fankhauser | |||
| P2860 | cites work | PCR-mediated gene replacement in Escherichia coli | Q73682242 |
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| Design, construction and characterization of a set of insulated bacterial promoters | Q33693464 | ||
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| Molecular mechanisms that confer antibacterial drug resistance | Q33915635 | ||
| Physiological cost of rifampin resistance induced in vitro in Mycobacterium tuberculosis. | Q33977319 | ||
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| Hydrogen bonding and biological specificity analysed by protein engineering | Q34192392 | ||
| Enhanced levels of lambda Red-mediated recombinants in mismatch repair mutants | Q34283357 | ||
| The Resistome: A Comprehensive Database of Escherichia coli Resistance Phenotypes | Q38839789 | ||
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| Consequences of Cas9 cleavage in the chromosome of Escherichia coli | Q38883743 | ||
| Resource Reallocation in Bacteria by Reengineering the Gene Expression Machinery | Q39097948 | ||
| The transience of transient overexpression | Q39117858 | ||
| Coupling the CRISPR/Cas9 System with Lambda Red Recombineering Enables Simplified Chromosomal Gene Replacement in Escherichia coli | Q41251787 | ||
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| Rapid and Efficient One-Step Metabolic Pathway Integration in E. coli. | Q45973216 | ||
| Additivity of mutational effects in proteins | Q46528565 | ||
| Development of a CRISPR/Cas9 genome editing toolbox for Corynebacterium glutamicum | Q47116177 | ||
| The CRISPR/Cas9-facilitated multiplex pathway optimization (CFPO) technique and its application to improve the Escherichia coli xylose utilization pathway | Q47803170 | ||
| CRISPR/Cas9-coupled recombineering for metabolic engineering of Corynebacterium glutamicum | Q47988111 | ||
| Structural basis for rifamycin resistance of bacterial RNA polymerase by the three most clinically important RpoB mutations found in Mycobacterium tuberculosis | Q48122076 | ||
| Fitness-compensatory mutations in rifampicin-resistant RNA polymerase | Q50026431 | ||
| Mutational robustness of ribosomal protein genes | Q50045244 | ||
| Enhanced integration of large DNA into E. coli chromosome by CRISPR/Cas9. | Q50233059 | ||
| Genome-wide Targeted Mutagenesis in Rice Using the CRISPR/Cas9 System | Q50434098 | ||
| Bacterial DNA polymerases participate in oligonucleotide recombination. | Q50491691 | ||
| Efficient de novo synthesis of resveratrol by metabolically engineered Escherichia coli. | Q50951892 | ||
| Metabolic engineering of Escherichia coli using CRISPR-Cas9 meditated genome editing. | Q52423793 | ||
| Making point mutations in Escherichia coli BL21 genome using the CRISPR-Cas9 System. | Q52431129 | ||
| Evolution of high-level resistance during low-level antibiotic exposure. | Q52568580 | ||
| Epistasis buffers the fitness effects of rifampicin- resistance mutations in Pseudomonas aeruginosa. | Q53413637 | ||
| CasPER, a method for directed evolution in genomic contexts using mutagenesis and CRISPR/Cas9 | Q56889839 | ||
| Methyl-directed DNA mismatch repair in Escherichia coli | Q57451648 | ||
| Low-level rifampicin-resistant Mycobacterium tuberculosis strains raise a new therapeutic challenge [Short communication] | Q57842376 | ||
| Mechanisms of fitness cost reduction for rifampicin-resistant strains with deletion or duplication mutations in rpoB | Q59799559 | ||
| Deep scanning lysine metabolism in | Q59809043 | ||
| Lambda red recombineering in Escherichia coli occurs through a fully single-stranded intermediate. | Q34285766 | ||
| Genome sequencing of 161 Mycobacterium tuberculosis isolates from China identifies genes and intergenic regions associated with drug resistance | Q34367960 | ||
| Probing the limits of genetic recoding in essential genes. | Q34378484 | ||
| The no-SCAR (Scarless Cas9 Assisted Recombineering) system for genome editing in Escherichia coli | Q34497847 | ||
| Compensatory evolution in rifampin-resistant Escherichia coli | Q34610970 | ||
| Probing cellular processes with oligo-mediated recombination and using the knowledge gained to optimize recombineering | Q34612552 | ||
| Evolution-guided optimization of biosynthetic pathways | Q34752504 | ||
| Mismatch repair proteins MutS and MutL inhibit RecA-catalyzed strand transfer between diverged DNAs | Q35163740 | ||
| Multigene editing in the Escherichia coli genome via the CRISPR-Cas9 system | Q35172182 | ||
| Deep mutational scanning: assessing protein function on a massive scale | Q35175479 | ||
| Codon compression algorithms for saturation mutagenesis | Q35321006 | ||
| Deep mutational scanning: a new style of protein science | Q35541240 | ||
| Whole-genome sequencing of rifampicin-resistant Mycobacterium tuberculosis strains identifies compensatory mutations in RNA polymerase genes. | Q35635595 | ||
| New regimens for reducing the duration of the treatment of drug-susceptible pulmonary tuberculosis. | Q35676180 | ||
| High-efficiency multiplex genome editing of Streptomyces species using an engineered CRISPR/Cas system. | Q35696118 | ||
| Microevolution of extensively drug-resistant tuberculosis in Russia | Q35864738 | ||
| Interactions and Localization of Escherichia coli Error-Prone DNA Polymerase IV after DNA Damage | Q35913829 | ||
| A highly precise and portable genome engineering method allows comparison of mutational effects across bacterial species | Q35925574 | ||
| Genome-wide mapping of mutations at single-nucleotide resolution for protein, metabolic and genome engineering. | Q36219845 | ||
| CRISPR EnAbled Trackable genome Engineering for isopropanol production in Escherichia coli | Q36285028 | ||
| Isolation and characterization of RNA polymerase rpoB mutations that alter transcription slippage during elongation in Escherichia coli | Q36562096 | ||
| Evolution of translation machinery in recoded bacteria enables multi-site incorporation of nonstandard amino acids. | Q36669000 | ||
| Rifabutin and rifampin resistance levels and associated rpoB mutations in clinical isolates of Mycobacterium tuberculosis complex | Q36917933 | ||
| Understanding, predicting and manipulating the genotypic evolution of antibiotic resistance. | Q36995736 | ||
| Mechanisms and biological effects of mismatch repair | Q37041860 | ||
| The synapsis event in the homologous pairing of DNAs: RecA recognizes and pairs less than one helical repeat of DNA | Q37111539 | ||
| Local fitness landscape of the green fluorescent protein | Q37142510 | ||
| Evolution and transmission of drug-resistant tuberculosis in a Russian population | Q37611572 | ||
| Call of the wild: antibiotic resistance genes in natural environments | Q37700168 | ||
| Conditional DNA repair mutants enable highly precise genome engineering | Q37734351 | ||
| Combining CRISPR and CRISPRi Systems for Metabolic Engineering of E. coli and 1,4-BDO Biosynthesis. | Q38602126 | ||
| A statistical framework for analyzing deep mutational scanning data | Q38636539 | ||
| Rapid and Programmable Protein Mutagenesis Using Plasmid Recombineering. | Q38679348 | ||
| Large scale validation of an efficient CRISPR/Cas-based multi gene editing protocol in Escherichia coli | Q38822434 | ||
| P433 | issue | 3 | |
| P921 | main subject | Cas9 | Q16965677 |
| deep mutational scanning | Q105275188 | ||
| CRISPR | Q412563 | ||
| Escherichia coli | Q25419 | ||
| CRISPR-Cas method | Q17310682 | ||
| P304 | page(s) | e9265 | |
| P577 | publication date | 2020-03-01 | |
| P1433 | published in | Molecular Systems Biology | Q2261043 |
| P1476 | title | CRISPR/Cas9 recombineering-mediated deep mutational scanning of essential genes in Escherichia coli | |
| P478 | volume | 16 |
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