2025
Synthetic Genetic Elements Enable Rapid Characterization of Inorganic Carbon Uptake Systems in Cupriavidus necator H16
Nakamura A, Fulk E, Johnson C, Isaacs F. Synthetic Genetic Elements Enable Rapid Characterization of Inorganic Carbon Uptake Systems in Cupriavidus necator H16. ACS Synthetic Biology 2025, 14: 943-953. PMID: 40048245, DOI: 10.1021/acssynbio.4c00869.Peer-Reviewed Original ResearchConceptsSynthetic genetic elementsExpression of heterologous pathwaysUptake systemCupriavidus necator H16Genome engineering technologiesHeterologous pathwaysHeterotrophic conditionsGenetic elementsChromosomal expressionTunable expressionInducible promoterGenetic engineering technologyModel microbesCarbon sourceGene expressionFacultative chemolithotrophsUptake pathwayH16PathwayLanding padExpressionGenomeGenesMicrobesChemolithotrophs
2011
Precise Manipulation of Chromosomes in Vivo Enables Genome-Wide Codon Replacement
Isaacs FJ, Carr PA, Wang HH, Lajoie MJ, Sterling B, Kraal L, Tolonen AC, Gianoulis TA, Goodman DB, Reppas NB, Emig CJ, Bang D, Hwang SJ, Jewett MC, Jacobson JM, Church GM. Precise Manipulation of Chromosomes in Vivo Enables Genome-Wide Codon Replacement. Science 2011, 333: 348-353. PMID: 21764749, PMCID: PMC5472332, DOI: 10.1126/science.1205822.Peer-Reviewed Original ResearchConceptsGenome engineeringSynonymous codon substitutionsGenome engineering technologiesSynthetic lethal effectMegabase scaleCodon replacementsTAA codonCodon substitutionsRecombination frequencyCodon modificationGenetic landscapeEscherichia coliGenomeChromosomesCodonPrecise changesLethal effectsPrecise manipulationEngineering technologyNucleotidesColiPhenotypeTagsModification
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