DropSynth 2.0: high-fidelity multiplexed gene synthesis in emulsions
Angus M. Sidore, Calin Plesa, Joyce Samson, Nathan B. Lubock, Sriram Kosuri
Abstract
Multiplexed assays allow functional testing of large synthetic libraries of genetic elements, but are limited by the designability, length, fidelity and scale of the input DNA. Here, we improve DropSynth, a low-cost, multiplexed method that builds gene libraries by compartmentalizing and assembling microarray-derived oligonucleotides in vortexed emulsions. By optimizing enzyme choice, adding enzymatic error correction and increasing scale, we show that DropSynth can build thousands of gene-length fragments at >20% fidelity.
Topics & Concepts
FidelityBiologyOligonucleotideMultiplexingComputational biologyDNA microarrayHigh fidelityGeneDNAScale (ratio)GeneticsGene expressionComputer sciencePhysicsTelecommunicationsQuantum mechanicsAcousticsCRISPR and Genetic EngineeringAdvanced biosensing and bioanalysis techniquesPlant Virus Research Studies