Gene Synthesis and DNA Synthesis services enable you to custom-clone your codon-optimized genes into your desired vector for optimal protein expression, regardless of length or complexity. Our expanded offering includes a wide range of synthetic DNA solutions, including gene fragment synthesis, synthetic DNA libraries, oligo synthesis, and CRISPR synthetic solutions. With a rapid turnaround time and cost-effective pricing, GENEWIZ Multiomics and Synthesis Solutions from Azenta Life Sciences provides complete gene synthesis solutions with the quality, speed, and support you need to achieve success in your research.
Gene Synthesis is the process of creating a DNA strand base-by-base without the use of a template strand. When nucleotides are added to form a single strand of DNA, the resulting de novo DNA sequence then serves as a template for further synthesis of a complementary strand. The synthesized DNA is then cloned into a plasmid vector.
Gene synthesis techniques are used to further engineer, detect, and identify genomes spanning across infectious disease, agrigenomics, oncology, and several other molecular biology research areas.
Use synthetic genomes to generate novel biological functions and systems with CRISPR and other gene editing technologies.
Efficiently clone synthetic therapeutic genes into custom viral vectors to optimize expression and specificity of gene delivery.
Encode safer molecular adjuvants via cutting-edge vaccine design with codon-optimized synthetic DNA.
Boost protein expression levels for directed evolution and rational design with codon-optimized genes.
Expedite candidate identification and screening for targeted therapeutic antibody engineering through codon-optimized gene constructs and libraries.
Use codon-optimized genes to rapidly express recombinant protein for structure determination in gene-to-protein pipelines.