Explore our technologies and learn more about CRISPR genome engineering benefits, techniques, and more.
Protein format Get step-by-step guidance on storing, handling, and setting up your experiments with the AccuBase Cytosine Base Editor and gRNA.
Protein format This User Guide offers key details on storing, handling, and initiating experiments with our eSpOT-ON nuclease protein and gRNA.
mRNA format This User Guide covers important guidelines for storage, preparation, and getting started with our eSpOT-ON nuclease mRNA and gRNA.
This User Guide provides essential information regarding storage, handling, quantification, and dilution of our research use sgRNAs, and preparing RNPs in a simple and easy-to-follow guide. It includes instructions for...
Done editing your cells with CRISPR and ready to prepare your samples for analysis? Synthego is here to help! This Genotyping protocol provides detailed information on everything you need to...
This User Guide provides information regarding storage and handling of our T7 RNA Polymerase enzyme in a simple and easy-to-follow guide.
This User Guide provides information regarding storage and handling of our RNase Inhibitor enzyme in a simple and easy-to-follow guide.
This Quick Start Guide provides essential information regarding handling, storage, and use of hfCas12Max CRISPR nuclease and gRNA as RNPs in a simple and easy-to-follow format.
This CRISPR mouse embryo microinjection protocol, provided by researchers at the University of Rochester Mouse Genome Editing Resource, was designed to allow highly efficient introduction of synthetic single guide RNA...
Gene editing of human cancer cell lines are useful to researchers looking to understand cancer cell biology and genetics. In this protocol, researchers at the University of California, San Francisco,...
Primary cells are often difficult to transfect and manipulate, however its value in translational research is immense. In this protocol, researchers at the University of Washington, in conjunction with Synthego,...
This protocol describes the isolation of single-cell clones from a CRISPR-edited pool and the expansion and genotyping of the subsequent clonal populations.
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