Nishimasu et al., Cell 2014
We use the latest available CRISPR/Cas technologies to generate small modifications such as indel-knockouts, deletions, point mutations and conditional knockouts; as wells as insertion of large knockins such as reporters or exogenous expression cassettes. Depending on the modification required we will recommend the best targeting approach. We support all steps of CRISPR projects including:
Currently, we support in-house CRISRP/Cas editing for rats, mice, and cell lines. We provide consultation for editing in zebra fish, mosquito and other species. Please contact us if you are working with a different experimental system and need assistance.
For simple modifications (indel knockout, deletion, point mutation) we use one or two gRNAs, and a donor oligo when a repair template is required. for targeting and the service fee includes manipulation of 100 embryos or generation of 5 founders, whichever comes first. If more embryos are required to achieve a modification, additional costs may apply.
For cell lines we support FACS sorting, single clone expansion and screening of two 96 well plates per gRNA.
For conditional knockouts we currently require two rounds of targeting to insert LoxP sites successfully on the same allele, if feasible we can also use a construct template to generate a replacement (those will be treated as a large insertion projects). We perform gRNA validation for these projects, to increases chances of correct repair.
For large insertions, we currently generate a template construct with homology arms and use it in conjunction with CRISPR. As other methods such as HITI become available to increase efficiency of CRISPR-mediated knockins, we will incorporate those into our workflow. We perform gRNA validation for these projects, to increases chances of correct repair.
For generating genome edited mouse lines on a background strain other than C57BL/6, FVB/N, CD1 or rat lines on a strain background other than SAS (Sprague Dawley) or Fischer F344, additional animal costs may apply.