RESUMO
DNA collection is essential for genotyping laboratory animals. Common collection methods require tissue amputation, causing discomfort and injury. Rectal swabbing has been proposed as an effective, minimally invasive alternative, but an evidence-backed protocol for the technique remains unavailable. This report evaluates the effects of collection parameters on the quality of PCR results and presents a protocol for genotyping a litter of rats within 3-5 h. Samples with 2-8 scrapes produced enough DNA to amplify targets up to â¼1800 bp long using PCR. Rectal swabbing produced PCR results with similar utility as ear clip samples, and results were unaffected by residual fecal matter or cell debris. The protocol enables fast, minimally invasive and repeatable genotyping using commercial PCR reagents.
DNA collection for genotyping laboratory rodents commonly requires tissue amputation, leading to injury and discomfort. Rectal swabbing can be an effective, minimally invasive alternative, but there is a lack of information on how to apply the technique and the necessary parameters involved. This report assesses collection and processing parameters while combining the rectal swab collection method with commercial PCR reagents to allow for fast genotyping with minimally processed DNA samples. Findings were used to design a protocol for minimally invasive DNA collection and genotyping.
RESUMO
DNA collection is essential for genotyping laboratory animals. However, common collection methods require tissue amputation, causing discomfort and injury. Rectal swabbing has been proposed as an effective non-invasive alternative, but an evidence-backed protocol for the technique remains unavailable. We evaluate the effect of collection parameters on PCR result quality and present a genotyping protocol that can yield results for a litter of rats within 3-5 hours. We found that samples with 2-8 scrapes produced enough DNA to amplify targets up to ~1800bp long using PCR. Rectal swabbing produced PCR results with similar quality to ear clip samples, and results were unaffected by residual fecal matter or cell debris. Our protocol enables fast, non-invasive, and repeatable genotyping using commercial PCR reagents.