Abstract
We present a protocol to prepare extracted DNA for sequencing on the Illumina sequencing platform that has been optimized for ancient and degraded DNA. Our approach, the Santa Cruz Reaction or SCR, uses directional splinted ligation of Illumina’s P5 and P7 adapters to convert natively single-stranded DNA and heat denatured double-stranded DNA into sequencing libraries in a single enzymatic reaction. To demonstrate its efficacy in converting degraded DNA molecules, we prepare 5 ancient DNA extracts into sequencing libraries using the SCR and 2 of the most commonly used approaches for preparing degraded DNA for sequencing: BEST, which targets and converts double-stranded DNA, and ssDNA2.0, which targets and converts single-stranded DNA. We then compare the efficiency with which each approach recovers unique molecules, or library complexity, given a standard amount of DNA input. We find that the SCR consistently outperforms the BEST protocol in recovering unique molecules and, despite its relative simplicity to perform and low cost per library, has similar performance to ssDNA2.0 across a wide range of DNA inputs. The SCR is a cost- and time-efficient approach that minimizes the loss of unique molecules and makes accessible a taxonomically, geographically, and a temporally broader sample of preserved remains for genomic analysis.
Highlights
Ancient DNA, or DNA that persists after organismal death, can provide unique insights into evolutionary history
We present the Santa Cruz Reaction, or SCR, a fast and inexpensive single-reaction single-stranded DNA library preparation approach that we optimized for ancient DNA (Figure 1C)
It is impossible to know whether the sample will be sufficiently well-preserved to generate genome-scale data without extracting DNA, preparing that DNA extract into a sequenceable library, and sequencing that library
Summary
Ancient DNA, or DNA that persists after organismal death, can provide unique insights into evolutionary history. The commonly used New England Biolabs (NEB, Ipswich, MA) Ultra II DNA library preparation kit discards short fragments during clean-up steps, cuts uracil bases (which form naturally in ancient extracts via depurination) with the USER enzyme cocktail, and uses a non-uracil tolerant polymerase, all of which will reduce the recovery of ancient DNA molecules. These challenges have led to the development of several ancient DNA-specific approaches to library preparation
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