Collagen of ancient bones gives an indication of endogenous DNA preservation based on the next generation sequencing technology

Abstract

AbstractAncient genome analysis has become an indispensable tool in studies of human population history and evolution after the breakthrough of whole genome sequencing technology. Meanwhile, the problem has been not resolved that ancient genome cannot be analyzed without crushing non-small pieces of precious specimens; in spite of that, in many cases, there is no DNA remaining sufficiently in the piece of samples for obtaining the whole genome sequences. In previous studies, therefore, a couple of indicators (e.g., racemization ratios) have been proposed to estimate the endogenous DNA in ancient samples. However, these studies have used polymerase chain reaction (PCR) to test whether endogenous DNA is remaining, which has been inadequate because the success or failure of PCR amplification does not necessarily reflect DNA remaining. To assess the amount of endogenous DNA, we use the ratios of reads generated by the next-generation sequencer (NGS) mapped to the human reference genome sequence. We investigate 40 Jomon remains and find a significant association between the collagen residual ratios (CRRs) in rib bones and the mapping ratios (MRs). Because the weight of bone required to measure collagen residual is much less than that required to obtain DNA needed for NGS analysis, which is always necessary for dating, the collagen in ribs can be a good indicator for successful ancient genome analyses.