Citrate Content of Bone as a Measure of Postmortem Interval: An External Validation Study.

The postmortem interval (PMI) of skeletal remains is a crucial piece of information that can help establish the time dimension in criminal cases. Unfortunately, the accurate and reliable determination of PMI from bone continues to evade forensic investigators despite concerted efforts over the past decades to develop suitable qualitative and quantitative methods. A relatively new PMI method based on the analysis of citrate content of bone was developed by Schwarcz et al. The main objective of our research was to determine whether this work could be externally validated. Thirty-one bone samples were obtained from the Forensic Anthropology Center, University of Tennessee, Knoxville, and the Onondaga County Medical Examiner's Office. Results from analyzing samples with PMI greater than 2 years suggest that the hypothetical relationship between the citrate content of bone and PMI is much weaker than reported. It was also observed that the average absolute error between the PMI value estimated using the equation proposed by Schwarcz et al. and the actual ("true") PMI of the sample was negative indicating an underestimation in PMI. These findings are identical to those reported by Kanz et al. Despite these results this method may still serve as a technique to sort ancient from more recent skeletal cases, after further, similar validation studies have been conducted.

The effects of a neutral cosolute on the B to Z transition for DNA duplexes incorporating both CG and CA steps.

In the cell, nearly 40% of the volume is occupied by macromolecular crowding agents and smaller osmolytes accumulate in response to environmental stresses. Of particular interest is the influence of osmolytes on the transition of the right-handed B-DNA to the left-handed Z-DNA. Due to the correlation between Z-DNA formation potential and regions of active transcription, Z-DNA is believed to serve a vital role in the transcription process, and changes in osmolyte concentration may influence transcription as a part of the stress response. We utilized circular dichroism spectroscopy to monitor changes in conformation of DNA duplexes containing a full-turn of Z-DNA in the presence and absence of PEG 200. We used PEG 200 as a model neutral cosolute. Sodium ion titrations revealed that PEG 200 influenced the folding of Z-DNA compared to dilute solution conditions by decreasing the free energy of folding, increasing folding cooperativity, and decreasing the in vitro [Na+] and Δn required for folding for all sequences tested, even those that included 40% CA steps instead of the classic CG repeats. Moreover, the presence of 40% PEG 200 induced the Z-form conformation in sequences that would not fully adopt the Z-form structure even in 5 M NaCl. These results suggest that osmolytes may play a significant role in supporting the transient formation of Z-DNA in vivo, and that sequences containing a significant amounts of CA instead of CG repeats may more favorably adopt the Z-conformation as a part of binding and regulatory processes than had been previously considered.