Statistical interpretation of the Amerithrax "morph" assay results.

In the Amerithrax investigation PCR-based "morph assays" were used to link the anthrax letters with the RMR-1029 flask at USAMRIID. Quantitative data reported for several of these assays are not consistent with Poisson sampling statistics, but instead exhibit "Taylor's Law" behavior where the variance greatly exceeds the mean. A plausible statistical model for this behavior can explain the large number of observed negative and "inconclusive" findings, and implies a high likelihood that a repository sample could contain a "morph" mutant at concentrations well above the nominal detection limit but nonetheless give a negative or inconclusive test result.

Forensic interpretation of molecular variation on networks of disease transmission and genetic inheritance.

This paper describes the inference-on-networks (ION) framework for forensic interpretat ION of molecular typing data in cases involving allegations of infectious microbial transmission, association of disease outbreaks with alleged sources, and identifying familial relationships using mitochondrial or Y chromosomal DNA. The framework is applicable to molecular typing data obtained using any technique, including those based on electrophoretic separations. A key insight is that the networks associated with disease transmission or DNA inheritance can be used to define specific testable relationships and avoid the ambiguity and subjectivity associated with the criteria used for inferring genetic relatedness now in use.