Abstract: Nuclease activity can affect the methylation level and fragmentation of cfDNA. Certain levels of nuclease activity may be correlated with certain levels of methylation in certain regions. Methylation level in certain genomic regions can be analyzed to classify nuclease activity. Methylation statuses of different genomic regions compared to methylation statuses of other genomic regions can determine a level of a condition (e.g., a disease such as cancer or disorder) in a subject. Nuclease activity can be monitored through analysis of methylation statuses of different sites. The efficacy of a treatment can also be determined using methylation levels at certain genomic regions. The number of fragments from genomic regions that are hypomethylated or hypermethylated in a reference genome can be used to provide information (e.g., fractional concentration) on the sample itself. The size distribution of extrachromosomal circular DNA can also be used to analyze a biological sample. Systems are also described.

Abstract: Various embodiments are directed to using nuclease expression in tissues that influences cell-free DNA end signatures/motifs and size of overhang between DNA strands. Embodiments can identify a nuclease that is being differentially regulated in abnormal cells relative to normal cells. Embodiments can determine that the nuclease preferentially cuts DNA into DNA molecules having: (i) a particular sequence end signature; or (ii) a specified length of overhang between a first strand and a second strand. A parameter can be determined for a biological sample based on an amount of DNA molecules that include an end sequence corresponding to the particular sequence end signature and/or a measured property correlating to the specified length of overhang. The parameter can be used to determine a characteristic of a tissue type, a fractional concentration of clinically-relevant DNA molecules, or a level of abnormality of a tissue type in the biological sample.

Abstract: The present disclosure describes techniques for measuring quantities (e.g., relative frequencies) of end motif pairs of cell-free DNA fragments in a biological sample of an organism for measuring a property of the sample (e.g., fractional concentration of clinically-relevant DNA) and/or determining a pathology of the organism based on such measurements. Different tissue types exhibit different patterns for the relative frequencies of the end motif pairs. The present disclosure provides various uses for measurements of the relative frequencies of end motif pairs of cell-free DNA, e.g., in mixtures of cell-free DNA from various tissues. DNA from certain tissue(s) may be referred to as clinically-relevant DNA.

Abstract: Various methods, apparatuses, and systems are provided for detecting a genetic disorder in a gene associated with a nuclease, for determining an efficacy of a dosage of an anticoagulant, and for monitoring an activity of a nuclease. Measured parameter values can be compared to a reference value to determine classifications of a genetic disorder, efficiency, or activity. An amount of a particular base (e.g., in an end motif) at fragment ends, an amount of a particular base at fragment ends of a particular size, or a total amount of cell-free DNA fragments (e.g., as a concentration) can be used. Certain samples may be treated with an anticoagulant, and different incubation times can be used for certain methods.