Systems, methods, and apparatuses are disclosed for reducing the computational time of assigning a species to an infection isolate. A method for dividing a search index into one or more sub-indices based on a phylogenetic tree of reference sequences is disclosed. A method for dividing reads into test sets and aligning to sub-indices for assigning a species to an infection isolate is disclosed. A system for aligning sequence reads to a database of reference sequences using sub-indices is disclosed.

Applicants have identified that three critical phenotypic/genetic measures are highly correlated with transition period health and may be used in selection and breeding protocols and/or in combination with traditional breeding and marker assisted selection methods to improve predictability of transition period health. According to the invention genetic evaluations for mastitis, ketosis, and metritis have been found to be highly predictive of overall transition health. The genetic evaluations are produced by directly measuring thousands of clinical cases of mastitis, ketosis, and metritis in ancestors of a particular animal and using this data in selection. Applicant's selection criteria and quickly impact a breeders population by reducing transition cow disease incidence in the initial population and in progeny.

A method and computer system for identifying genes associated with a phenotype includes obtaining data representing mutations in a cohort of subjects exhibiting a phenotype. An evolutionary action (EA) score is calculated for each mutation using the data obtained. For each gene in the cohort, respective distributions of the calculated EA scores are determined for mutations found in the gene. The determined distributions of EA scores are quantitatively compared within the cohort and with random distributions to establish comparison data. Based on the comparison data, distributions of EA scores are identified that are non-random, and linkage of each gene in the cohort to the phenotype is assessed based on the identified non-random distributions to identify genes associated with the phenotype. The phenotype can be a disease, such as cancer, and linkage of each gene in the cohort to the disease can be assessed to identify disease causing genes.

Described are techniques for determining population structure from identity-by-descent (IBD) of individuals. The techniques may be used to predict that an individual belongs to zero, one or more of a number of communities identified within an IBD network. Additional data may be used to annotate the communities with birth location, surname, and ethnicity information. In turn, these data may be used to provide to an individual a prediction of membership to zero, one or more communities, accompanied by a summary of the information annotated to those communities.

The present disclosure describes systems and methods for determining sources of infection transmission. Phylogenetic methods are used for determining the evolutionary history and replication rates of infection isolates. The evolutionary distance and/or replication rate of an infection isolate maybe compared to other isolates. Based on a comparison of the evolutionary distance and/or replication rate, a determination of the source of infection transmission is made.

The present disclosure describes systems and methods for determining and flagging sequences that deviate from one or more reference sequences. Phylogenetic methods are used for determining the evolutionary history and evolutionary distances of sample isolates. The evolutionary distances of sample isolates may be compared to each other and/or reference isolates. Based on a comparison of the evolutionary distances, a determination of deviance is made for a sample sequence. The sample sequence is flagged for further analysis to determine the cause of deviation.

There are provided methods, systems and processes for the utilization of microbial and related genetic information for use in the exploration, determination, production and recovery of natural resources, including energy sources, and the monitoring, control and analysis of processes and activities.

Structures for representing images comprise a plurality of tile elements which, when illuminated by a light source, each direct an amount of light toward an observer at a viewing location dependent on their orientation angles. The orientation angles of each tile element may be selected based on a characteristic of a corresponding pixel of an image, such that the observer sees a representation of that image created by the varying amount of light directed to the viewing location by the tile elements.

Embodiments of the present invention are directed to a computer-implemented method for positive OTU identification. A non-limiting example of the computer-implemented method includes receiving, by a processor, a plurality of sequencing reads for a metagenome sample and, for each of the plurality of sequencing reads, a corresponding OTU set comprising a plurality of OTUs. The method also includes determining, by the processor, a true positive score for each of the plurality of OTUs based upon a ech Complex and generating a plurality of preliminary OTUs. The method also includes determining a threshold score for the preliminary OTUs. The method also includes removing one of the preliminary OTUs based at least in part upon a determination that the true positive score is less than a threshold. The method also includes retaining one of the preliminary OTUs based at least in part upon a determination that the true positive score is greater than or equal to the threshold.

Embodiments of the present invention are directed to a computer-implemented method for positive OTU identification. A non-limiting example of the computer-implemented method includes receiving, by a processor, a plurality of sequencing reads for a metagenome sample and, for each of the plurality of sequencing reads, a corresponding OTU set comprising a plurality of OTUs. The method also includes determining, by the processor, a true positive score for each of the plurality of OTUs based upon a Cech Complex and generating a plurality of preliminary OTUs. The method also includes determining a threshold score for the preliminary OTUs. The method also includes removing one of the preliminary OTUs based at least in part upon a determination that the true positive score is less than a threshold. The method also includes retaining one of the preliminary OTUs based at least in part upon a determination that the true positive score is greater than or equal to the threshold.