Your search keyword '"SMC-DNA Challenge Participants"' showing total 3 results

1. Valection: design optimization for validation and verification studies

Author

Cooper, Christopher I, Yao, Delia, Sendorek, Dorota H, Yamaguchi, Takafumi N, P’ng, Christine, Houlahan, Kathleen E, Caloian, Cristian, Fraser, Michael, SMC-DNA Challenge Participants, Ellrott, Kyle, Margolin, Adam A, Bristow, Robert G, Stuart, Joshua M, and Boutros, Paul C

Subjects

Sequence Analysis, DNA, Software Validation, Verification, Validation, Candidate-selection, DNA sequencing, SMC-DNA Challenge Participants, Mathematical Sciences, Biological Sciences, Information and Computing Sciences, Bioinformatics

Abstract

BackgroundPlatform-specific error profiles necessitate confirmatory studies where predictions made on data generated using one technology are additionally verified by processing the same samples on an orthogonal technology. However, verifying all predictions can be costly and redundant, and testing a subset of findings is often used to estimate the true error profile.ResultsTo determine how to create subsets of predictions for validation that maximize accuracy of global error profile inference, we developed Valection, a software program that implements multiple strategies for the selection of verification candidates. We evaluated these selection strategies on one simulated and two experimental datasets.ConclusionsValection is implemented in multiple programming languages, available at: http://labs.oicr.on.ca/boutros-lab/software/valection.

Published

2018

2. Valection: design optimization for validation and verification studies.

Author

Cooper, Christopher I, Yao, Delia, Sendorek, Dorota H, Yamaguchi, Takafumi N, P'ng, Christine, Houlahan, Kathleen E, Caloian, Cristian, Fraser, Michael, SMC-DNA Challenge Participants, Ellrott, Kyle, Margolin, Adam A, Bristow, Robert G, Stuart, Joshua M, and Boutros, Paul C

Subjects

SMC-DNA Challenge Participants, Sequence Analysis, DNA, Software Validation, Candidate-selection, DNA sequencing, Validation, Verification, Sequence Analysis, DNA, Biological Sciences, Information and Computing Sciences, Mathematical Sciences, Bioinformatics

Abstract

BACKGROUND:Platform-specific error profiles necessitate confirmatory studies where predictions made on data generated using one technology are additionally verified by processing the same samples on an orthogonal technology. However, verifying all predictions can be costly and redundant, and testing a subset of findings is often used to estimate the true error profile. RESULTS:To determine how to create subsets of predictions for validation that maximize accuracy of global error profile inference, we developed Valection, a software program that implements multiple strategies for the selection of verification candidates. We evaluated these selection strategies on one simulated and two experimental datasets. CONCLUSIONS:Valection is implemented in multiple programming languages, available at: http://labs.oicr.on.ca/boutros-lab/software/valection.

Published

2018

3. Valection: design optimization for validation and verification studies.

Author

Cooper, Christopher I, Yao, Delia, Sendorek, Dorota H, Yamaguchi, Takafumi N, P'ng, Christine, Houlahan, Kathleen E, Caloian, Cristian, Fraser, Michael, SMC-DNA Challenge Participants, Ellrott, Kyle, Margolin, Adam A, Bristow, Robert G, Stuart, Joshua M, and Boutros, Paul C

Subjects

SMC-DNA Challenge Participants, Sequence Analysis, DNA, Software Validation, Candidate-selection, DNA sequencing, Validation, Verification, Sequence Analysis, DNA, Biological Sciences, Information and Computing Sciences, Mathematical Sciences, Bioinformatics

Abstract

BackgroundPlatform-specific error profiles necessitate confirmatory studies where predictions made on data generated using one technology are additionally verified by processing the same samples on an orthogonal technology. However, verifying all predictions can be costly and redundant, and testing a subset of findings is often used to estimate the true error profile.ResultsTo determine how to create subsets of predictions for validation that maximize accuracy of global error profile inference, we developed Valection, a software program that implements multiple strategies for the selection of verification candidates. We evaluated these selection strategies on one simulated and two experimental datasets.ConclusionsValection is implemented in multiple programming languages, available at: http://labs.oicr.on.ca/boutros-lab/software/valection.

Published

2018