Home QTL Mapping Using a Memetic Algorithm with Modifications of BIC as Fitness Function
Article
Licensed
Unlicensed Requires Authentication

QTL Mapping Using a Memetic Algorithm with Modifications of BIC as Fitness Function

  • Florian Frommlet , Ivana Ljubic , Helga Björk Arnardóttir and Malgorzata Bogdan
Published/Copyright: May 18, 2012
Become an author with De Gruyter Brill
Submit Manuscript Author Information
Statistical Applications in Genetics and Molecular Biology
From the journal Statistical Applications in Genetics and Molecular Biology Volume 11 Issue 4

The problem of locating quantitative trait loci (QTL) for experimental populations can be approached by multiple regression analysis. In this context variable selection using a modification of the Bayesian Information Criterion (mBIC) has been well established in the past. In this article a memetic algorithm (MA) is introduced to find the model which minimizes the selection criterion. Apart from mBIC also a second modification (mBIC2) is considered, which has the property of controlling the false discovery rate. Given the Bayesian nature of our selection criteria, we are not only interested in finding the best model, but also in computing marker posterior probabilities using all models visited by MA. In a simulation study MA (with mBIC and mBIC2) is compared with a parallel genetic algorithm (PGA) which has been previously suggested for QTL mapping. It turns out that MA in combination with mBIC2 performs best, where determining QTL positions based on marker posterior probabilities yields even better results than using the best model selected by MA. Finally we consider a real data set from the literature and show that MA can also be extended to multiple interval mapping, which potentially increases the precision with which the exact location of QTLs can be estimated.

Keywords: QTL mapping; model selection; modifications of BIC; memetic algorithm; posterior probability
Published Online: 2012-5-18

©2012 Walter de Gruyter GmbH & Co. KG, Berlin/Boston

Articles in the same Issue

  1. Article
  2. A New Explained-Variance Based Genetic Risk Score for Predictive Modeling of Disease Risk
  3. Hessian Calculation for Phylogenetic Likelihood based on the Pruning Algorithm and its Applications
  4. Cluster-Localized Sparse Logistic Regression for SNP Data
  5. How to analyze many contingency tables simultaneously in genetic association studies
  6. Incorporating the Empirical Null Hypothesis into the Benjamini-Hochberg Procedure
  7. Estimating the Number of One-step Beneficial Mutations
  8. Testing clonality of three and more tumors using their loss of heterozygosity profiles
  9. Correction for Founder Effects in Host-Viral Association Studies via Principal Components
  10. A Non-Homogeneous Dynamic Bayesian Network with Sequentially Coupled Interaction Parameters for Applications in Systems and Synthetic Biology
  11. An Integrated Hierarchical Bayesian Model for Multivariate eQTL Mapping
  12. A Novel and Fast Normalization Method for High-Density Arrays
  13. Performance of MAX Test and Degree of Dominance Index in Predicting the Mode of Inheritance
  14. A Bayesian autoregressive three-state hidden Markov model for identifying switching monotonic regimes in Microarray time course data
  15. QTL Mapping Using a Memetic Algorithm with Modifications of BIC as Fitness Function
  16. Computing Posterior Probabilities for Score-based Alignments Using ppALIGN
https://doi.org/10.1515/1544-6115.1793
Keywords for this article
QTL mapping; model selection; modifications of BIC; memetic algorithm; posterior probability

Articles in the same Issue

  1. Article
  2. A New Explained-Variance Based Genetic Risk Score for Predictive Modeling of Disease Risk
  3. Hessian Calculation for Phylogenetic Likelihood based on the Pruning Algorithm and its Applications
  4. Cluster-Localized Sparse Logistic Regression for SNP Data
  5. How to analyze many contingency tables simultaneously in genetic association studies
  6. Incorporating the Empirical Null Hypothesis into the Benjamini-Hochberg Procedure
  7. Estimating the Number of One-step Beneficial Mutations
  8. Testing clonality of three and more tumors using their loss of heterozygosity profiles
  9. Correction for Founder Effects in Host-Viral Association Studies via Principal Components
  10. A Non-Homogeneous Dynamic Bayesian Network with Sequentially Coupled Interaction Parameters for Applications in Systems and Synthetic Biology
  11. An Integrated Hierarchical Bayesian Model for Multivariate eQTL Mapping
  12. A Novel and Fast Normalization Method for High-Density Arrays
  13. Performance of MAX Test and Degree of Dominance Index in Predicting the Mode of Inheritance
  14. A Bayesian autoregressive three-state hidden Markov model for identifying switching monotonic regimes in Microarray time course data
  15. QTL Mapping Using a Memetic Algorithm with Modifications of BIC as Fitness Function
  16. Computing Posterior Probabilities for Score-based Alignments Using ppALIGN
Sign up now to receive a 20% welcome discount
Institutional Access
How does access work?
Have an idea on how to improve our website?
Please write us.
© 2025 De Gruyter Brill
Downloaded on 15.11.2025 from https://www.degruyterbrill.com/document/doi/10.1515/1544-6115.1793/html
Scroll to top button