Exploration of gene-gene interaction effects using entropy-based methods

Changzheng Dong; Xun Chu; Ying Wang; Yi Wang; Li Jin; Tieliu Shi; Wei Huang; Yixue Li

doi:10.1038/sj.ejhg.5201921

Exploration of gene-gene interaction effects using entropy-based methods

Changzheng Dong
, Xun Chu
, Ying Wang
, Yi Wang
, Li Jin
, Tieliu Shi
, Wei Huang
, Yixue Li^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

75 Scopus citations

Abstract

Gene-gene interaction may play important roles in complex disease studies, in which interaction effects coupled with single-gene effects are active. Many interaction models have been proposed since the beginning of the last century. However, the existing approaches including statistical and data mining methods rarely consider genetic interaction models, which make the interaction results lack biological or genetic meaning. In this study, we developed an entropy-based method integrating two-locus genetic models to explore such interaction effects. We performed our method to simulated and real data for evaluation. Simulation results show that this method is effective to detect gene-gene interaction and, furthermore, it is able to identify the best-fit model from various interaction models. Moreover, our method, when applied to malaria data, successfully revealed negative epistatic effect between sickle cell anemia and α⁺ -thalassemia against malaria.

Original language	English
Pages (from-to)	229-235
Number of pages	7
Journal	European Journal of Human Genetics
Volume	16
Issue number	2
DOIs	https://doi.org/10.1038/sj.ejhg.5201921
State	Published - Feb 2008
Externally published	Yes

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title = "Exploration of gene-gene interaction effects using entropy-based methods",

abstract = "Gene-gene interaction may play important roles in complex disease studies, in which interaction effects coupled with single-gene effects are active. Many interaction models have been proposed since the beginning of the last century. However, the existing approaches including statistical and data mining methods rarely consider genetic interaction models, which make the interaction results lack biological or genetic meaning. In this study, we developed an entropy-based method integrating two-locus genetic models to explore such interaction effects. We performed our method to simulated and real data for evaluation. Simulation results show that this method is effective to detect gene-gene interaction and, furthermore, it is able to identify the best-fit model from various interaction models. Moreover, our method, when applied to malaria data, successfully revealed negative epistatic effect between sickle cell anemia and α+ -thalassemia against malaria.",

author = "Changzheng Dong and Xun Chu and Ying Wang and Yi Wang and Li Jin and Tieliu Shi and Wei Huang and Yixue Li",

year = "2008",

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doi = "10.1038/sj.ejhg.5201921",

language = "英语",

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pages = "229--235",

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TY - JOUR

T1 - Exploration of gene-gene interaction effects using entropy-based methods

AU - Dong, Changzheng

AU - Chu, Xun

AU - Wang, Ying

AU - Wang, Yi

AU - Jin, Li

AU - Shi, Tieliu

AU - Huang, Wei

AU - Li, Yixue

PY - 2008/2

Y1 - 2008/2

N2 - Gene-gene interaction may play important roles in complex disease studies, in which interaction effects coupled with single-gene effects are active. Many interaction models have been proposed since the beginning of the last century. However, the existing approaches including statistical and data mining methods rarely consider genetic interaction models, which make the interaction results lack biological or genetic meaning. In this study, we developed an entropy-based method integrating two-locus genetic models to explore such interaction effects. We performed our method to simulated and real data for evaluation. Simulation results show that this method is effective to detect gene-gene interaction and, furthermore, it is able to identify the best-fit model from various interaction models. Moreover, our method, when applied to malaria data, successfully revealed negative epistatic effect between sickle cell anemia and α+ -thalassemia against malaria.

AB - Gene-gene interaction may play important roles in complex disease studies, in which interaction effects coupled with single-gene effects are active. Many interaction models have been proposed since the beginning of the last century. However, the existing approaches including statistical and data mining methods rarely consider genetic interaction models, which make the interaction results lack biological or genetic meaning. In this study, we developed an entropy-based method integrating two-locus genetic models to explore such interaction effects. We performed our method to simulated and real data for evaluation. Simulation results show that this method is effective to detect gene-gene interaction and, furthermore, it is able to identify the best-fit model from various interaction models. Moreover, our method, when applied to malaria data, successfully revealed negative epistatic effect between sickle cell anemia and α+ -thalassemia against malaria.

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DO - 10.1038/sj.ejhg.5201921

M3 - 文章

C2 - 17971837

AN - SCOPUS:38349134867

SN - 1018-4813

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SP - 229

EP - 235

JO - European Journal of Human Genetics

JF - European Journal of Human Genetics

IS - 2

ER -

Exploration of gene-gene interaction effects using entropy-based methods

Abstract

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