Dynamic network-based epistasis analysis: Boolean examples

AZPEITIA, Eugenio, Mariana BENITEZ, Pablo PADILLA-LONGORIA, Carlos ESPINOSA-SOTO and Elena R. ALVAREZ-BUYLLA. Dynamic network-based epistasis analysis: Boolean examples. Frontiers in Plant Science. Switzerland: Frontiers, 2011, vol. 2011, No 2, p. "nestránkováno", 12 pp. ISSN 1664-462X. Available from: https://dx.doi.org/10.3389/fpls.2011.00092.

Basic information

Original name

Dynamic network-based epistasis analysis: Boolean examples

Authors

AZPEITIA, Eugenio (484 Mexico), Mariana BENITEZ (484 Mexico, belonging to the institution), Pablo PADILLA-LONGORIA (484 Mexico), Carlos ESPINOSA-SOTO (484 Mexico) and Elena R. ALVAREZ-BUYLLA (484 Mexico, guarantor)

Edition

Frontiers in Plant Science, Switzerland, Frontiers, 2011, 1664-462X

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Other information

Language

English

Type of outcome

Článek v odborném periodiku

Field of Study

Genetics and molecular biology

Country of publisher

Switzerland

Confidentiality degree

není předmětem státního či obchodního tajemství

References:

Article freely available

RIV identification code

RIV/00216224:14740/11:00055437

Organization unit

Central European Institute of Technology

DOI

http://dx.doi.org/10.3389/fpls.2011.00092

UT WoS

000208837500092

Keywords in English

Boolean network; dynamic model; epistasis

Tags

ok, rivok

Tags

International impact

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Abstract

V originále

In this article we focus on how the hierarchical and single-path assumptions of epistasis analysis can bias the inference of gene regulatory networks. Here we emphasize the critical importance of dynamic analyses, and specifically illustrate the use of Boolean network models. Epistasis in a broad sense refers to gene interactions, however, as originally proposed by Bateson, epistasis is defined as the blocking of a particular allelic effect due to the effect of another allele at a different locus (herein, classical epistasis). Classical epistasis analysis has proven powerful and useful, allowing researchers to infer and assign directionality to gene interactions. As larger data sets are becoming available, the analysis of classical epistasis is being complemented with computer science tools and system biology approaches. We show that when the hierarchical and single-path assumptions are not met in classical epistasis analysis, the access to relevant information and the correct inference of gene interaction topologies is hindered, and it becomes necessary to consider the temporal dynamics of gene interactions. The use of dynamical networks can overcome these limitations. We particularly focus on the use of Boolean networks that, like classical epistasis analysis, relies on logical formalisms, and hence can complement classical epistasis analysis and relax its assumptions. We develop a couple of theoretical examples and analyze them from a dynamic Boolean network model perspective. Boolean networks could help to guide additional experiments and discern among alternative regulatory schemes that would be impossible or difficult to infer without the elimination of these assumption from the classical epistasis analysis.

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Links

LC06034, research and development project

Name: Regulace morfogeneze rostlinných buněk a orgánů Investor: Ministry of Education, Youth and Sports of the CR, Regulation of morphogenesis of plant cells and organs