In this paper, we treat the linkage disequilibrium, used to discover haplotypes, candidate to explain multi-factorial diseases such as diabetes or obesity, as an optimization problem where a given objective function has to be optimized. In order to determine what kind of algorithm will be able to solve this problem, we first study the specificities and the structure of the problem. Results of this study show that exact algorithms are not adapted to this specific problem and lead us to the development of a parallel dedicated adaptive multipopulation genetic algorithm that is able to find several haplotypes of different sizes. After describing the biological problem, we present the dedicated genetic algorithm, its specificities, such as the u...
SummaryLinkage disequilibrium (LD) mapping may be a powerful means for genome screening to identify ...
This paper describes a novel algorithm to analyze genetic linkage data using pattern recognition tec...
Many important traits in plants, animals and humans are quantitative, and most such traits are gener...
In this paper, we treat the linkage disequilibrium, used to discover haplotypes, candidate to explai...
In this article, we model a linkage disequilibrium study (genomic study) as an optimization problem ...
Nous présentons un nouveau formalisme et des nouvelles méthodes pour modéliser le déséquilibre de li...
We present a new formalism and new methods to model linkage disequilibrium and to account for haplot...
We introduce a new method for linkage disequilibrium mapping: haplotype pattern mining (HPM). The me...
SummaryTo refine the location of a disease gene within the bounds provided by linkage analysis, many...
AbstractCurrent efforts to find disease-causing genes depend on patterns of linkage disequilibrium i...
[[abstract]]The pattern of linkage disequilibrium (LD) plays a central role in genome-wide associati...
The genotyping of closely spaced single-nucleotide polymorphism (SNP) markers frequently yields high...
We present a novel approach to disease-gene mapping via cladistic analysis of single-nucleotide poly...
The interdisciplinary field of systems biology has evolved rapidly over the last few years. Differen...
ABSTRACT. Genetic algorithms (GAs) are powerful search techniques that are used success-fully to sol...
SummaryLinkage disequilibrium (LD) mapping may be a powerful means for genome screening to identify ...
This paper describes a novel algorithm to analyze genetic linkage data using pattern recognition tec...
Many important traits in plants, animals and humans are quantitative, and most such traits are gener...
In this paper, we treat the linkage disequilibrium, used to discover haplotypes, candidate to explai...
In this article, we model a linkage disequilibrium study (genomic study) as an optimization problem ...
Nous présentons un nouveau formalisme et des nouvelles méthodes pour modéliser le déséquilibre de li...
We present a new formalism and new methods to model linkage disequilibrium and to account for haplot...
We introduce a new method for linkage disequilibrium mapping: haplotype pattern mining (HPM). The me...
SummaryTo refine the location of a disease gene within the bounds provided by linkage analysis, many...
AbstractCurrent efforts to find disease-causing genes depend on patterns of linkage disequilibrium i...
[[abstract]]The pattern of linkage disequilibrium (LD) plays a central role in genome-wide associati...
The genotyping of closely spaced single-nucleotide polymorphism (SNP) markers frequently yields high...
We present a novel approach to disease-gene mapping via cladistic analysis of single-nucleotide poly...
The interdisciplinary field of systems biology has evolved rapidly over the last few years. Differen...
ABSTRACT. Genetic algorithms (GAs) are powerful search techniques that are used success-fully to sol...
SummaryLinkage disequilibrium (LD) mapping may be a powerful means for genome screening to identify ...
This paper describes a novel algorithm to analyze genetic linkage data using pattern recognition tec...
Many important traits in plants, animals and humans are quantitative, and most such traits are gener...