Because of the complexity of gene-phenotype relationships machine learning approaches have considerable appeal as a strategy for modelling interactions. A number of such methods have been developed and applied in recent years with somemodest success. Progress is hampered by the challenges presented by the complexity of the disease genetic data, including phenotypic and genetic heterogeneity, polygenic forms of inheritance and variable penetrance, combined with the analytical and computational issues arising from the enormous number of potential interactions. We review here recent and current approaches focusing, wherever possible, on applications to real data (particularly in the context of genome-wide association studies) and looking ahead...
Motivation Complex phenotypes, such as many common diseases and morphological traits, are controlle...
Interactions and heterogeneity play a vital role in the miscommunication between genotype and phenot...
After nearly 10 years of intense academic and commercial research effort, large genome-wide associat...
Because of the complexity of gene-phenotype relationships machine learning approaches have considera...
The complexity of phenotype-genotype mapping are characterised by non-linear interactions between ge...
Background. As time passes, the field of biology is constantly revolutionised by the rapid emergence...
The complexity of phenotype-genotype mapping are characterised by non-linear interactions between ge...
In this era of genome-wide association studies (GWAS), the quest for understanding the genetic archi...
Revealing the underlying complex architecture of human diseases has received considerable attention ...
A major milestone in modern biology was the complete sequencing of the human genome. But it produced...
In the past decade, the genome-wide association studies (GWAS) have sequenced over 40 complex diseas...
The susceptibility of complex diseases are characterised by numerous genetic, lifestyle, and environ...
<div><p>The identification of disease-related genes and disease mechanisms is an important research ...
The identification of disease-related genes and disease mechanisms is an important research goal; ma...
In the analysis of current genomic data, application of machine learning and data mining techniques ...
Motivation Complex phenotypes, such as many common diseases and morphological traits, are controlle...
Interactions and heterogeneity play a vital role in the miscommunication between genotype and phenot...
After nearly 10 years of intense academic and commercial research effort, large genome-wide associat...
Because of the complexity of gene-phenotype relationships machine learning approaches have considera...
The complexity of phenotype-genotype mapping are characterised by non-linear interactions between ge...
Background. As time passes, the field of biology is constantly revolutionised by the rapid emergence...
The complexity of phenotype-genotype mapping are characterised by non-linear interactions between ge...
In this era of genome-wide association studies (GWAS), the quest for understanding the genetic archi...
Revealing the underlying complex architecture of human diseases has received considerable attention ...
A major milestone in modern biology was the complete sequencing of the human genome. But it produced...
In the past decade, the genome-wide association studies (GWAS) have sequenced over 40 complex diseas...
The susceptibility of complex diseases are characterised by numerous genetic, lifestyle, and environ...
<div><p>The identification of disease-related genes and disease mechanisms is an important research ...
The identification of disease-related genes and disease mechanisms is an important research goal; ma...
In the analysis of current genomic data, application of machine learning and data mining techniques ...
Motivation Complex phenotypes, such as many common diseases and morphological traits, are controlle...
Interactions and heterogeneity play a vital role in the miscommunication between genotype and phenot...
After nearly 10 years of intense academic and commercial research effort, large genome-wide associat...