Methylation in the human genome is known to be associated with development and disease. The Illumina Infinium methylation arrays are by far the most common way to interrogate methylation across the human genome. This paper provides a Bioconductor workflow using multiple packages for the analysis of methylation array data. Specifically, we demonstrate the steps involved in a typical differential methylation analysis pipeline including: quality control, filtering, normalization, data exploration and statistical testing for probe-wise differential methylation. We further outline other analyses such as differential methylation of regions, differential variability analysis, estimating cell type composition and gene ontology testing. Finally, we ...
Sequencing technologies have changed not only our approaches to classical genetics, but also the fie...
A key benefit of long-read nanopore sequencing technology is the ability to detect modified DNA base...
2017-07-29DNA methylation plays critical roles in a variety of biological processes, such as aging, ...
Methylation in the human genome is known to be associated with development and disease. The Illumina...
The promise of epigenome-wide association studies and cancer-specific somatic DNA methylation change...
Abstract Background DNA methylation has been identified to be widely associated to complex diseases....
Here we provide a complete workflow for the preprocessing and analysis of DNA methylation array data...
ABSTRACT: BACKGROUND: Exploration of DNA methylation and its impact on various regulatory mechanisms...
Genome-wide analysis of DNA methylation has now become a relatively inexpensive technique thanks to ...
textabstractBackground: Array based methylation profiling is a cost-effective solution to study the ...
The integration of genomic and epigenomic data is an increasingly popular approach for studying the ...
Abstract Background The study of the human DNA methylome has gained particular interest in the last ...
Background: As the most stable and experimentally accessible epigenetic mark, DNA methylation is of ...
A key benefit of long-read nanopore sequencing technology is the ability to detect modified DNA base...
DNA methylation is one of the most commonly studied epigenetic marks, due to its role in disease and...
Sequencing technologies have changed not only our approaches to classical genetics, but also the fie...
A key benefit of long-read nanopore sequencing technology is the ability to detect modified DNA base...
2017-07-29DNA methylation plays critical roles in a variety of biological processes, such as aging, ...
Methylation in the human genome is known to be associated with development and disease. The Illumina...
The promise of epigenome-wide association studies and cancer-specific somatic DNA methylation change...
Abstract Background DNA methylation has been identified to be widely associated to complex diseases....
Here we provide a complete workflow for the preprocessing and analysis of DNA methylation array data...
ABSTRACT: BACKGROUND: Exploration of DNA methylation and its impact on various regulatory mechanisms...
Genome-wide analysis of DNA methylation has now become a relatively inexpensive technique thanks to ...
textabstractBackground: Array based methylation profiling is a cost-effective solution to study the ...
The integration of genomic and epigenomic data is an increasingly popular approach for studying the ...
Abstract Background The study of the human DNA methylome has gained particular interest in the last ...
Background: As the most stable and experimentally accessible epigenetic mark, DNA methylation is of ...
A key benefit of long-read nanopore sequencing technology is the ability to detect modified DNA base...
DNA methylation is one of the most commonly studied epigenetic marks, due to its role in disease and...
Sequencing technologies have changed not only our approaches to classical genetics, but also the fie...
A key benefit of long-read nanopore sequencing technology is the ability to detect modified DNA base...
2017-07-29DNA methylation plays critical roles in a variety of biological processes, such as aging, ...