Add to ORKGAssociation studies provide genome-wide information about the genetic basis of complex disease, but medical research has primarily focused on protein-coding variants, due to the difficulty of interpreting non-coding mutations. This picture has changed with advances in the systematic annotation of functional non-coding elements. Evolutionary conservation, functional genomics, chromatin state, sequence motifs, and molecular quantitative trait loci all provide complementary information about non-coding function. These functional maps can help prioritize variants on risk haplotypes, filter mutations encountered in the clinic, and perform systems-level analyses to reveal processes underlying disease associations. Advances in predictive modeling ...
The DNA sequencing technology developed by Frederick Sanger in the 1970s established genomics as the...
More reliable and cheaper sequencing technologies have revealed the vast mutational landscapes chara...
BACKGROUND: The majority of clinical genetic testing focuses almost exclusively on regions of the ge...
Gene expression regulation is a delicate process that depends on multiple aspects including genome s...
Over the past decades the search for disease causing variants has been focusing exclusively on the c...
The cancer genome is characterized by extensive variability, in the form of Single Nucleotide Polymo...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Gene regulation plays a central role in evolution, organismal development, and disease. Despite the ...
The completion of the human genome sequence in 2003 clearly marked the beginning of a new era for bi...
Noncoding DNA sequences (NCS) have attracted much attention recently due to their functional potenti...
AbstractThe completion of the human genome sequence in 2003 clearly marked the beginning of a new er...
Understanding the noncoding part of the genome, which encodes gene regulation, is necessary to ident...
Insight into the biological make-up of complex disorders can improve their diagnosis, lead to the di...
The identification of non-coding single nucleotide polymorphisms (SNPs) and short insertions or dele...
Susceptibility to common human diseases is influenced by both genetic and environmental factors. The...
The DNA sequencing technology developed by Frederick Sanger in the 1970s established genomics as the...
More reliable and cheaper sequencing technologies have revealed the vast mutational landscapes chara...
BACKGROUND: The majority of clinical genetic testing focuses almost exclusively on regions of the ge...
Gene expression regulation is a delicate process that depends on multiple aspects including genome s...
Over the past decades the search for disease causing variants has been focusing exclusively on the c...
The cancer genome is characterized by extensive variability, in the form of Single Nucleotide Polymo...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Gene regulation plays a central role in evolution, organismal development, and disease. Despite the ...
The completion of the human genome sequence in 2003 clearly marked the beginning of a new era for bi...
Noncoding DNA sequences (NCS) have attracted much attention recently due to their functional potenti...
AbstractThe completion of the human genome sequence in 2003 clearly marked the beginning of a new er...
Understanding the noncoding part of the genome, which encodes gene regulation, is necessary to ident...
Insight into the biological make-up of complex disorders can improve their diagnosis, lead to the di...
The identification of non-coding single nucleotide polymorphisms (SNPs) and short insertions or dele...
Susceptibility to common human diseases is influenced by both genetic and environmental factors. The...
The DNA sequencing technology developed by Frederick Sanger in the 1970s established genomics as the...
More reliable and cheaper sequencing technologies have revealed the vast mutational landscapes chara...
BACKGROUND: The majority of clinical genetic testing focuses almost exclusively on regions of the ge...