Structural variation (SV) is a large difference (typically >100 bp) in the genomic structure of two genomes and includes both copy number variation and variation that does not change copy number of a genomic region, such as an inversion. Improved reference genomes, combined with widespread genome sequencing using short-read sequencing technology, and increasingly using long-read sequencing, have reignited interest in SV. Recent large-scale studies and functional focused analyses have highlighted the role of SV in human evolution. In this review, we highlight human-specific SVs involved in changes in the brain, population-specific SVs that affect response to the environment, including adaptation to diet and infectious diseases, and summarise...
Throughout the past decade, studying ancient genomes has provided unique insights into human prehist...
Variability in the human genome has far exceeded expectations. In the course of the past three years...
Anthropological geneticists have successfully used single nucleotide and short tandem repeat variati...
Structural variation (SV) is a large difference (typically >100 bp) in the genomic structure of two ...
Genomic variation extends from single nucleotide variants to large chromosomal rearrangements, but t...
Anthropological geneticists have successfully used single-nucleotide and short tandem repeat variati...
Genetic variation among individual humans occurs on many different scales, ranging from gross altera...
Structural variation includes many different types of chromosomal rearrangement and encompasses mill...
Background: Humans have adapted to widespread changes during the past 2 million years in both enviro...
Anthropological geneticists have successfully used single nucleotide and short tandem repeat variati...
Large genomic insertions and deletions are a potent source of functional variation, but are challeng...
The study of variation found in DNA is fundamental in human genetic studies. Single nucleotide polym...
Summary Structural variants (SVs) are implicated in numerous diseases and make up the majority of va...
Although nucleotide resolution maps of genomic structural variants (SVs) have provided insights into...
Structural genomic variants (SVs) are ubiquitous and play a major role in adaptation and speciation....
Throughout the past decade, studying ancient genomes has provided unique insights into human prehist...
Variability in the human genome has far exceeded expectations. In the course of the past three years...
Anthropological geneticists have successfully used single nucleotide and short tandem repeat variati...
Structural variation (SV) is a large difference (typically >100 bp) in the genomic structure of two ...
Genomic variation extends from single nucleotide variants to large chromosomal rearrangements, but t...
Anthropological geneticists have successfully used single-nucleotide and short tandem repeat variati...
Genetic variation among individual humans occurs on many different scales, ranging from gross altera...
Structural variation includes many different types of chromosomal rearrangement and encompasses mill...
Background: Humans have adapted to widespread changes during the past 2 million years in both enviro...
Anthropological geneticists have successfully used single nucleotide and short tandem repeat variati...
Large genomic insertions and deletions are a potent source of functional variation, but are challeng...
The study of variation found in DNA is fundamental in human genetic studies. Single nucleotide polym...
Summary Structural variants (SVs) are implicated in numerous diseases and make up the majority of va...
Although nucleotide resolution maps of genomic structural variants (SVs) have provided insights into...
Structural genomic variants (SVs) are ubiquitous and play a major role in adaptation and speciation....
Throughout the past decade, studying ancient genomes has provided unique insights into human prehist...
Variability in the human genome has far exceeded expectations. In the course of the past three years...
Anthropological geneticists have successfully used single nucleotide and short tandem repeat variati...