[eng] Human cancer arises as a result of genomic alterations that transform cells and make them to grow without control and to pathological levels. The characterization of such genomic changes has enabled understanding tumor development and identifying clinical biomarkers for prognosis and therapy. Many of the genomic and epigenomic alterations in cancer can also be observed through the analysis of the transcriptome, which gives a more functional approach. Next-generation sequencing technologies, such as whole- genome sequencing (WGS) and RNA-seq, have provided the opportunity to assess molecular characterization of distinct tumors, leading to the discovery of several molecular aberrations linked to the biology of tumors. These molecular al...
SummaryIdentification of somatic rearrangements in cancer genomes has accelerated through analysis o...
Genome rearrangements are important mutational events in many cancers, and their detection and chara...
Chromatin is folded into successive layers to organize linear DNA. Genes within the same topological...
The transformation of a normal cell into a cancer cell involves the accumulation of somatic DNA alte...
Transcript alterations often result from somatic changes in cancer genomes1. Various forms of RNA al...
Transcript alterations often result from somatic changes in cancer genomes. Various forms of RNA alt...
Much of our current understanding of cancer has come from investigating how normal cells are transfo...
We present the most comprehensive catalogue of cancer-associated gene alterations through characteri...
Structural variation at the level of genomic DNA is well-understood to be an important mechanism in ...
Pan-cancer studies have transformed our understanding of recurrent somatic mutations that contribute...
Breast cancer is the most common cancer in women worldwide. However, the genetic alterations that le...
Identification of somatic rearrangements in cancer genomes has accelerated through analysis of high-...
Genomic sequencing technology provides insight into cancer pathogenesis and tumoural mechanisms. Tum...
A key mutational process in cancer is structural variation, in which rearrangements delete, amplify ...
Structural Variants (SVs) and Copy Number Variations (CNVs) at the genomic level are responsible for...
SummaryIdentification of somatic rearrangements in cancer genomes has accelerated through analysis o...
Genome rearrangements are important mutational events in many cancers, and their detection and chara...
Chromatin is folded into successive layers to organize linear DNA. Genes within the same topological...
The transformation of a normal cell into a cancer cell involves the accumulation of somatic DNA alte...
Transcript alterations often result from somatic changes in cancer genomes1. Various forms of RNA al...
Transcript alterations often result from somatic changes in cancer genomes. Various forms of RNA alt...
Much of our current understanding of cancer has come from investigating how normal cells are transfo...
We present the most comprehensive catalogue of cancer-associated gene alterations through characteri...
Structural variation at the level of genomic DNA is well-understood to be an important mechanism in ...
Pan-cancer studies have transformed our understanding of recurrent somatic mutations that contribute...
Breast cancer is the most common cancer in women worldwide. However, the genetic alterations that le...
Identification of somatic rearrangements in cancer genomes has accelerated through analysis of high-...
Genomic sequencing technology provides insight into cancer pathogenesis and tumoural mechanisms. Tum...
A key mutational process in cancer is structural variation, in which rearrangements delete, amplify ...
Structural Variants (SVs) and Copy Number Variations (CNVs) at the genomic level are responsible for...
SummaryIdentification of somatic rearrangements in cancer genomes has accelerated through analysis o...
Genome rearrangements are important mutational events in many cancers, and their detection and chara...
Chromatin is folded into successive layers to organize linear DNA. Genes within the same topological...