During genome duplication, replication forks (RFs) can be stalled by different obstacles or by depletion of replication ...

Unscheduled R loops can be a source of genome instability, a hallmark of cancer cells. Although targeted proteomic approaches ...

Perturbation in the replication-stress response (RSR) and DNA-damage response (DDR) causes genomic instability. Genomic ...

The stability of the genome is occasionally challenged by the formation of DNA-RNA hybrids and R-loops, which can be ...

Transcription is an essential process of DNA metabolism, yet it makes DNA more susceptible to DNA damage. THSC/TREX-2 is ...

Identifying how R-loops are generated is crucial to know how transcription compromises genome integrity. We show by ...

Genome instability is a condition characterized by the accumulation of genetic alterations and is a hallmark of cancer ...

DNA:RNA hybrids constitute a well-known source of recombinogenic DNA damage. The current literature is in agreement with ...

Despite playing physiological roles in specific situations, DNA–RNA hybrids threat genome integrity. To investigate how ...

Accurate meiotic chromosome segregation critically depends on the formation of inter-homolog crossovers initiated by ...

Conflicts between replication and transcription machineries represent a major source of genomic instability and cells have ...

R loops are an important source of genome instability, largely due to their negative impact on replication progression. ...

DNA-RNA hybrids form naturally during essential cellular functions such as transcription and replication. However, they ...

R loops have positive physiological roles, but they can also be deleterious by causing genome instability, and the mechanisms ...

Replication forks stall at different DNA obstacles such as those originated by transcription. Fork stalling can lead to ...

Common fragile sites (CFSs) are genomic regions that are unstable under conditions of replicative stress. Although the ...

Yra1 is an essential nuclear factor of the evolutionarily conserved family of hnRNP-like export factors that when overexpressed ...

Co-transcriptional RNA-DNA hybrids (R loops) cause genome instability. To prevent harmful R loop accumulation, cells have ...

The THSC/TREX-2 complex of Saccharomyces cerevisiae mediates the anchoring of transcribed genes to the nuclear pore, linking ...

FACT (facilitates chromatin transcription) is a chromatin-reorganizing complex that swaps nucleosomes around the RNA ...

R-loops, consisting of an RNA-DNA hybrid and displaced single-stranded DNA, are physiological structures that regulate ...

Transcription is a major obstacle for replication fork (RF) progression and a cause of genome instability. Part of this ...

Genomic instability is related to a wide-range of human diseases. Here, we show that mitochondrial iron–sulfur cluster ...

Formation of a ribonucleoprotein particle (mRNP) competent for export requires the coupling of transcription with mRNA ...

RNA polymerases frequently deal with a number of obstacles during transcription elongation that need to be removed for ...

Control of cell cycle progression by stress-activated protein kinases (SAPKs) is essential for cell adaptation to extracellular ...

Increasing evidences suggest that nuclear pore complexes (NPCs) control different aspects of nuclear metabolism, including ...

THO/TREX, a conserved eukaryotic protein complex, is a key player at the interface between transcription and mRNP metabolism. ...

THO is a protein complex that functions in cotranscriptional mRNP formation. Yeast THO1 and SUB2 (Saccharomyces cerevisiae) ...

THO/TREX is a conserved eukaryotic complex formed by the core THO complex plus proteins involved in mRNA metabolism and ...

Hpr1 forms, together with Tho2, Mft1, and Thp2, the THO complex, which controls transcription elongation and genome stability ...