Abstract
DNA replication and transcription are vital cellular processes during which the genetic information is copied into complementary DNA and RNA molecules. Highly complex machineries required for DNA and RNA synthesis compete for the same DNA template, therefore being on a collision course. Unscheduled replication–transcription clashes alter the gene transcription program and generate replication stress, reducing fork speed. Molecular pathways and mechanisms that minimize the conflict between replication and transcription have been extensively characterized in prokaryotic cells and recently identified also in eukaryotes. A pathological outcome of replication–transcription collisions is the formation of stable RNA:DNA hybrids in molecular structures called R-loops. Growing evidence suggests that R-loop accumulation promotes both genetic and epigenetic instability, thus severely affecting genome functionality. In the present review, we summarize the current knowledge related to replication and transcription conflicts in eukaryotes, their consequences on genome stability and the pathways involved in their resolution. These findings are relevant to clarify the molecular basis of cancer and neurodegenerative diseases.
Highlights
Frontiers in GeneticsReceived: 27 February 2015 Paper pending published: 27 March 2015 Accepted: 12 April 2015 Published: 28 April 2015
DNA replication and transcription are vital processes in all living organisms during which specialized polymerases copy the genetic information into complementary DNA and RNA molecules
Recombinogenic RNA:DNA hybrids and/or R-loops are tightly connected to replication–transcription conflicts, suggesting that dysfunctions in R-loops metabolism contributes to cancer development (Table 1; Tuduri et al, 2010; Bermejo et al, 2012)
Summary
Received: 27 February 2015 Paper pending published: 27 March 2015 Accepted: 12 April 2015 Published: 28 April 2015. DNA replication and transcription are vital cellular processes during which the genetic information is copied into complementary DNA and RNA molecules. Complex machineries required for DNA and RNA synthesis compete for the same DNA template, being on a collision course. A pathological outcome of replication–transcription collisions is the formation of stable RNA:DNA hybrids in molecular structures called Rloops. We summarize the current knowledge related to replication and transcription conflicts in eukaryotes, their consequences on genome stability and the pathways involved in their resolution. These findings are relevant to clarify the molecular basis of cancer and neurodegenerative diseases
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