Project description:Transcription is a major obstacle for replication fork progression and a cause of genome instability. Yra1 is an essential nuclear factor of the evolutionarily conserved family of hnRNP-like export factors that when overexpressed impairs mRNA export and cell growth. Through this ChIP-chip analysis it is shown that Yra1 binds to active chromatin and is enriched at telomeres when it is overexpressed, in agreement with a possible role of this mRNP factor in the maintenance of telomere integrity. Our data indicate that YRA1 overexpression correlates with replication impairment as inferred by the increase of Rrm3, a helicase involved in the replication fork progression, at transcribed genes and telomeres.

Project description:Transcription is a major obstacle for replication fork progression and a cause of genome instability. Yra1 is an essential nuclear factor of the evolutionarily conserved family of hnRNP-like export factors that when overexpressed impairs mRNA export and cell growth. Through this ChIP-chip analysis it is shown that Yra1 binds to active chromatin and is enriched at telomeres when it is overexpressed, in agreement with a possible role of this mRNP factor in the maintenance of telomere integrity. Our data indicate that YRA1 overexpression correlates with replication impairment as inferred by the increase of Rrm3, a helicase involved in the replication fork progression, at transcribed genes and telomeres. ChIP-chip studies were perfomed with antibodies against HA-tagged Yra1 protein in wild-type cells and cells overexpressing YRA1 of the yeast S. Cerevisiae, as well as Flag-tagged Rrm3 protein in both wild-type and cells overexpressing YRA1.

Project description:Yra1-bound R loops cause orientation-independent transcription-replication collisions and telomere instability

Project description:Transcription is a major obstacle for replication fork progression and a cause of genome instability. Such instability increases in mutants with an imbalance proportion of Yra1, a component of THO/TREX. We used microarrays to the global impact of Yra1 overexpression and found that no general impact was observed.

Project description:Transcription is a major obstacle for replication fork progression and a cause of genome instability. Such instability increases in mutants with an imbalance proportion of Yra1, a component of THO/TREX. We used microarrays to the global impact of Yra1 overexpression and found that no general impact was observed. S. cerevisiae strains were grown in minimal medium raffinose and were shifted to galactose (2%) for four hours in liquid culture, total RNA was isolated and hybridized on Affymetrix microarrays

Project description:Comparison of cDNA from RNA of yra1-1 temperature-sensitive mutant to RNA from Yra1 wildtype strain both at the non-permissive temperature of 37C Keywords: repeat sample

Project description:Telomere end-protection by the shelterin complex prevents DNA damage signalling and promiscuous repair at chromosome ends. Evidence suggests that the 3’ single-stranded telomere end can assemble into a lasso-like t-loop configuration, which has been proposed to safeguard chromosome ends from being recognized as DNA double strand breaks. Mechanisms must also exist to transiently disassemble t-loops to allow faithful telomere replication and to permit telomerase access to the 3’-end to solve the end replication problem. However, the regulation and physiological importance of t-loops in end-protection remains uncertain. Here, we identify a CDK phosphorylation site in the shelterin subunit, TRF2 (Ser365), whose dephosphorylation in S-phase by the PP6C/R3 phosphatase provides a narrow window during which the helicase RTEL1 is able to transiently access and unwind t-loops to facilitate telomere replication. Re-phosphorylation of TRF2 on Ser365 outside of S-phase is required to release RTEL1 from telomeres, which not only protects t-loops from promiscuous unwinding and inappropriate ATM activation, but also counteracts replication conflicts at DNA secondary structures arising within telomeres and across the genome. Hence, a phospho-switch in TRF2 coordinates assembly and disassembly of t-loops during the cell cycle, which protects telomeres from replication stress and an unscheduled DNA damage response.

Project description:Gene expression results from mRNA - RNA-binding protein (RBP) interactions within messenger ribonucleoprotein (mRNP) particles. We identified heterogeniety of nuclear mRNP composition involved in mRNA biogenesis and export with different occupancy and stoichiometry of RNA-binding proteins. Especially, mRNA export adopter protein Yra1 showed large variation of its stoichiometry on single mRNPs. We identified stoichiometry of Yra1 in the nuclear cap binding complex (Cbp80) bound mRNPs and it can be dissected into two categories (one and multiple Yra1 bound mRNPs). Multiple Yra1 containing mRNPs specifically co-occupied with THO complex (Hpr1). To investigate gene dependency to form different Yra1 stoichiometry mRNPs, we performed RNA-IP experiment for Yra1 with two step purification by Cbp80/Yra1 and Hpr1/Yra1.

Project description:Comparison of mRNA levels in four yeast strains grown in SC medium and shifted for 2.5h to 37C: YRA1 wild-type, YRA1 mlp2Δ GFP-yra1-8, and GFP-yra1-8 mlp2Δ

Project description:Comparison of cDNA from RNA of yra1-1 temperature-sensitive mutant to RNA from Yra1 wildtype strain both at the non-permissive temperature of 37C