57 research outputs found

    Unravelling the birl : using basic computer technology to understand traditional fiddle decorations

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    On first hearing : the John Junner Collection of Scottish and Irish music recordings

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    Folk - Music

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    This photographic essay is offered as a reflective gallery space among the text-based debate, ideas, arguments, and opinions in this special edition. On 14 August 1985, I had a falling out with my friend and fellow musician and musicologist David Johnson (1942-2009), on account of a review I had written of his seminal book Scottish Fiddle Music in the Eighteenth Century for the journal Cencrastus. I remember the precise date, as David chose to challenge me on the matter while we sat together waiting nervously in the green room at the Queens Hall, minutes before we were to take the stage in Mr Menuhin’s Delight, an Edinburgh International Festival concert of Scottish fiddle music

    DNA polymerase α (swi7) and the flap endonuclease fen1 (rad2) act together in the s-phase alkylation damage response in S. pombe

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    Polymerase α is an essential enzyme mainly mediating Okazaki fragment synthesis during lagging strand replication. A specific point mutation in Schizosaccharomyces pombe polymerase α named swi7-1, abolishes imprinting required for mating-type switching. Here we investigate whether this mutation confers any genome-wide defects. We show that the swi7-1 mutation renders cells hypersensitive to the DNA damaging agents methyl methansulfonate (MMS), hydroxyurea (HU) and UV and incapacitates activation of the intra-S checkpoint in response to DNA damage. In addition we show that, in the swi7-1 background, cells are characterized by an elevated level of repair foci and recombination, indicative of increased genetic instability. Furthermore, we detect novel Swi1-, -Swi3- and Pol α- dependent alkylation damage repair intermediates with mobility on 2D-gel that suggests presence of single-stranded regions. Genetic interaction studies showed that the flap endonuclease Fen1 works in the same pathway as Pol α in terms of alkylation damage response. Fen1 was also required for formation of alkylation- damage specific repair intermediates. We propose a model to explain how Pol α, Swi1, Swi3 and Fen1 might act together to detect and repair alkylation damage during S-phase

    Identification of a novel type of spacer element required for imprinting in fission yeast

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    Asymmetrical segregation of differentiated sister chromatids is thought to be important for cellular differentiation in higher eukaryotes. Similarly, in fission yeast, cellular differentiation involves the asymmetrical segregation of a chromosomal imprint. This imprint has been shown to consist of two ribonucleotides that are incorporated into the DNA during laggingstrand synthesis in response to a replication pause, but the underlying mechanism remains unknown. Here we present key novel discoveries important for unravelling this process. Our data show that cis-acting sequences within the mat1 cassette mediate pausing of replication forks at the proximity of the imprinting site, and the results suggest that this pause dictates specific priming at the position of imprinting in a sequence-independent manner. Also, we identify a novel type of cis-acting spacer region important for the imprinting process that affects where subsequent primers are put down after the replication fork is released from the pause. Thus, our data suggest that the imprint is formed by ligation of a not-fullyprocessed Okazaki fragment to the subsequent fragment. The presented work addresses how differentiated sister chromatids are established during DNA replication through the involvement of replication barriers

    The extent of error-prone replication-restart by homologous recombination is controlled by Exo1 and checkpoint proteins

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    Genetic instability, a hallmark of cancer, can occur when the replication machinery encounters a barrier. The intra-S phase checkpoint maintains stalled replication forks in a replication-competent configuration by phosphorylating replisome components and DNA repair proteins to prevent forks from catastrophically collapsing. Here we report a novel Chk1- and Cds1Chk2-independent function for Rad3ATR, the core S. pombe checkpoint sensor kinase: Rad3ATR regulates the association of recombination factors with collapsed forks thus limiting their genetic instability. We further reveal antagonistic roles for Rad3ATR and the 9-1-1 clamp: Rad3ATR restrains MRN- and Exo1-dependent resection while the 9-1-1 complex promotes Exo1 activity. Interestingly the MRN complex, but not its nuclease activity, promotes resection and the subsequent association of recombination factors at collapsed forks. The biological significance of this regulation is revealed by the observation that Rad3ATR prevents Exo1-dependent genome instability upstream a collapsed fork without affecting the efficiency of recombination-mediated replication-restart. We propose the interplay between Rad3ATR and the 9-1-1 clamp functions to fine-tune the balance between the need for recovery of replication via recombination and the risk of increased genome instability

    Essential roles of three enhancer sites in σ54-dependent transcription by the nitric oxide sensing regulatory protein NorR

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    The bacterial activator protein NorR binds to enhancer-like elements, upstream of the promoter site, and activates σ54-dependent transcription of genes that encode nitric oxide detoxifying enzymes (NorVW), in response to NO stress. Unique to the norVW promoter in Escherichia coli is the presence of three enhancer sites associated with a binding site for σ54-RNA polymerase. Here we show that all three sites are required for NorR-dependent catalysis of open complex formation by σ54-RNAP holoenzyme (Eσ54). We demonstrate that this is essentially due to the need for all three enhancers for maximal ATPase activity of NorR, energy from which is used to remodel the closed Eσ54 complex and allow melting of the promoter DNA. We also find that site-specific DNA binding per se promotes oligomerisation but the DNA flanking the three sites is needed to further stabilise the functional higher order oligomer of NorR at the enhancers
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