Development of a technique to measure the residual strength of woodworm infested timber

This paper presents a study of the residual strength of Pinus sylvestris, which has been subject to attack by the furniture beetle (Anobium punctatum). It is relatively easy to stop the infestation, but difficult to assess the structural soundness of the remaining timber. Removal and replacement of affected structural elements is usually difficult and expensive, particularly in buildings of historic interest. Current on-site assessment procedures are limited. The main object of the study was to develop an on-site test of timber quality: a test which can be carried out on the surface and also at varying depths into the timber. It is based on a probe pull-out technique using a portable load-measuring device. Pull-out force values have been correlated with both strength and energy absorbed as measured by compression testing on laboratory samples of both sound and infested timber. These two relationships are significant and could be used to assess whether remedial work is needed. In addition, work on the use of artificial borings to simulate the natural worming of timber is presented and the findings discussed.

The 'Belfast' timber roof truss - is it sustainable and relevant today?

In the early 19th century the requirement for clear span industrial buildings brought about the development of a variety of timber truss types. The Belfast truss was introduced circa 1860 to meet the demand for efficient wide span industrial buildings. It has essentially a bow-string configuration with a curved top chord, straight horizontal bottom chord and close-spaced lattice web. Several thousand still exist in Ireland, many in buildings of historic significance. This paper sets out to demonstrate the efficiency of the Belfast truss and to show that, by modern structural design criteria, the concept, member sizes and joint details were well chosen. Trusses in historic buildings can be replicated almost exactly as originally fabricated. Results of a theoretical study are compared with the experimental behaviour of two full-scale trusses: one a replacement truss, tested in the laboratory; the other an 80-year-old truss tested on site. In addition, experimental results from a manufacturers archive material of full-scale truss tests carried out about 100 years ago are compared with theoretical models. As well as considering their significance in building conservation the paper proposes that Belfast trusses are an attractive sustainable alternative to other roof structures. The analysis, design, fabrication and testing of trusses have resulted in a better understanding of their behaviour which is not only of historic interest and fundamental to the repair/restoration of existing trusses, but also relevant to the design of modern timber trusses and the promotion of a sustainable form of roof construction.

Behaviour of joints with bonded-in steel bars loaded parallel to the grain of timber elements

Within the sustainability context, this paper is extremely timely and relevant. The research focuses on broadening the use of timber structurally. The insight gained forms the basis for sustainable, fire resistant, economic and aesthetically pleasing moment resistant connections in timber.

Relative metabolomic flux: Predicting changes in the environmental metabolome from the metagenome

Background: The world's oceans are home to a diverse array of microbial life whose metabolic activity helps to drive the earth's biogeochemical cycles. Metagenomic analysis has revolutionized our access to these communities, providing a system-scale perspective of microbial community interactions. However, while metagenome sequencing can provide useful estimates of the relative change in abundance of specific genes and taxa between environments or over time, this does not investigate the relative changes in the production or consumption of different metabolites.
Results: We propose a methodology, Predicted Relative Metabolic Turnover (PRMT) that defines and enables exploration of metabolite-space inferred from the metagenome. Our analysis of metagenomic data from a time-series study in the Western English Channel demonstrated considerable correlations between predicted relative metabolic turnover and seasonal changes in abundance of measured environmental parameters as well as with observed seasonal changes in bacterial population structure.
Conclusions: The PRMT method was successfully applied to metagenomic data to explore the Western English Channel microbial metabalome to generate specific, biologically testable hypotheses. Generated hypotheses linked organic phosphate utilization to Gammaproteobactaria, Plantcomycetes, and Betaproteobacteria, chitin degradation to Actinomycetes, and potential small molecule biosynthesis pathways for Lentisphaerae, Chlamydiae, and Crenarchaeota. The PRMT method can be applied as a general tool for the analysis of additional metagenomic or transcriptomic datasets.

A calcium-dependent interaction between calmodulin and the calponin homology domain of human IQGAP1

IQGAPs are cytoskeletal scaffolding proteins which collect information from a variety of signalling pathways and pass it on to the microfilaments and microtubules. There is a well-characterised interaction between IQGAP and calmodulin through a series of IQ-motifs towards the middle of the primary sequence. However, it has been shown previously that the calponin homology domain (CHD), located at the N-terminus of the protein, can also interact weakly with calmodulin. Using a recombinant fragment of human IQGAP1 which encompasses the CHD, we have demonstrated that the CHD undergoes a calcium ion-dependent interaction with calmodulin. The CHD can also displace the hydrophobic fluorescent probe 1-anilinonaphthalene-8-sulphonate from calcium-calmodulin, suggesting that the interaction involves non-polar residues on the surface of calmodulin. Molecular modelling identified a possible site on the CHD for calmodulin interaction. The physiological significance of this interaction remains to be discovered.

Old drug, New target:Ellipticines selectively inhibit RNA Polymerase I transcription

Transcription byRNApolymerase I (Pol-I) is the main driving force behind ribosome biogenesis, a fundamental cellular process that requires the coordinated transcription of all three nuclear polymerases. Increased Pol-I transcription and the concurrent increase in ribosome biogenesis has been linked to the high rates of proliferation in cancers. The ellipticine family contains a number of potent anticancer therapeutic agents, some having progressed to stage I and II clinical trials; however, the mechanism by which many of the compounds work remains unclear. It has long been thought that inhibition of Top2 is the main reason behind the drugs antiproliferative effects. Here we report that a number of the ellipticines, including 9-hydroxyellipticine, are potent and specific inhibitors of Pol-I transcription, with IC50 in vitro and in cells in the nanomolar range. Essentially, the drugs did not affect Pol-II and Pol-III transcription, demonstrating a high selectivity.Wehave shown that Pol-I inhibition occurs by a p53-, ATM/ATR-, and Top2-independent mechanism. We discovered that the drug influences the assembly and stability of preinitiation complexes by targeting the interaction between promoter recognition factor SL1 and the rRNA promoter. Our findings will have an impact on the design and development of novel therapeutic agents specifically targeting ribosome biogenesis.

Investigation of the mechanism of repression of rRNA synthesis by an anticancer drug

Ribosome biogenesis is a fundamental cellular process which is tightly regulated in normal cells. A number of tumour suppressors and oncogenes could affect the production of ribosomes at different levels and an upregulation could lead to increased protein biosynthesis which is one of the characteristic features of all cancer cells. Ribosome biogenesis is a very complex process which requires coordinated transcription by all three nucleolar polymerases and the first event in this process is synthesis of ribosomal RNA (rRNA) by RNA Polymerase I (Pol I). Importantly, recent data has pictured rRNA transcription as a key regulator of whole ribosome biogenesis and therefore makes it a valid and very attractive target for anticancer therapy, as well as a perspective biomarker. However, at the moment there is only one known specific inhibitor of Pol I transcription (at stage one of clinical trials) and this makes it very difficult for the development of drugs which would target rRNA transcription and consequently ribosome biogenesis. We have recently discovered that antitumor alkaloid ellipticine (isolated in 1959 from the plant species Ochrosia) is a potent inhibitor of Pol I transcription (both in vitro and in vivo). Ellipticine and its derivatives are known as efficient topoisomerase II inhibitors and inhibitors of some kinases, however we have shown that these inhibitory activities and the ability of ellipticine to repress Pol I activity are unrelated. Moreover, our preliminary data suggests that ellipticine specifically targets Pol I transcription and it has no effect on transcription by Pol II and Pol III at the same time scale. The possible mechanisms of inhibition of Pol I transcription by ellipticines will be discussed.

qPCR utilization for the study of RNA Polymerase I transcription

Ribosome biogenesis is a fundamental cellular process tightly linked to cell growth and proliferation, which requires the coordinated transcription of all three nuclear polymerases. Synthesis of ribosomal RNA (rRNA) by RNA polymerase I (Pol I) has been suggested as a key regulator of ribosome biogenesis, and there is a strong link between transcription of ribosomal RNAs and cellular proliferation. This makes Pol I transcription a valid and attractive target for anticancer therapy. At the moment however there are only a small number of compounds that act as specific inhibitors of Pol I transcription and this makes it very difficult for the development of drugs which would target rRNA transcription and consequently ribosome biogenesis. Therefore, to aid in the development of new inhibitors of Pol I, high-throughput methods to monitor and detect changes in Pol I activity need to be developed. This current study aimed to address the question of whether or not quantitative PCR (qPCR) could be used to detect changes in rRNA production in cells under different conditions that repress Pol I activity i.e. serum starvation and drug treatment. Our results have shown that using primers and a hydrolysis probe designed for the 5’ETS region of the pre-rRNA molecule, rRNA levels in both treated and untreated cells could be determined by using qPCR.
Amplification resulted in formation of a single product and S1 nuclease protection assay confirmed the down-regulation of Pol I transcription. Following serum-starvation and drug treatment there was a dramatic reduction in the amount of 5’ETS transcript quantitated by both Sybr Green chemistry and the use of a fluorescently labelled hydrolysis probe. The optimization of the qPCR strategy will be discussed.

Inhibition of ribosome biogenesis induces apoptosis in p53-/- cells

The nucleolus is an important region of the nucleus that acts as the main site of rRNA transcription by RNA polymerase I (Pol-I), and one of the most prominent morphological markers of proliferative and invasive cancers is increased nucleolar size. Increases in Pol-I transcription leads to increased levels of ribosome biogenesis that are able to fuel rapid cell growth and proliferation due to increased ribosome numbers. Therefore Pol-I transcription seems a viable target for the development of anticancer therapeutics as abrogation of Pol-I transcription leads to cessation of cell growth and eventual cell death. We have confirmed that ellipticine compound, 9-Hydroxyellipticine (9HE), is an efficient inhibitor of Pol-I transcription in vitro and in p53+/+ and -/- cell lines in vivo. Short-term treatments (≤24 h) with micromolar concentrations of 9HE leads to decreased cell viability and proliferation, and leads to activation of caspases 3, 8 and 9, indicating that both intrinsic and extrinsic cell death mechanisms are activated upon Pol-I inhibition. Reactive oxygen species levels were also studied following short and long term treatments with 9HE and there was a 2/3-fold increase in cellular ROS levels. Long-term 9HE treatment (≥24 h) leads to cellular senescence as indicated by increased cellular morphology and senescence associated β-galactosidase staining, and this senescence is not accompanied by induction of autophagy. Following 24 h treatment there is also accumulation of cells in the G0/G1 phase of the cell cycle and qPCR analysis of cell cycle regulators shows down-regulation of G1/S transition associated cyclins. These data show that Pol-I transcription is a viable target for the development of novel chemotherapeutics, although further delineation of the cell death pathways remains. To further elucidate the mechanism, the role of mitochondrial death signals will be investigated by determination of cytochrome c release and regulation of Bcl2 family member proteins.