Preparation of fluorescent in situ hybridisation probes without the need for optimisation of fragmentation.

DNA-fluorescence in situ hybridisation (DNA-FISH) allows visualisation of chromosome organisation and rearrangement. FISH probes are pools of short fluorescently labelled DNA fragments that are often produced from template plasmids that contain large genomic inserts. For effective sample penetration and target hybridisation it is critical that probe fragments are between 200 and 500bp.

Androgen synthesis in prostate cancer: do all roads lead to Rome?

The accumulation of high concentrations of signalling androgens within prostate tumours that progress despite use of androgen-deprivation therapy is a clinically important mechanism of the development of castration-resistant prostate cancer. In the past 5 years, data from a number of studies have increased our understanding of the enzymes and substrates involved in intratumoural androgen biosynthesis, and have implicated three competing pathways, which are likely to account for these observations. These pathways ('canonical', 'backdoor' and '5α-dione'), which can all ultimately generate the potent signalling androgen, dihydrotestosterone, involve many of the same enzymes, but differ in terms of substrate preference, reaction sequence and the organs and tissues in which they occur.

Target Acquired: Progress and Promise of Targeted Therapeutics in the Treatment of Prostate Cancer.

Cancer is fundamentally a genomic disease caused by mutations or rearrangements in the DNA or epigenetic machinery of a patient. An emerging field in cancer treatment targets key aberrations arising from the mutational landscape of an individual patient's disease rather than employing a cancer-wide cytotoxic therapy approach. In prostate cancer in particular, where there is an observed variation in response to standard treatments between patients with disease of a similar pathological stage and grade, mutationdirected treatment may grow to be a viable tool for clinicians to tailor more effective treatments.