Defining the Pseudomonas Genus: Where Do We Draw the Line with Azotobacter?

The genus Pseudomonas has gone through many taxonomic revisions over the past 100 years, going from a very large and diverse group of bacteria to a smaller, more refined and ordered list having specific properties. The relationship of the Pseudomonas genus to Azotobacter vinelandii is examined using three genomic sequence-based methods. First, using 16S rRNA trees, it is shown that A. vinelandii groups within the Pseudomonas close to Pseudomonas aeruginosa. Genomes from other related organisms (Acinetobacter, Psychrobacter, and Cellvibrio) are outside the Pseudomonas cluster. Second, pan genome family trees based on conserved gene families also show A. vinelandii to be more closely related to Pseudomonas than other related organisms. Third, exhaustive BLAST comparisons demonstrate that the fraction of shared genes between A. vinelandii and Pseudomonas genomes is similar to that of Pseudomonas species with each other. The results of these different methods point to a high similarity between A. vinelandii and the Pseudomonas genus, suggesting that Azotobacter might actually be a Pseudomonas

ASCIZ regulates lesion-specific Rad51 focus formation and apoptosis after methylating DNA damage

Nuclear Rad51 focus formation is required for homology-directed repair of DNA double-strand breaks (DSBs), but its regulation in response to non-DSB lesions is poorly understood. Here we report a novel human SQ/TQ cluster domain-containing protein termed ASCIZ that forms Rad51-containing foci in response to base-modifying DNA methylating agents but not in response to DSB-inducing agents. ASCIZ foci seem to form prior to Rad51 recruitment, and an ASCIZ core domain can concentrate Rad51 in focus-like structures independently of DNA damage. ASCIZ depletion dramatically increases apoptosis after methylating DNA damage and impairs Rad51 focus formation in response to methylating agents but not after ionizing radiation. ASCIZ focus formation and increased apoptosis in ASCIZ-depleted cells depend on the mismatch repair protein MLH1. Interestingly, ASCIZ foci form efficiently during G1 phase, when sister chromatids are unavailable as recombination templates. We propose that ASCIZ acts as a lesion-specific focus scaffold in a Rad51-dependent pathway that resolves cytotoxic repair intermediates, most likely single-stranded DNA gaps, resulting from MLH1-dependent processing of base lesions

Male sexual dysfunction and HIV--a clinical perspective.

Sexual dysfunction in men with HIV is often overlooked by clinicians owing to many factors, including the taboo of sexuality. The improved life expectancy of patients with HIV requires physicians to consider their general wellbeing and sexual health with a renewed interest. However, data on sexual dysfunction in those with HIV are scarce. Erectile dysfunction (ED) is the most common sexual dysfunction in men, with a prevalence of ∼30-50% and is frequent even in men <40 years of age. HIV infection itself is the strongest predictor of ED, and many factors related to the infection-fear of virus transmission, changes in body image, HIV-related comorbidities, infection stigma, obligatory condom use-all impair erectile function. The diagnosis and treatment of sexual dysfunction is based on a multidisciplinary approach, which involves specialists in both infectious diseases and sexual medicine. Particular attention should be paid to the promotion of safer sex in these patients. This Review, describes the issues surrounding sexual dysfunction in men with HIV and aims to provide clinical advice for the physician treating these patients