Using bodily displays to facilitating approach action outcomes within the context of a personally relevant task

Abstract Background Considerable attention has been paid to the effect of bodily (expansive and contractive) displays on affective, behavioral, and hormonal outcomes. However, the majority of past studies are limited by a lack of control groups with neutral displays and low personal relevance of the experimental tasks employed. The present study aimed to investigate the effect of adopting different bodily displays, including neutral displays, within the context of a personally relevant task. Methods In an experiment with healthy participants (N = 90), we investigated the effects of two different bodily manipulations (i.e., expansive and contractive), compared to a control group (i.e., neutral displays). Effects were evaluated in terms of completed valued action in addition to processes considered potentially helpful in preparing and motivating the individual to take valued action, including a change in emotion experience, action tendencies, and appraisals. Results Several main effects were detected and only few significant interaction effects were revealed. In case of group differences, results showed that expansive bodily displays outperformed the control group, leading to more positive emotions, more approach action tendencies, less negative emotion variability, and less avoidance action tendencies toward threat. Discussion These results mainly suggest that identifying a valued action and explicating the underlying motivational conflict may be beneficial regardless of bodily displays. This conclusion runs somewhat counter both to our hypotheses and to findings in recent meta‐analytic work. However, previous experiments have not evaluated the effect of bodily displays within a personally relevant context

The biofilm life cycle and virulence of pseudomonas aeruginosa are dependent on a filamentous prophage

Mature Pseudomonas aeruginosa biofilms undergo specific developmental events. Using a bacteriophage mutant, generated by deletion of the entire filamentous Pf4 prophage, we show that the phage is essential for several stages of the biofilm life cycle and that it significantly contributes to the virulence of P. aeruginosa in vivo. Here, we show for the first time that biofilms of the Pf4 phage-deficient mutant did not develop hollow centres or undergo cell death, typical of the differentiation process of wild-type (WT) P. aeruginosa PAO1 biofilms. Furthermore, microcolonies of the Pf4 mutant were significantly smaller in size and less stable compared with the WT biofilm. Small colony variants (SCVs) were detectable in the dispersal population of the WT biofilm at the time of dispersal and cell death, whereas no SCVs were detected in the effluent of the Pf4 mutant biofilm. This study shows that at the time when cell death occurs in biofilms of the WT, the Pf4 phage converts into a superinfective form, which correlates with the appearance of variants in the dispersal population. Unexpectedly, mice infected with the Pf4 mutant survived significantly longer than those infected with its isogenic WT strain, showing that Pf4 contributes to the virulence of P. aeruginosa. Hence, a filamentous prophage is a major contributor to the life cycle and adaptive behaviour of P. aeruginosa and offers an explanation for the prevalence of phage in this organism