Structure, Biology, and Applications of Filamentous Bacteriophages.

The closely related Escherichia coli Ff filamentous phages (f1, fd, and M13) have taken a fantastic journey over the past 60 years, from the urban sewerage from which they were first isolated, to their use in high-end technologies in multiple fields. Their relatively small genome size, high titers, and the virions that tolerate fusion proteins make the Ffs an ideal system for phage display. Folding of the fusions in the oxidizing environment of the E. coli periplasm makes the Ff phages a platform that allows display of eukaryotic surface and secreted proteins, including antibodies. Resistance of the Ffs to a broad range of pH and detergents facilitates affinity screening in phage display, whereas the stability of the virions at ambient temperature makes them suitable for applications in material science and nanotechnology. Among filamentous phages, only the Ffs have been used in phage display technology, because of the most advanced state of knowledge about their biology and the various tools developed for E. coli as a cloning host for them. Filamentous phages have been thought to be a rather small group, infecting mostly Gram-negative bacteria. A recent discovery of more than 10 thousand diverse filamentous phages in bacteria and archaea, however, opens a fascinating prospect for novel applications. The main aim of this review is to give detailed biological and structural information to researchers embarking on phage display projects. The secondary aim is to discuss the yet-unresolved puzzles, as well as recent developments in filamentous phage biology, from a viewpoint of their impact on current and future applications.

Developmental fluoxetine exposure differentially alters central and peripheral measures of the HPA system in adolescent male and female offspring.

A significant number of women suffer from depression during pregnancy and the postpartum period. Selective serotonin reuptake inhibitors (SSRIs) are commonly used to treat maternal depression. While maternal stress and depression have long-term effects on the physical and behavioural development of offspring, numerous studies also point to a significant action of developmental exposure to SSRIs. Surprisingly, preclinical data are limited concerning the combined effect of maternal depression and maternal SSRI exposure on neurobehavioural outcomes in offspring. Therefore, the aim of the present study was to determine how maternal fluoxetine treatment affects the developing HPA system of adolescent male and female offspring using a model of maternal adversity. To do this, gestationally stressed and non-stressed Sprague-Dawley rat dams were chronically treated throughout lactation with either fluoxetine (5mg/kg/day) or vehicle. Four groups of male and female adolescent offspring were used: (1) Prenatal Stress+Fluoxetine, (2) Prenatal Stress+Vehicle, (3) Fluoxetine alone, and (4) Vehicle alone. Primary results show that developmental fluoxetine exposure, regardless of prenatal stress, decreases circulating levels of corticosterone and reduces the expression of the glucocorticoid receptor (GR), and its coactivator the GR interacting protein (GRIP1), in the hippocampus. Interestingly, these effects occurred primarily in male, and not in female, adolescent offspring. Together, these results highlight a marked sex difference in the long-term effect of developmental exposure to SSRI medications that may differentially alter the capacity of the hippocampus to respond to stress.

[Diagnostic image (228). An African infant boy with genua vara]. / Diagnose in beeld (228). Een Afrikaanse peuter met genua vara.

In an African infant boy with genua vara rickets was diagnosed, and successfully treated with vitamin D and calcium.

A rare cause of rickets in a young child.

We present a case of nutritional rickets in a young child due to a macrobiotic diet. The child presented with important thoracic deformation and breathing difficulties. Plain radiographs appeared to be an excellent method for the diagnosis and follow-up of the bony lesions in this disorder. We describe the typical bony abnormalities related to this relative rare disease.