Les frontieres de la maladie. Maladies latentes et maladies attenuees.

LEIDSSTELSELOPLADEN-RUG0

Evolutionary mechanisms driving the evolution of a large polydnavirus gene family coding for protein tyrosine phosphatases

Background: Gene duplications have been proposed to be the main mechanism involved in genome evolution and in acquisition of new functions. Polydnaviruses (PDVs), symbiotic viruses associated with parasitoid wasps, are ideal model systems to study mechanisms of gene duplications given that PDV genomes consist of virulence genes organized into multigene families. In these systems the viral genome is integrated in a wasp chromosome as a provirus and virus particles containing circular double-stranded DNA are injected into the parasitoids' hosts and are essential for parasitism success. The viral virulence factors, organized in gene families, are required collectively to induce host immune suppression and developmental arrest. The gene family which encodes protein tyrosine phosphatases (PTPs) has undergone spectacular expansion in several PDV genomes with up to 42 genes. Results: Here, we present strong indications that PTP gene family expansion occurred via classical mechanisms: by duplication of large segments of the chromosomally integrated form of the virus sequences (segmental duplication), by tandem duplications within this form and by dispersed duplications. We also propose a novel duplication mechanism specific to PDVs that involves viral circle reintegration into the wasp genome. The PTP copies produced were shown to undergo conservative evolution along with episodes of adaptive evolution. In particular recently produced copies have undergone positive selection in sites most likely involved in defining substrate selectivity. Conclusion: The results provide evidence about the dynamic nature of polydnavirus proviral genomes. Classical and PDV-specific duplication mechanisms have been involved in the production of new gene copies. Selection pressures associated with antagonistic interactions with parasitized hosts have shaped these genes used to manipulate lepidopteran physiology with evidence for positive selection involved in adaptation to host targets

The application of intimate metadata in post-production

With the advent of ever more complex metadata schemes to describe content throughout the production and archiving process the possibility is arising to create and use additional information alongside the captured essence which enhances manipulation and content formatting capability in post-production. The creation and use of this "intimate metadata " is set to revolutionise production and post-production operations, and will be a core element of managing the convergence of content gathering and programme creation in IT-based systems. In this paper a number of forms of intimate metadata will be introduced and their applications and benefits described. Examples will be presented of specific metadata-based production carried out under the IST MetaVision project, ranging from innovative electronic camera implementation, incorporating temporal (motion) and 3-D (depth) metadata; its storage and post-production to a conformed output programme using intimate metadata to drive editing and format conversion processes; and compression and transcoding operations to create a wide range of distribution formats which re-use existing metadata. The architecture and particular challenges of implementing such a production chain will be described. Progress in the MetaVision project and the likely time-scale of results will be presented