Gestures and related skills in developmental coordination disorder: a production-system deficit?

International audienceThe present study investigated the nature and specificity of the gestural deficit in children with developmental coordination disorder (DCD). Performance of children with DCD is compared with that of typically developing children across tasks and conditions that allow exploring distinct levels hypothesized by adult models of praxis processing. These models generally involve a conceptual system and a production system. Within this theoretical framework, the study analyzed the extent to which the gestural difficulties of children with DCD are related to a deficit of the production system. Considering the heterogeneity of deficits consistently reported in DCD, we also examined whether gestural difficulties of children with DCD could imply impairments on other cognitive functions (executive functions, visual-perceptual, and visuospatial functions). Thirty children with DCD were compared to 30 typically developing children. The DCD group exhibited a deficit in most of the gesture production tasks (with the exception of representational intransitive ones), with impaired visuospatial skills. When controlling for a measure of visuospatial skill, differences between groups remained significant only for representational transitive gestures. This dysfunction could neither be related to a semantic deficit, nor to an impairment of sensorimotor knowledge. Therefore, if the contribution of a visuospatial dysfunction allows discussing the specificity of gestural deficit, this does not appear to explain the overall gestural deficit. We suggest an explanation of the finding within the assumption of a production-system deficit

Gestures and related skills in developmental coordination disorder: a production-system deficit?

International audienceThe present study investigated the nature and specificity of the gestural deficit in children with developmental coordination disorder (DCD). Performance of children with DCD is compared with that of typically developing children across tasks and conditions that allow exploring distinct levels hypothesized by adult models of praxis processing. These models generally involve a conceptual system and a production system. Within this theoretical framework, the study analyzed the extent to which the gestural difficulties of children with DCD are related to a deficit of the production system. Considering the heterogeneity of deficits consistently reported in DCD, we also examined whether gestural difficulties of children with DCD could imply impairments on other cognitive functions (executive functions, visual-perceptual, and visuospatial functions). Thirty children with DCD were compared to 30 typically developing children. The DCD group exhibited a deficit in most of the gesture production tasks (with the exception of representational intransitive ones), with impaired visuospatial skills. When controlling for a measure of visuospatial skill, differences between groups remained significant only for representational transitive gestures. This dysfunction could neither be related to a semantic deficit, nor to an impairment of sensorimotor knowledge. Therefore, if the contribution of a visuospatial dysfunction allows discussing the specificity of gestural deficit, this does not appear to explain the overall gestural deficit. We suggest an explanation of the finding within the assumption of a production-system deficit

The xylan utilization system of the plant pathogen Xanthomonas campestris pv campestris controls epiphytic life and reveals common features with oligotrophic bacteria and animal gut symbionts

Xylan is a major structural component of plant cell wall and the second most abundant plant polysaccharide in nature. Here, by combining genomic and functional analyses, we provide a comprehensive picture of xylan utilization by Xanthomonas campestris pv campestris (Xcc) and highlight its role in the adaptation of this epiphytic phytopathogen to the phyllosphere. The xylanolytic activity of Xcc depends on xylan-deconstruction enzymes but also on transporters, including two TonB-dependent outer membrane transporters (TBDTs) which belong to operons necessary for efficient growth in the presence of xylo-oligosaccharides and for optimal survival on plant leaves. Genes of this xylan utilization system are specifically induced by xylo-oligosaccharides and repressed by a LacI-family regulator named XylR. Part of the xylanolytic machinery of Xcc, including TBDT genes, displays a high degree of conservation with the xylose-regulon of the oligotrophic aquatic bacterium Caulobacter crescentus. Moreover, it shares common features, including the presence of TBDTs, with the xylan utilization systems of Bacteroides ovatus and Prevotella bryantii, two gut symbionts. These similarities and our results support an important role for TBDTs and xylan utilization systems for bacterial adaptation in the phyllosphere, oligotrophic environments and animal guts