which the TSN protein performed this role is unknown. Recently, the US researcher Emilio Gutiérrez has discovered that TSN acts as a scaffold protein by recruiting, through a highly disordered region, numerous protein components, among which are proteins previously located in the stress granules in other models study. Furthermore, the study found that the scaffold role of TSN is crucial for the architecture and function of stress granules. Among the specific plant components identified, SnRK1 kinase was found, a central sensor in the cellular response to situations of environmental and nutritional stress. The study shows that both the localization of SnRK1 in the stress granules and its interaction with TSN are crucial for their activation. The

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activation of SnRK1 could set in motion the molecular Hong Kong WhatsApp Number List mechanisms of response to the imposed stress situation, thus allowing the survival of cells and therefore of the organism. The work shows for the first time how the formation of stress granules interferes with the signaling induced by SnRK1, one of the most studied cellular pathways in eukaryotes. Sofia Pereira Pedro and Emiliano Bruner, from the Paleoneurology laboratory of the National Center for Research on Human Evolution (CENIEH), have just published in the Journal of Anatomy a study on the relationship between the parietal bone of the skull and the orientation of the head in modern humans, whose results suggest that the size of these bones does not influence the shape of the face, but does

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influence its orientation. The study uses geometric morphometry techniques, based on spatial models and multivariate statistics, to establish the shape of the different anatomical districts of the skull, as well as their relative position. The parietal regions of the skull and brain are particularly large and round in Homo sapiens , compared to other hominids or great apes. Another difference concerns the position of our orbits, which only in our species are positioned completely below the brain. The expansion of the parietal regions tilts the longitudinal axis of the brain, and therefore the functional axis of the head. “The larger the parietal region, the more pronounced the rotation of the orbits and the base of the skull. Considering this spatial influence,

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