Publications by authors named "Ines Gomes Castro"
Actively maintained close appositions between organelle membranes, also known as contact sites, enable the efficient transfer of biomolecules between cellular compartments. Several such sites have been described as well as their tethering machineries. Despite these advances we are still far from a comprehensive understanding of the function and regulation of most contact sites.
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- Membrane contact sites are specialized interactions between organelles that facilitate metabolite exchange and their dynamic influence on each other.
- Ymr160w (Cvm1) was identified as a new component at these contact sites, notably between the vacuole and other organelles like the mitochondria, impacting lipid homeostasis.
- Cvm1 levels were found to affect sphingolipid balance, with changes triggering the formation of contact sites in response to decreased sphingolipid levels, highlighting the role of lysosomal contacts in lipid regulation.
Peroxisomes host essential metabolic enzymes and are crucial for human health and survival. Although peroxisomes were first described over 60 years ago, their entire proteome has not yet been identified. As a basis for understanding the variety of peroxisomal functions, we used a high-throughput screen to discover peroxisomal proteins in yeast.
View Article and Find Full Text PDFThe eukaryotic cell is organized as a complex grid system where membrane-bound cellular compartments, organelles, must be localized to the right place at the right time. One way to facilitate correct organelle localization and organelle cooperation is through membrane contact sites, areas of close proximity between two organelles that are bridged by protein/lipid complexes. It is now clear that all organelles physically contact each other.
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