Project description:Biosynthesis of mitochondrial genome-encoded proteins is carried out by the mitoribosome, a specialized apparatus that has evolved and diverged dramatically since its bacterial origin. Recent studies across various eukaryotes have demonstrated widespread structural and compositional diversity of mitoribosomes. We used affinity pulldown of four mitoribosomal proteins to carry out a detailed analysis of mitoribosomes in Diplonema papillatum, the type species of diplonemids, a widespread group of single-celled marine flagellates. Using as baits mitoribosomal proteins integrating at distinct sites and phases during subunit maturation also allowed us to sample populations of mitoribosome assembly intermediates.
Project description:Biosynthesis of mitochondrial genome-encoded proteins is carried out by the mitoribosome, a specialized apparatus that has evolved and diverged dramatically since its bacterial origin. Recent studies across various eukaryotes have demonstrated widespread structural and compositional diversity of mitoribosomes. We used affinity pulldown of four mitoribosomal proteins to carry out a detailed analysis of mitoribosomes in Diplonema papillatum, the type species of diplonemids, a widespread group of single-celled marine flagellates. Using as baits mitoribosomal proteins integrating at distinct sites and phases during subunit maturation also allowed us to sample populations of mitoribosome assembly intermediates.
Project description:Chlorella sp. HS2 is a halotolerant microalga exhibiting relatively high biomass productivity and substantially high lipid accumulation in marine growth media, which suggests this alga as an important crop for industrial algal cultivation systems. To determine pathways leading to HS2's acclimation responses to salt stress, we performed RNA-seq analysis with triplicated cultures grown in freshwater and marine media at both exponential and stationary growth phases. We then run de novo assembly to obtain HS2 transcriptome, which in turn was annotated and processed to extract dysregulated pathways. Results showed a large proportion of down-regulated genes, for instance photosynthesis and TCA pathways. Photosynthesis appeared, however, to recover at the stationary phase, while the general down-regulation pattern was maintained.
