AbstractMitochondria perform a myriad of biochemical functions in the cell that integrate ATP production and metabolism. While mitochondria contain their own genome, mtDNA, it only encodes thirteen proteins required for oxidative phosphorylation, thus well over one thousand proteins required for all mitochondrial functions are encoded in the nucleus. One such protein is Drosophila Clueless (Clu), whose vertebrate homolog is Clustered mitochondria homolog (Cluh). Clu/Cluh is a ribonucleoprotein that regulates mRNAs destined for import into mitochondria and is an essential protein that regulates cellular metabolism. Clu forms large particles in the cytoplasm, although how these particles relate to nutrition and metabolic stress is unknown. Using live-imaging, we show Clu particles are highly dynamic. Clu particles appear to be unique as they do not colocalize with many known cytoplasmic bodies. In addition, Clu particle formation is highly dependent on diet as ovaries from starved females no longer contain Clu particles although Clu protein levels remain the same and insulin is necessary and sufficient for Clu particle formation. Oxidative stress also disperses particle. Since Clu particles are only present under optimal conditions we are naming them bliss particles. These observations identify Clu particles as unique, stress-sensitive cytoplasmic ribonucleoprotein particles whose absence corresponds with altered mitochondrial function and localization.
Variational Problems with Partial Fractional Derivative: Optimal Conditions and Noether’s Theorem
