Pronounced interstrain differences in the microRNA levels are alleviated after heat shock (HS) to form a uniform microRNA pattern. This study investigated the cross-talk between two highly conserved and universal house-keeping systems, the HSR and microRNA machinery, in Drosophila melanogaster. This may be partly achieved by modulating microRNA levels that control the expression of a great number of genes that are embedded within the gene circuitry. The genome expression pattern is strongly modified during the heat shock response (HSR) to form an adaptive state. Interplay between RNA interference and heat shock response systems in Drosophila melanogaster Heat shock protein 22 - ID: FBgn0001223.Heat shock protein 23 - ID: FBgn0001224.Heat shock protein 26 - ID: FBgn0001225.Heat shock protein 27 - ID: FBgn0001226.Heat shock protein 68 - ID: FBgn0001230.Heat shock protein cognate 6 - ID: FBgn0001221.Heat shock protein cognate 5 - ID: FBgn0001220.Heat shock protein cognate 4 - ID: FBgn0001219.Heat shock protein cognate 3 - ID: FBgn0001218.Heat shock protein cognate 2 - ID: FBgn0001217.Heat shock protein cognate 1 - ID: FBgn0001216.RNA polymerase II elongation factor (TfIIS).rapamycin-insensitive companion of Tor (rictor).Heat shock factor Proteins and RNAs that mediate the magnitude and efficiency of the heat shock response.Hsp70 overexpression in Drosophila hemocytes attenuates benzene-induced immune and developmental toxicity via regulating ROS/JNK signaling pathway.Elevation of major constitutive heat shock proteins is heat shock factor independent and essential for establishment and growth of Lgl loss and Yorkie gain-mediated tumors in Drosophila.A functional study of the role of Turandot genes in Drosophila melanogaster: An emerging candidate mechanism for inducible heat tolerance.Heterogeneity in the Response of Different Subtypes of Drosophila melanogaster Midgut Cells to Viral Infections.Loss of Hsp67Bc leads to autolysosome enlargement in the Drosophila brain.mTORC1-chaperonin CCT signaling regulates m(6)A RNA methylation to suppress autophagy.Small heat shock protein Hsp67Bc plays a significant role in Drosophila melanogaster cold-stress tolerance.Small heat shock proteins determine synapse number and neuronal activity during development.The molecular chaperone Hsp70 from the thermotolerant Diptera species differs from the Drosophila paralog in its thermostability and higher refolding capacity at extreme temperatures.Expression of hsromega-RNAi transgene prior to heat shock specifically compromises accumulation of heat shock-induced Hsp70 in Drosophila melanogaster.Heat shock proteins, chaperones and chaperonins Genomic knockout of hsp23 both decreases and increases fitness under opposing thermal extremes in Drosophila melanogaster.Simulated mobile communication frequencies (3.5 GHz) emitted by a signal generator affects the sleep of Drosophila melanogaster.The histone replacement gene His4r is involved in heat stress induced chromatin rearrangement.Expression of thermal tolerance genes in two Drosophila species with different acclimation capacities.Linear ubiquitination by LUBEL has a role in Drosophila heat stress response.Interplay between RNA interference and heat shock response systems in Drosophila melanogaster.Heat shock factor and heat stress response What is the Difference Between Chaperones and Chaperonins Zygotically transcribed genes Heat shock factor, heat shock proteins, chaperones and chaperonins Drosophila gene families: heat shock proteins, chaperones and chaperonins Gene Families
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