Wednesday, May 17, 2017

RNAi screen focused on chaperone function in the fly eye

Raut S, Mallik B, Parichha A, V A, Sahi C, Kumar V. RNAi-Mediated Reverse Genetic Screen Identified Drosophila Chaperones Regulating Eye and Neuromuscular Junction Morphology. G3 (Bethesda). 2017 May 12. pii: g3.117.041632. PMID: 28500055.

From the abstract: "Accumulation of toxic proteins in neurons have been linked with the onset of neurodegenerative diseases ... Molecular chaperones help protein folding and resolubilization of unfolded proteins thereby reducing the protein aggregation stress. While most of the chaperones are expressed in neurons, their functional relevance largely remains unknown. Here, using bioinformatics analysis, we identified 95 Drosophila chaperones and classified them into seven different classes. Ubiquitous actin5C-Gal4 mediated RNAi knockdown revealed that about 50% of the chaperones are essential in Drosophila[.] Knocking down these genes in eyes revealed that about 30% of the essential chaperones are crucial for eye development. ..."

Monday, February 13, 2017

Genome-wide fly cell RNAi screen related to Wolbachia infection

White PM, Serbus LR, Debec A, Codina A, Bray W, Guichet A, Lokey RS, Sullivan W. Reliance of Wolbachia on High Rates of Host Proteolysis Revealed by a Genome-Wide RNAi Screen of Drosophila Cells. Genetics. 2017 Feb 3. pii: genetics.116.198903. PMID: 28159754.

From the abstract: "Wolbachia are gram-negative, obligate, intracellular bacteria carried by a majority of insect species worldwide. Here we use a Wolbachia-infected Drosophila cell line and genome-wide RNAi screening to identify host factors that influence Wolbachia titer. .. we identified 36 candidate genes that dramatically reduced Wolbachia titer and 41 that increased Wolbachia titer. ... knockdown of 7 genes in the host ubiquitin and proteolysis pathways significantly reduced Wolbachia titer. To test the in vivo relevance of these results, we found that drug and mutant inhibition of proteolysis reduced levels of Wolbachia in the Drosophila oocyte ... Given Wolbachia lack essential amino acid biosynthetic pathways, the reliance of Wolbachia on high rates of host proteolysis via ubiquitination and the ERAD pathways may be a key mechanism for provisioning Wolbachia with amino acids. In addition, the reliance of Wolbachia on the ERAD pathway and disruption of ER morphology suggests a previously unsuspected mechanism for Wolbachia's potent ability to prevent RNA virus replication."

Tuesday, January 24, 2017

RNAi and proteomics study identifies glial genes required for behavior

Ng FS, Sengupta S, Huang Y, Yu AM, You S, Roberts MA, Iyer LK, Yang Y, Jackson FR. TRAP-seq Profiling and RNAi-Based Genetic Screens Identify Conserved Glial Genes Required for Adult Drosophila Behavior. Front Mol Neurosci. 2016 Dec 22;9:146. PMID: 28066175; PMCID: PMC5177635.

From the abstract: "... Glial astrocytes and glia-neuron signaling ... have important modulatory functions in sleep, circadian behavior, memory and plasticity. To better understand mechanisms of glia-neuron signaling in the context of behavior, we have conducted cell-specific, genome-wide expression profiling of adult Drosophila astrocyte-like brain cells and performed RNA interference (RNAi)-based genetic screens ... Glial-specific expression of 653 RNAi constructs targeting 318 genes identified multiple factors associated with altered locomotor activity, circadian rhythmicity and/or responses to mechanical stress (bang sensitivity). ... These results strongly support the idea that glia-neuron communication is vital for adult behavior."

Friday, December 9, 2016

From the Department of Very Specific Phenotypes: in vivo RNAi screen related to formation of protrusions on the corneal lens of the fly eye

Minami R, Sato C, Yamahama Y, Kubo H, Hariyama T, Kimura KI. An RNAi Screen for Genes Involved in Nanoscale Protrusion Formation on Corneal Lens in Drosophila melanogaster. Zoolog Sci. 2016 Dec;33(6):583-591. PMID: 27927092.

From the abstract: "The "moth-eye" structure, which is observed on the surface of corneal lens in several insects, supports anti-reflective and self-cleaning functions due to nanoscale protrusions ... the mechanism of protrusion formation from cell-secreted substances is unknown. ... In the present study, we sought to identify genes involved in "moth-eye" structure, formation in order to elucidate the developmental mechanism of the protrusions in Drosophila. We re-examined the aberrant patterns in classical glossy-eye mutants by scanning electron microscope and classified the aberrant patterns into groups. Next, we screened genes encoding putative structural cuticular proteins and genes involved in cuticular formation using eye specific RNAi silencing methods combined with the Gal4/UAS expression system. We identified 12 of 100 candidate genes, such as cuticular proteins family genes (Cuticular protein 23B and Cuticular protein 49Ah), cuticle secretion-related genes (Syntaxin 1A and Sec61 ββ subunit), ecdysone signaling and biosynthesis-related genes (Ecdysone receptor, Blimp-1, and shroud), and genes involved in cell polarity/cell architecture (Actin 5C, shotgun, armadillo, discs large1, and coracle). Although some of the genes we identified may affect corneal protrusion formation indirectly through general patterning defects in eye formation, these initial findings have encouraged us to more systematically explore the precise mechanisms underlying the formation of nanoscale protrusions in Drosophila."

Tuesday, November 1, 2016

Methods reviews for in vivo RNAi screening in Drosophila

Four! RNAi-relevant methods papers in the recent Drosophila-focused issue of Methods in Molecular Biology:

Billmann M, Boutros M. Methods for High-Throughput RNAi Screening in Drosophila Cells. Methods Mol Biol. 2016;1478:95-116. PMID: 27730577.

Kaya-Çopur A, Schnorrer F. A Guide to Genome-Wide In Vivo RNAi Applications in Drosophila. Methods Mol Biol. 2016;1478:117-143. PMID: 27730578.

Zhou J, Tong C. Design and Methods of Large-Scale RNA Interference Screens in Drosophila. Methods Mol Biol. 2016;1470:163-9. PMID: 27581292. Chen X, Xu L.

Genome-Wide RNAi Screening to Dissect the TGF-β Signal Transduction Pathway. Methods Mol Biol. 2016;1344:365-77. PMID: 26520138.