LIM-kinase 1 effects on memory abilities and male courtship song in Drosophila depend on the neuronal type by A. V. Zhuravlev, E. S. Zalomaeva, E. S. Egozova, A. D. Emelin, V. V. Sokurova, E. A. Nikitina, E. V. Savvateeva-Popova

“…The signal pathway of actin remodeling, including LIM-kinase 1 (LIMK1) and its substrate cofilin, regulates multiple processes in neurons of vertebrates and invertebrates. Drosophila melanogaster is widely used as a model object for studying mechanisms of memory formation, storage, retrieval and forgetting. …”
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Synaptic enrichment and dynamic regulation of the two opposing dopamine receptors within the same neurons by Shun Hiramatsu, Kokoro Saito, Shu Kondo, Hidetaka Katow, Nobuhiro Yamagata, Chun-Fang Wu, Hiromu Tanimoto

“…In the fruit fly Drosophila melanogaster, Dop1R1 and Dop2R encode the D1- and D2-like receptors, respectively, and are reported to oppositely regulate intracellular cAMP levels. …”
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Diversity and functions of fungal VOCs with special reference to the multiple bioactivities of the mushroom alcohol by Guohua Yin, Geromy G. Moore, Joan Wennstrom Bennett

“…It is also produced by certain plants and functions as a semiochemical for numerous arthropods. The use of Drosophila melanogaster (fruit flies) as a model for testing the toxicity of fungal VOCs showed that some VOCs delayed metamorphosis and/or caused fly death at certain concentrations. …”
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Potential of emodepside for vector-borne disease control by Pattarapon Khemrattrakool, Thitipong Hongsuwong, Theerawit Phanphoowong, Patchara Sriwichai, Kittiyod Poovorawan, Joel Tarning, Kevin C. Kobylinski

“…Emodepside also has activity against Drosophila melanogaster SLO-1 channels. Orthologous SLO-1 genes are present in Anopheles gambiae and Aedes aegypti, suggesting that emodepside may have activity against mosquitoes. …”
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A nociceptor-specific RNAi screen in Drosophila larvae identifies RNA-binding proteins that regulate thermal nociception by Amber Dyson, Gita Gajjar, Katherine C. Hoffman, Dakota Lewis, Sara Palega, Erik Rangel Silva, James Auwn, Andrew Bellemer

“…The larvae of Drosophila melanogaster have been developed as a powerful model for studying mechanisms of nociception, nociceptor plasticity, and nociceptor development. …”
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Mitochondrial ROS modulate presynaptic plasticity in the drosophila neuromuscular junction by Irina Stavrovskaya, Bethany Kristi Morin, Stephen Madamba, Cliyahnelle Alexander, Alexis Romano, Samia Alam, Lucas Pavlov, Erna Mitaishvili, Pablo M. Peixoto

“…Here, we investigated this potential ROS role in presynaptic function and short-term plasticity by combining optogenetics, whole cell electrophysiological recordings, and live confocal imaging using a well-established protocol for induction and measurement of synaptic potentiation in Drosophila melanogaster neuromuscular junctions (NMJ). Optogenetic induction of ROS emission from presynaptic motorneuron mitochondria expressing mitokiller red (mK) resulted in synaptic potentiation, evidenced by an increase in the frequency of spontaneous mini excitatory junction potentials. …”
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Oxidative stress caused by 3-monochloro-1,2-propanediol provokes intestinal stem cell hyperproliferation and the protective role of quercetin by Zongzhong Liu, Yanfei He, Yuhan Wang, Kefeng Ren, Pengpeng Xia, Binbin Xie, Tian Wei

“…Here, we employed the adult intestine of Drosophila melanogaster, a notable invertebrate model organism, to investigate the intestinal toxicity of 3-MCPD and its underlying mechanisms. …”
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3D nanocomposites of β-TCP-H3BO3-Cu with improved mechanical and biological performances for bone regeneration applications by Sarvesh Kumar Avinashi, Rajat Kumar Mishra, Shweta, Saurabh Kumar, Amreen Shamsad, Shama Parveen, Surajita Sahu, Savita Kumari, Zaireen Fatima, Sachin Kumar Yadav, Monisha Banerjee, Monalisa Mishra, Neeraj Mehta, Chandki Ram Gautam

“…Genotoxicity and cytotoxicity tests were also performed on rearing Drosophila melanogaster, and these findings did not detect any trypan blue-positive staining, which further recommended that the existence of composites did not harm the larval gut. …”
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The Role of Extracts of Edible Parts and Production Wastes of Globe Artichoke (<i>Cynara cardunculus</i> L. var. <i>scolymus</i> (L.)) in Counteracting Oxidative Stress by Valentina Laghezza Masci, Irene Mezzani, Enrica Alicandri, William Tomassi, Anna Rita Paolacci, Stefano Covino, Vittorio Vinciguerra, Elisabetta Catalani, Davide Cervia, Mario Ciaffi, Stefania Garzoli, Elisa Ovidi

“…Furthermore, the in vivo beneficial effects of counteracting oxidative stress were evaluated in high sucrose-fed <i>Drosophila melanogaster</i>, as oxidative stress is a typical hallmark of hyperglycemic status. …”
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Toxicological assessment of citral and geraniol: Efflux pump inhibition in Staphylococcus aureus and invertebrate toxicity by Gildênia Alves de Araújo, Cícera Datiane de Morais Oliveira Tintino, Raimundo Luíz Silva Pereira, Isaac Moura Araújo, Cícera Laura Roque Paulo, João Arthur de Oliveira Borges, Ewerton Yago de Sousa Rodrigues, Ângella Eduarda da Silva, Francisco Assis Bezerra da Cunha, Zildene de Sousa Silveira, Nair Silva Macedo, Henrique Douglas Melo Coutinho, José Maria Barbosa Filho, Daniela Maria do Amaral Ferraz Navarro, Francisco Roberto de Azevedo, Saulo Relison Tintino

“…This study aimed to evaluate the antibacterial activity against multi-drug-resistant strains carrying efflux pumps and assess their toxicity on Drosophila melanogaster and Aedes aegypti models. Microdilution tests in broth were performed to determine the Minimum Inhibitory Concentration (MIC). …”
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Identification and quantification of transposable element transcripts using Long-Read RNA-seq in Drosophila germline tissues by Rebollo, Rita, Gerenton, Pierre, Cumunel, Eric, Mary, Arnaud, Sabot, François, Burlet, Nelly, Gillet, Benjamin, Hughes, Sandrine, S. Oliveira, Daniel, Goubert, Clément, Fablet, Marie, Vieira, Cristina, Lacroix, Vincent

“…Here we retrieved full-length cDNA  (TeloPrime, Lexogen) of Drosophila melanogaster gonads and sequenced them using Oxford Nanopore Technologies. …”
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A split-GAL4 driver line resource for Drosophila neuron types by Geoffrey W Meissner, Allison Vannan, Jennifer Jeter, Kari Close, Gina M DePasquale, Zachary Dorman, Kaitlyn Forster, Jaye Anne Beringer, Theresa Gibney, Joanna H Hausenfluck, Yisheng He, Kristin Henderson, Lauren Johnson, Rebecca M Johnston, Gudrun Ihrke, Nirmala A Iyer, Rachel Lazarus, Kelley Lee, Hsing-Hsi Li, Hua-Peng Liaw, Brian Melton, Scott Miller, Reeham Motaher, Alexandra Novak, Omotara Ogundeyi, Alyson Petruncio, Jacquelyn Price, Sophia Protopapas, Susana Tae, Jennifer Taylor, Rebecca Vorimo, Brianna Yarbrough, Kevin Xiankun Zeng, Christopher T Zugates, Heather Dionne, Claire Angstadt, Kelly Ashley, Amanda Cavallaro, Tam Dang, Guillermo A Gonzalez III, Karen L Hibbard, Cuizhen Huang, Jui-Chun Kao, Todd Laverty, Monti Mercer, Brenda Perez, Scarlett Rose Pitts, Danielle Ruiz, Viruthika Vallanadu, Grace Zhiyu Zheng, Cristian Goina, Hideo Otsuna, Konrad Rokicki, Robert R Svirskas, Han SJ Cheong, Michael-John Dolan, Erica Ehrhardt, Kai Feng, Basel EI Galfi, Jens Goldammer, Stephen J Huston, Nan Hu, Masayoshi Ito, Claire McKellar, Ryo Minegishi, Shigehiro Namiki, Aljoscha Nern, Catherine E Schretter, Gabriella R Sterne, Lalanti Venkatasubramanian, Kaiyu Wang, Tanya Wolff, Ming Wu, Reed George, Oz Malkesman, Yoshinori Aso, Gwyneth M Card, Barry J Dickson, Wyatt Korff, Kei Ito, James W Truman, Marta Zlatic, Gerald M Rubin, FlyLight Project Team

“…Split-GAL4 driver lines allow specific targeting of cell types in Drosophila melanogaster and other species. We describe here a collection of 3060 lines targeting a range of cell types in the adult Drosophila CNS and 1373 lines characterized in third-instar larvae. …”
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