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7301por Lebreton, Sebastien, Borrero-Echeverry, Felipe, Gonzalez, Francisco, Solum, Marit, Wallin, Erika A., Hedenström, Erik, Hansson, Bill S., Gustavsson, Anna-Lena, Bengtsson, Marie, Birgersson, Göran, Walker, William B., Dweck, Hany K. M., Becher, Paul G., Witzgall, Peter“…BACKGROUND: Mate finding and recognition in animals evolves during niche adaptation and involves social signals and habitat cues. Drosophila melanogaster and related species are known to be attracted to fermenting fruit for feeding and egg-laying, which poses the question of whether species-specific fly odours contribute to long-range premating communication. …”
Publicado 2017
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7302“…The Drosophila melanogaster “ always early” gene ( Dmaly ), which is required for G2/M cell-cycle control and spermatid differentiation, is one of the meiotic arrest genes. …”
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7303por Simon, Sabrina, Sagasser, Sven, Saccenti, Edoardo, Brugler, Mercer R., Schranz, M. Eric, Hadrys, Heike, Amato, George, DeSalle, Rob“…However, comparative studies focusing on early/embryonic stages during insect development are limited to a few taxa. Drosophila melanogaster is the paradigm for insect development, whereas comparative transcriptomic studies of embryonic stages of hemimetabolous insects are completely lacking. …”
Publicado 2017
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7304por Tsakiri, Eleni N., Gaboriaud-Kolar, Nicolas, Iliaki, Kalliopi K., Tchoumtchoua, Job, Papanagnou, Eleni-Dimitra, Chatzigeorgiou, Sofia, Tallas, Konstantinos D., Mikros, Emmanuel, Halabalaki, Maria, Skaltsounis, Alexios-Leandros, Trougakos, Ioannis P.“…Aims: Organismal aging can be delayed by mutations that either activate stress responses or reduce the nutrient-sensing pathway signaling; thus, by using Drosophila melanogaster as an in vivo experimental screening platform, we searched for compounds that modulate these pathways. …”
Publicado 2017
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7305por Xu, Tao, Park, Sung‐Soo, Giaimo, Benedetto Daniele, Hall, Daniel, Ferrante, Francesca, Ho, Diana M, Hori, Kazuya, Anhezini, Lucas, Ertl, Iris, Bartkuhn, Marek, Zhang, Honglai, Milon, Eléna, Ha, Kimberly, Conlon, Kevin P, Kuick, Rork, Govindarajoo, Brandon, Zhang, Yang, Sun, Yuqing, Dou, Yali, Basrur, Venkatesha, Elenitoba‐Johnson, Kojo SJ, Nesvizhskii, Alexey I, Ceron, Julian, Lee, Cheng‐Yu, Borggrefe, Tilman, Kovall, Rhett A, Rual, Jean‐François“…Importantly, in vivo analyses of the homologs of RBPJ and L3MBTL3 in Drosophila melanogaster and Caenorhabditis elegans demonstrate that the functional link between RBPJ and L3MBTL3 is evolutionarily conserved, thus identifying L3MBTL3 as a universal modulator of Notch signaling in metazoans.…”
Publicado 2017
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7306por Powell, Michelle, Pyati, Prashant, Cao, Min, Bell, Howard, Gatehouse, John A., Fitches, Elaine“…The Drosophila melanogaster (fruit fly) gene Diap1 encodes a protein referred to as DIAP1 (D rosophila Inhibitor of Apoptosis Protein 1) that acts to supress apoptosis in “normal” cells in the fly. …”
Publicado 2017
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7307“…They are core components of a signalling cascade that includes the BMP ligand decapentaplegic (DPP) and its antagonist short gastrulation (SOG) in Drosophila melanogaster. These components are very ancient, with orthologs involved in DV patterning in both protostomes and deuterostomes. …”
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7308por Hall, Hana, Medina, Patrick, Cooper, Daphne A., Escobedo, Spencer E., Rounds, Jeremiah, Brennan, Kaelan J., Vincent, Christopher, Miura, Pedro, Doerge, Rebecca, Weake, Vikki M.“…Photoreceptor neurons in Drosophila melanogaster provide a powerful model for studying the molecular changes involved in functional senescence of neurons since decreased visual behavior precedes retinal degeneration. …”
Publicado 2017
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7309por Chen, Xinping, Hall, Hana, Simpson, Jeffrey P., Leon-Salas, Walter D., Ready, Donald F., Weake, Vikki M.“…Here, we show that exposing Drosophila melanogaster to strong blue light induces oxidative stress including lipid peroxidation that results in retinal degeneration. …”
Publicado 2017
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7310por Jiang, Shuai, Wang, Lingling, Huang, Mengmeng, Jia, Zhihao, Weinert, Tobias, Warkentin, Eberhard, Liu, Conghui, Song, Xiaorui, Zhang, Haixia, Witt, Jennifer, Qiu, Limei, Peng, Guohong, Song, Linsheng“…DM9 domain was first identified in Drosophila melanogaster, and it was subsequently found to integrate with or without other protein domains across a wide range of invertebrates and vertebrates. …”
Publicado 2017
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7311por Enya, Sora, Yamamoto, Chikana, Mizuno, Hajime, Esaki, Tsuyoshi, Lin, Hsin-Kuang, Iga, Masatoshi, Morohashi, Kana, Hirano, Yota, Kataoka, Hiroshi, Masujima, Tsutomu, Shimada-Niwa, Yuko, Niwa, Ryusuke“…Here, we report phenotypic analysis of a complete loss-of-function mutant in the γ-glutamylcysteine synthetase catalytic subunit (Gclc) gene in the fruit fly Drosophila melanogaster. Gclc encodes the evolutionarily conserved catalytic component of the enzyme that conjugates glutamate and cysteine in the GSH biosynthesis pathway. …”
Publicado 2017
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7312por Fraser, Johanna E., De Bruyne, Jyotika Taneja, Iturbe-Ormaetxe, Iñaki, Stepnell, Justin, Burns, Rhiannon L., Flores, Heather A., O’Neill, Scott L.“…Wolbachia pipientis from Drosophila melanogaster (wMel) is an endosymbiotic bacterium that restricts transmission of human pathogenic flaviviruses and alphaviruses, including dengue, Zika, and chikungunya viruses, when introduced into the mosquito vector Aedes aegypti. …”
Publicado 2017
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7313por Moore, Brenda D., Martin, Jason, de Mena, Lorena, Sanchez, Jonatan, Cruz, Pedro E., Ceballos-Diaz, Carolina, Ladd, Thomas B., Ran, Yong, Levites, Yona, Kukar, Thomas L., Kurian, Justin J., McKenna, Robert, Koo, Edward H., Borchelt, David R., Janus, Christopher, Rincon-Limas, Diego, Fernandez-Funez, Pedro, Golde, Todd E.“…To evaluate the pathological relevance of these peptides, we expressed Aβ36–40 and Aβ42–43 in Drosophila melanogaster to evaluate inherent toxicity and potential modulatory effects on Aβ42 toxicity. …”
Publicado 2018
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7314por Citron, Y. Rose, Fagerstrom, Carey J., Keszthelyi, Bettina, Huang, Bo, Rusan, Nasser M., Kelly, Mark J. S., Agard, David A.“…Among the proteins that undergo a major transition is the Drosophila melanogaster protein centrosomin that contains a conserved carboxyl terminus motif, CM2. …”
Publicado 2018
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7315“…Its proper release after feeding is of extraordinary importance for nutrient uptake, regulation of metabolism, and growth. We used Drosophila melanogaster to shed light on the processes linking dietary leucine intake to insulin secretion. …”
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7316por Torres-Oliva, Montserrat, Schneider, Julia, Wiegleb, Gordon, Kaufholz, Felix, Posnien, Nico“…Drosophila melanogaster head development represents a valuable process to study the developmental control of various organs, such as the antennae, the dorsal ocelli and the compound eyes from a common precursor, the eye-antennal imaginal disc. …”
Publicado 2018
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7317“…In this study, we used a powerful in vivo platform Drosophila melanogaster to explore a wide spectrum of adverse effects exerted by dietary AgNPs at the organismal, cellular and molecular levels. …”
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7318por Abehsera, Shai, Zaccai, Shir, Mittelman, Binyamin, Glazer, Lilah, Weil, Simy, Khalaila, Isam, Davidov, Geula, Bitton, Ronit, Zarivach, Raz, Li, Shihao, Li, Fuhua, Xiang, Jianhai, Manor, Rivka, Aflalo, Eliahu D., Sagi, Amir“…Among these, are the CPAP3’s, a family of cuticular proteins, first identified in the hexapod Drosophila melanogaster and characterized by an N-terminal signaling peptide and three chitin-binding domains. …”
Publicado 2018
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7319miRNA suppression of a Notch repressor directs non-neuronal fate in Drosophila mechanosensory organspor Kavaler, Joshua, Duan, Hong, Aradhya, Rajaguru, de Navas, Luis F., Joseph, Brian, Shklyar, Boris, Lai, Eric C.“…We observe that binary cell fate choice in the Drosophila melanogaster peripheral sensory organ lineage is controlled by the non-neuronally expressed mir-279/996 cluster, with a majority of notum sensory organs exhibiting transformation of sheath cells into ectopic neurons. …”
Publicado 2018
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7320por Cackovic, Juliana, Gutierrez-Luke, Susana, Call, Gerald B., Juba, Amber, O’Brien, Stephanie, Jun, Charles H., Buhlman, Lori M.“…An Autosomal Recessive-Juvenile Parkinsonism (AR-JP) Drosophila melanogaster model exhibits DA neurodegeneration as well as aberrant mitochondrial dynamics and function. …”
Publicado 2018
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