Fly Labs and References


A B C D E F G H I J K L M N O P Q R S T U V W X Y Z


  • Marie Fablet Laboratoire Biométrie et Biologie Évolutive, CNRS, Université Claude Bernard, Lyon, France
    Merel, V., Boulesteix, M., Fablet, M. and Vieira, C. (2020). Transposable elements in Drosophila. Mob DNA 11: 23. PubMed ID: 32636946

    Roy, M., Viginier, B., Saint-Michel, E., Arnaud, F., Ratinier, M. and Fablet, M. (2020). Viral infection impacts transposable element transcript amounts in Drosophila. Proc Natl Acad Sci U S A 117(22): 12249-12257. PubMed ID: 32434916

    Fablet, M., Jacquet, A., Rebollo, R., Haudry, A., Rey, C., Salces-Ortiz, J., Bajad, P., Burlet, N., Jantsch, M. F., Guerreiro, M. P. G. and Vieira, C. (2019). Dynamic Interactions Between the Genome and an Endogenous Retrovirus: Tirant in Drosophila simulans Wild-Type Strains. G3 (Bethesda) 9(3): 855-865. PubMed ID: 30658967

  • Ming Fang College of Basic Medicine, Gansu University of Chinese Medicine, Lanzhou, China.
    Cheng, Q., Xie, H., Zhang, X. Y., Wang, M. Y., Bi, C. L., Wang, Q., Wang, R. and Fang, M. (2022). An essential role for PTIP in mediating Hox gene regulation along PcG and trxG pathways. Febs j. PubMed ID: 35655387

    Bi, C. L., Cheng, Q., Yan, L. Y., Wu, H. Y., Wang, Q., Wang, P., Cheng, L., Wang, R., Yang, L., Li, J., Tie, F., Xie, H. and Fang, M. (2022). A prominent gene activation role for C-terminal binding protein in mediating PcG/trxG proteins through Hox gene regulation. Development 149(11). PubMed ID: 35666088

    Zhang, Y., Xia, S., Mikesell, L., Whisman, N., Fang, M., Steenwinkel, T. E., Chen, K., Luck, R. L., Werner, T. and Liu, H. (2019). Near-Infrared Hybrid Rhodol Dyes with Spiropyran Switches for Sensitive Ratiometric Sensing of pH Changes in Mitochondria and Drosophila melanogaster First-Instar Larvae. ACS Appl Bio Mater 2(11): 4986-4997. PubMed ID: 31912007

    Xun, Q., Bi, C., Cui, X., Wu, H., Wang, M., Liao, Y., Wang, R., Xie, H., Shen, Z. and Fang, M. (2018). MagT1 is essential for Drosophila development through the shaping of Wingless and Decapentaplegic signaling pathways. Biochem Biophys Res Commun 503(2): 1148-1153. PubMed ID: 29959918

  • Laura Fanti Dottorato in Genetica e Biologia Molecolare, Università di Roma
    Marcella, M., Piacentini, L., Berloco, M. F., Casale, A. M., Cappucci, U., Pimpinelli, S. and Fanti, L. (2022). Cytological heterogeneity of heterochromatin among 10 sequenced Drosophila species. Genetics. PubMed ID: 35946576

    Piacentini, L., Marchetti, M., Bucciarelli, E., Casale, A. M., Cappucci, U., Bonifazi, P., Renda, F. and Fanti, L. (2019). A role of the Trx-G complex in Cid/CENP-A deposition at Drosophila melanogaster centromeres. Chromosoma. PubMed ID: 31203392

    Casale, A. M., Cappucci, U., Fanti, L. and Piacentini, L. (2019). Heterochromatin protein 1 (HP1) is intrinsically required for post-transcriptional regulation of Drosophila germline stem cell (GSC) maintenance. Sci Rep 9(1): 4372. PubMed ID: 30867469
    Berloco, M., Palumbo, G., Piacentini, L., Pimpinelli, S. and Fanti, L. (2014). Position Effect Variegation and Viability Are Both Sensitive to Dosage of Constitutive Heterochromatin in Drosophila. G3 (Bethesda). PubMed ID: 25053704

    Messina, G., Damia, E., Fanti, L., Atterrato, M. T., Celauro, E., Mariotti, F. R., Accardo, M. C., Walther, M., Verni, F., Picchioni, D., Moschetti, R., Caizzi, R., Piacentini, L., Cenci, G., Giordano, E. and Dimitri, P. (2014). Yeti, an essential Drosophila melanogaster gene, encodes a protein required for chromatin organization. J Cell Sci 127: 2577-2588. PubMed ID: 24652835

    Bozzetti, M. P., Fanti, L., Di Tommaso, S., Piacentini, L., Berloco, M., Tritto, P. and Specchia, V. (2012). The "Special" crystal-Stellate System in Drosophila melanogaster Reveals Mechanisms Underlying piRNA Pathway-Mediated Canalization. Genet Res Int 2012: 324293. PubMed ID: 22567384

    Pimpinelli, S., Bonaccorsi, S., Fanti, L. and Gatti, M. (2011). Immunostaining of mitotic chromosomes from Drosophila larval brain. Cold Spring Harb Protoc 2011. PubMed ID: 21880821

  • Marie-Odile Fauvarque Institute of life sciences research and technologies, INSERM, Grenoble
    Fauvarque, M. O.

    Franco, G., Taillebourg, E., Delfino, E., Homolka, D., Gueguen, N., Brasset, E., Pandey, R. R., Pillai, R. S. and Fauvarque, M. O. (2023). The catalytic-dead Pcif1 regulates gene expression and fertility in Drosophila. Rna 29(5): 609-619. PubMed ID: 36754578

    Pandey, R. R., Delfino, E., Homolka, D., Roithova, A., Chen, K. M., Li, L., Franco, G., Vågbø, C. B., Taillebourg, E., Fauvarque, M. O. and Pillai, R. S. (2020). The Mammalian Cap-Specific m(6)Am RNA Methyltransferase PCIF1 Regulates Transcript Levels in Mouse Tissues. Cell Rep 32(7): 108038. PubMed ID: 32814042

    Crespo-Yanez, X., Aguilar-Gurrieri, C., Jacomin, A. C., Journet, A., Mortier, M., Taillebourg, E., Soleilhac, E., Weissenhorn, W. and Fauvarque, M. O. (2018). CHMP1B is a target of USP8/UBPY regulated by ubiquitin during endocytosis. PLoS Genet 14(6): e1007456. PubMed ID: 29933386

    Jacomin, A. C., Fauvarque, M. O. and Taillebourg, E. (2016). A functional endosomal pathway is necessary for lysosome biogenesis in Drosophila. BMC Cell Biol 17: 36. PubMed ID: 27852225

    Jacomin, A. C., Bescond, A., Soleilhac, E., Gallet, B., Schoehn, G., Fauvarque, M. O. and Taillebourg, E. (2015). The deubiquitinating enzyme UBPY is required for lysosomal biogenesis and productive autophagy in Drosophila. PLoS One 10: e0143078. PubMed ID: 26571504

    Perrin, J., Mortier, M., Jacomin, A. C., Viargues, P., Thevenon, D. and Fauvarque, M. O. (2014). The Nonaspanins TM9SF2 and TM9SF4 Regulate the Plasma Membrane Localization and Signalling Activity of the Peptidoglycan Recognition Protein PGRP-LC in Drosophila. J Innate Immun. PubMed ID: 25139117

    Engel, E., Viargues, P., Mortier, M., Taillebourg, E., Coute, Y., Thevenon, D. and Fauvarque, M. O. (2014). Identifying USPs regulating immune signals in. Cell Commun Signal 12: 41. PubMed ID: 25027767

    Taillebourg, E., Schneider, D. S. and Fauvarque, M. O. (2014). The Drosophila Deubiquitinating Enzyme dUSP36 Acts in the Hemocytes for Tolerance to Listeria monocytogenes Infections. J Innate Immun. PubMed ID: 24777180

    Fauvarque, M. O. (2014). Small flies to tackle big questions: assaying complex bacterial virulence mechanisms using Drosophila melanogaster. Cell Microbiol. PubMed ID: 24628939

  • Mel Feany Harvard Medical School, Department of Pathology, Brigham and Women's Hospital
    Maor, G., Dubreuil, R. R. and Feany, M. B. (2023). α-synuclein promotes neuronal dysfunction and death by disrupting the binding of ankyrin to β-spectrin. bioRxiv. PubMed ID: 37333277

    Olsen, A. L. and Feany, M. B. (2021). Parkinson's disease risk genes act in glia to control neuronal alpha-synuclein toxicity. Neurobiol Dis 159: 105482. PubMed ID: 34390834

    Sarkar, S., Olsen, A. L., Sygnecka, K., Lohr, K. M. and Feany, M. B. (2021). alpha-synuclein impairs autophagosome maturation through abnormal actin stabilization. PLoS Genet 17(2): e1009359. PubMed ID: 33556113

    Sarkar, S., Murphy, M. A., Dammer, E. B., Olsen, A. L., Rangaraju, S., Fraenkel, E. and Feany, M. B. (2020). Comparative proteomic analysis highlights metabolic dysfunction in alpha-synucleinopathy. NPJ Parkinsons Dis 6(1): 40. PubMed ID: 33311497

    Lohr, K. M., Frost, B., Scherzer, C. and Feany, M. B. (2020). Biotin rescues mitochondrial dysfunction and neurotoxicity in a tauopathy model. Proc Natl Acad Sci U S A 117(52): 33608-33618. PubMed ID: 33318181

    Olsen, A. L. and Feany, M. B. (2019). Glial alpha-synuclein promotes neurodegeneration characterized by a distinct transcriptional program in vivo. Glia. PubMed ID: 31267577

    Bardai, F. H., Ordonez, D. G., Bailey, R. M., Hamm, M., Lewis, J. and Feany, M. B. (2018). Lrrk promotes tau neurotoxicity through dysregulation of actin and mitochondrial dynamics. PLoS Biol 16(12): e2006265. PubMed ID: 30571694

    Ordonez, D. G., Lee, M. K. and Feany, M. B. (2018). alpha-synuclein induces mitochondrial dysfunction through spectrin and the actin cytoskeleton. Neuron 97(1): 108-124.e106. PubMed ID: 29249285

    Bardai, F. H., Wang, L., Mutreja, Y., Yenjerla, M., Gamblin, T. C. and Feany, M. B. (2017). A conserved cytoskeletal signaling cascade mediates neurotoxicity of FTDP-17 tau mutations in vivo. J Neurosci. PubMed ID: 29138281

    Etchegaray, J. I., Elguero, E. J., Tran, J. A., Sinatra, V., Feany, M. B. and McCall, K. (2016). Defective phagocytic corpse processing results in neurodegeneration and can be rescued by TORC1 activation. J Neurosci 36: 3170-3183. PubMed ID: 26985028

    Merlo, P., Frost, B., Peng, S., Yang, Y. J., Park, P. J. and Feany, M. (2014). p53 prevents neurodegeneration by regulating synaptic genes. Proc Natl Acad Sci U S A. PubMed ID: 25453105

    Hegde, V. R., Vogel, R. and Feany, M. B. (2014). Glia are critical for the neuropathology of complex I deficiency in Drosophila. Hum Mol Genet. PubMed ID: 24760769

  • David Featherstone Department of Biological Sciences, University of Illinois Chicago
    Ziegler, A. B., Augustin, H., Clark, N. L., Berthelot-Grosjean, M., Simonnet, M. M., Steinert, J. R., Geillon, F., Maniere, G., Featherstone, D. E. and Grosjean, Y. (2016). The amino acid transporter JhI-21 coevolves with glutamate receptors, impacts NMJ physiology, and influences locomotor activity in Drosophila larvae. Sci Rep 6: 19692. PubMed ID: 26805723

    Chen, K., Richlitzki, A., Featherstone, D. E., Schwarzel, M. and Richmond, J. E. (2011). Tomosyn-dependent regulation of synaptic transmission is required for a late phase of associative odor memory. Proc Natl Acad Sci U S A 108: 18482-18487. PubMed ID: 22042858

    Chen, K. and Featherstone, D. E. (2011). Pre and postsynaptic roles for Drosophila CASK. Mol Cell Neurosci 48: 171-182. PubMed ID: 21820054

    Ganesan, S., Karr, J. E. and Featherstone, D. E. (2011). Drosophila glutamate receptor mRNA expression and mRNP particles. RNA Biol 8: 771-781. PubMed ID: 21743295

    Paddock, B. E., Wang, Z., Biela, L. M., Chen, K., Getzy, M. D., Striegel, A., Richmond, J. E., Chapman, E. R., Featherstone, D. E. and Reist, N. E. (2011). Membrane penetration by synaptotagmin is required for coupling calcium binding to vesicle fusion in vivo. J Neurosci 31: 2248-2257. PubMed ID: 21307261

    Chen, K., Gracheva, E. O., Yu, S. C., Sheng, Q., Richmond, J. and Featherstone, D. E. (2010). Neurexin in embryonic Drosophila neuromuscular junctions. PLoS One 5: e11115. PubMed ID: 20559439

  • Ken Fedorka University of Central Florida, Orlando
    Nielsen, T. M., Baldwin, J. and Fedorka, K. M. (2023). Gene-poor Y-chromosomes substantially impact male trait heritabilities and may help shape sexually dimorphic evolution. Heredity (Edinb) 130(4): 236-241. PubMed ID: 36759734

    Kutch, I. C. and Fedorka, K. M. (2017). A test for Y-linked additive and epistatic effects on surviving bacterial infections in Drosophila melanogaster. J Evol Biol. PubMed ID: 28510293

    Fedorka, K. M., Kutch, I. C., Collins, L. and Musto, E. (2016). Cold temperature preference in bacterially infected Drosophila melanogaster improves survival but is remarkably suboptimal. J Insect Physiol 93-94: 36-41. PubMed ID: 27530304

    Kutch, I. C., Sevgili, H., Wittman, T. and Fedorka, K. M. (2014). Thermoregulatory strategy may shape immune investment in Drosophila melanogaster. J Exp Biol 217(Pt 20): 3664-3669. PubMed ID: 25147243

  • Svetlana A. Fedorova Institute of Cytology and Genetics, Genetics of Siberian Branch of the Russian Academy of Sciences, Novosibirsk, Russia
    Malkeyeva, D., Kiseleva, E. and Fedorova, S. A. (2021). Loss of Hsp67Bc leads to autolysosome enlargement in the Drosophila brain. Cell Biol Int. PubMed ID: 34719095

    Dorogova, N. V., Khruscheva, A. S., Galimova, I. A., Oshchepkov, D. Y., Maslov, D. E., Shvedkina, E. D., Akhmetova, K. A. and Fedorova, S. A. (2020). Migration of primordial germline cells is negatively regulated by surrounding somatic cells during early embryogenesis in Drosophila melanogaster. Vavilovskii Zhurnal Genet Selektsii 24(5): 525-532. PubMed ID: 33659837

    Dorogova, N. V., Galimova, Y. A., Bolobolova, E. U., Baricheva, E. M. and Fedorova, S. A. (2020). Loss of Drosophila E3 Ubiquitin Ligase Hyd Promotes Extra Mitosis in Germline Cysts and Massive Cell Death During Oogenesis. Front Cell Dev Biol 8: 600868. PubMed ID: 33240894

    Malkeyeva, D., Kiseleva, E. and Fedorova, S. (2020). Small heat shock protein Hsp67Bc plays a significant role in Drosophila melanogaster cold stress tolerance. J Exp Biol 223(Pt 21). PubMed ID: 32943578

    Fedorova, E. V., Dorogova, N. V., Bolobolova, E. U., Fedorova, S. A., Karagodin, D. A., Ogienko, A. A., Khruscheva, A. S. and Baricheva, E. M. (2019). GAGA protein is required for multiple aspects of Drosophila oogenesis and female fertility. Genesis 57(2): e23269. PubMed ID: 30537428

    Ignatenko, O. M., Zakharenko, L. P., Dorogova, N. V. and Fedorova, S. A. (2015). P elements and the determinants of hybrid dysgenesis have different dynamics of propagation in Drosophila melanogaster populations. Genetica 143(6): 751-759. PubMed ID: 26530414

  • Richard Fehon Department of Molecular Genetics and Cell Biology, The University of Chicago
    Tokamov, S. A., Su, T., Ullyot, A. and Fehon, R. G. (2021). Negative feedback couples Hippo pathway activation with Kibra degradation independent of Yorkie-mediated transcription. Elife 10. PubMed ID: 33555257

    Rich, A., Fehon, R. G. and Glotzer, M. (2020). Rho1 activation recapitulates early gastrulation events in the ventral, but not dorsal, epithelium of Drosophila embryos. Elife 9. PubMed ID: 33200987

    Zhang, Y., Wang, X., Matakatsu, H., Fehon, R. and Blair, S.S. (2016). The novel SH3 domain protein Dlish/CG10933 mediates fat signaling in Drosophila by binding and regulating Dachs. Elife 5. PubMed ID: 27692068

    Sherrard, K.M. and Fehon, R.G. (2015). The transmembrane protein Crumbs displays complex dynamics during follicular morphogenesis and is regulated competitively by Moesin and aPKC. Development [Epub ahead of print]. PubMed ID: 25926360

    Gavilan, H. S., Kulikauskas, R. M., Gutmann, D. H. and Fehon, R. G. (2014). In Vivo Functional Analysis of the Human NF2 Tumor Suppressor Gene in Drosophila. PLoS One 9: e90853. PubMed ID: 24595234

    Hall, S., Bone, C., Oshima, K., Zhang, L., McGraw, M., Lucas, B., Fehon, R. G. and Ward, R. E. t. (2014). Macroglobulin complement-related encodes a protein required for septate junction organization and paracellular barrier function in Drosophila. Development 141: 889-898. PubMed ID: 24496625

    Neisch, A. L., Formstecher, E. and Fehon, R. G. (2013). Conundrum, an ARHGAP18 orthologue, regulates RhoA and proliferation through interactions with Moesin. Mol Biol Cell 24: 1420-1433. PubMed ID: 23468526

    Boggiano, J. C, Vanderzalm, P. J. and Fehon, R. G. (2011). Tao-1 phosphorylates Hippo/MST kinases to regulate the Hippo-Salvador-Warts tumor suppressor pathway. Dev. Cell. 21: 888-895. PubMed Citation: 22075147

    Oshima, K. and Fehon, R. G. (2011). Analysis of protein dynamics within the septate junction reveals a highly stable core protein complex that does not include the basolateral polarity protein Discs Large. J. Cell Sci. 124: 2861-71. PubMed Citation: 21807950

  • Fabian Feiguin Neurobiology, International Centre for Genetic Engineering and Biotechnology, Trieste
    Klima, R., Romano, G., Gbadamosi, M., Megighian, A. and Feiguin, F. (2021). Immuno-electrophysiology on Neuromuscular Junctions of Drosophila Third Instar Larva. Bio Protoc 11(3): e3913. PubMed ID: 33732800

    Romano, G., Klima, R. and Feiguin, F. (2020). TDP-43 prevents retrotransposon activation in the Drosophila motor system through regulation of Dicer-2 activity. BMC Biol 18(1): 82. PubMed ID: 32620127

    Strah, N., Romano, G., Introna, C., Klima, R., Marzullo, M., Ciapponi, L., Megighian, A., Nizzardo, M. and Feiguin, F. (2020). TDP-43 promotes the formation of neuromuscular synapses through the regulation of Disc-large expression in Drosophila skeletal muscles. BMC Biol 18(1): 34. PubMed ID: 32216790

    Romano, G., Holodkov, N., Klima, R., Grilli, F., Guarnaccia, C., Nizzardo, M., Rizzo, F., Garcia, R. and Feiguin, F. (2018). Downregulation of glutamic acid decarboxylase in Drosophila TDP-43-null brains provokes paralysis by affecting the organization of the neuromuscular synapses. Sci Rep 8(1): 1809. PubMed ID: 29379112

    Romano, G., Appocher, C., Scorzeto, M., Klima, R., Baralle, F. E., Megighian, A. and Feiguin, F. (2015). Glial TDP-43 regulates axon wrapping, GluRIIA clustering and fly motility by autonomous and non-autonomous mechanisms. Hum Mol Genet. PubMed ID: 26276811

    Appocher, C., Klima, R. and Feiguin, F. (2014). Functional screening in Drosophila reveals the conserved role of REEP1 in promoting stress resistance and preventing the formation of Tau aggregates. Hum Mol Genet. PubMed ID: 25096240

    Romano, G., Klima, R., Buratti, E., Verstreken, P., Baralle, F. E. and Feiguin, F. (2014). Chronological requirements of TDP-43 function in synaptic organization and locomotive control. Neurobiol Dis. PubMed ID: 25088713

    Cragnaz, L., Klima, R., Skoko, N., Budini, M., Feiguin, F. and Baralle, F. E. (2014). Aggregate formation prevents dTDP-43 neurotoxicity in the Drosophila melanogaster eye. Neurobiol Dis. PubMed ID: 25088712

    Miskiewicz, K., Jose, L. E., Yeshaw, W. M., Valadas, J. S., Swerts, J., Munck, S., Feiguin, F., Dermaut, B. and Verstreken, P. (2014). HDAC6 Is a Bruchpilot Deacetylase that Facilitates Neurotransmitter Release. Cell Rep 8: 94-102. PubMed ID: 24981865

    Romano, M., Buratti, E., Romano, G., Klima, R., Del Bel Belluz, L., Stuani, C., Baralle, F. and Feiguin, F. (2014). Evolutionarily conserved heterogeneous nuclear ribonucleoprotein (hnRNP) A/B proteins functionally interact with human and Drosophila TAR DNA-binding protein 43 (TDP-43). J Biol Chem 289: 7121-7130. PubMed ID: 24492607

  • Edwin Ferguson Molecular Genetics and Cell Biology, University of Chicago
    Gavin-Smyth, J., Wang, Y. C., Butler, I. and Ferguson, E. L. (2013). A Genetic Network Conferring Canalization to a Bistable Patterning System in Drosophila. Curr Biol. PubMed ID: 24184102

    Lu, W., Casanueva, M. O., Mahowald, A. P., Kato, M., Lauterbach, D. and Ferguson, E. L. (2012). Niche-associated activation of rac promotes the asymmetric division of Drosophila female germline stem cells. PLoS Biol 10: e1001357. PubMed ID: 22802725

    Goldstein, J. A., Kelly, S. M., LoPresti, P. P., Heydemann, A., Earley, J. U., Ferguson, E. L., Wolf, M. J. and McNally, E. M. (2011). SMAD signaling drives heart and muscle dysfunction in a Drosophila model of muscular dystrophy. Hum Mol Genet 20: 894-904. PubMed ID: 21138941

  • Joyce Fernandes Department of Biology, Miami University, Oxford Ohio
    Subramanian, A., Siefert, M., Banerjee, S., Vishal, K., Bergmann, K. A., Curts, C. C. M., Dorr, M., Molina, C. and Fernandes, J. (2017). Remodeling of peripheral nerve ensheathment during the larval-to-adult transition in Drosophila. Dev Neurobiol 77(10): 1144-1160. PubMed ID: 28388016

    Subramanian, A., Siefert, M., Banerjee, S., Vishal, K., Bergmann, K. A., Curts, C. C. M., Dorr, M., Molina, C. and Fernandes, J. (2017). Remodeling of peripheral nerve ensheathment during the larval-to-adult transition in Drosophila. Dev Neurobiol. PubMed ID: 28388016

    Banerjee, S., Toral, M., Siefert, M., Conway, D., Dorr, M. and Fernandes, J. (2016). dHb9 expressing larval motor neurons persist through metamorphosis to innervate adult-specific muscle targets and function in Drosophila eclosion. Dev Neurobiol 76(12): 1387-1416. PubMed ID: 27168166

    Hebbar, S. and Fernandes, J. J. (2010). Glial remodeling during metamorphosis influences the stabilization of motor neuron branches in Drosophila. Dev Biol 340(2): 344-354. PubMed ID: 20079727

  • Maria de la Paz Fernandez Department of Neuroscience and Behavior, Barnard College, New York
    >Shafer, O. T., Gutierrez, G. J., Li, K., Mildenhall, A., Spira, D., Marty, J., Lazar, A. A. and Fernandez, M. P. (2022). Connectomic analysis of the Drosophila lateral neuron clock cells reveals the synaptic basis of functional pacemaker classes. Elife 11. PubMed ID: 35766361

    Jois, S., Chan, Y. B., Fernandez, M. P., Pujari, N., Janz, L. J., Parker, S. and Leung, A. K. (2022). Sexually dimorphic peripheral sensory neurons regulate copulation duration and persistence in male Drosophila. Sci Rep 12(1): 6177. PubMed ID: 35418584

    Monyak, R. E., Golbari, N. M., Chan, Y. B., Pranevicius, A., Tang, G., Fernandez, M. P. and Kravitz, E. A. (2021). Masculinized Drosophila females adapt their fighting strategies to their opponent. J Exp Biol 224(Pt 6). PubMed ID: 33568440

  • Vilaiwan M Fernandes Department of Cell and Developmental Biology, University College London,
    Bostock, M. P., Prasad, A. R., Donoghue, A. and Fernandes, V. M. (2022). Photoreceptors generate neuronal diversity in their target field through a Hedgehog morphogen gradient in Drosophila. Elife 11. PubMed ID: 36004721

    Yuen, A. C., Prasad, A. R., Fernandes, V. M. and Amoyel, M. (2022). A kinase translocation reporter reveals real-time dynamics of ERK activity in Drosophila. Biol Open 11(5). PubMed ID: 35608229

    Bostock, M. P., Prasad, A. R., Chaouni, R., Yuen, A. C., Sousa-Nunes, R., Amoyel, M. and Fernandes, V. M. (2020). An Immobilization Technique for Long-Term Time-Lapse Imaging of Explanted Drosophila Tissues. Front Cell Dev Biol 8: 590094. PubMed ID: 33117817

  • Pedro Fernandez-Funez Department of Neurology, University of Florida College of Medicine, Gainesville
    Myers, R. R., John, A., Zhang, W., Zou, W. Q., Cembran, A. and Fernandez-Funez, P. (2023). Y225A induces long-range conformational changes in human prion protein that are protective in Drosophila. J Biol Chem 299(7): 104881. PubMed ID: 37269948

    Duarte Junior, F. F., Bueno, P. S. A., Pedersen, S. L., Rando, F. D. S., Pattaro Junior, J. R., Caligari, D., Ramos, A. C., Polizelli, L. G., Lima, A., de Lima Neto, Q. A., Krude, T., Seixas, F. A. V. and Fernandez, M. A. (2019). Identification and characterization of stem-bulge RNAs in Drosophila melanogaster. RNA Biol 16(3): 330-339. PubMed ID: 30666901

    Martin-Pena, A., Rincon-Limas, D. E. and Fernandez-Funez, P. (2018). Engineered Hsp70 chaperones prevent Abeta42-induced memory impairments in a Drosophila model of Alzheimer's disease. Sci Rep 8(1): 9915. PubMed ID: 29967544

    Lee, C. H., Blackband, S. J. and Fernandez-Funez, P. (2015). Visualization of synaptic domains in the Drosophila brain by magnetic resonance microscopy at 10 micron isotropic resolution. Sci Rep 5: 8920. PubMed ID: 25753480

    Zhang, Y., Casas-Tinto, S., Rincon-Limas, D. E. and Fernandez-Funez, P. (2014). Combined pharmacological induction of hsp70 suppresses prion protein neurotoxicity in Drosophila. PLoS One 9: e88522. PubMed ID: 24523910

    Zhang, Y., Arcia, S., Perez, B., Fernandez-Funez, P. and Rincon-Limas, D. E. (2013). pTubHA4C, a new versatile vector for constitutive expression in Drosophila. Mol Biol Rep 40: 5407-5415. PubMed ID: 23681549

    Jensen, K., Sanchez-Garcia, J., Williams, C., Khare, S., Mathur, K., Graze, R. M., Hahn, D. A., McIntyre, L. M., Rincon-Limas, D. E. and Fernandez-Funez, P. (2013). Purification of transcripts and metabolites from Drosophila heads. J Vis Exp: e50245. PubMed ID: 23524378

  • Rodrigo Fernandez-Gonzalez Institute of Biomaterials & Biomedical Engineering Department of Cell & Systems Biology, University of Toronto
    Rothenberg, K. E., Chen, Y., McDonald, J. A. and Fernandez-Gonzalez, R. (2023). Rap1 coordinates cell-cell adhesion and cytoskeletal reorganization to drive collective cell migration in vivo. Curr Biol 33(13): 2587-2601.e2585. PubMed ID: 37244252

    Balaghi, N., Erdemci-Tandogan, G., McFaul, C. and Fernandez-Gonzalez, R. (2023). Myosin waves and a mechanical asymmetry guide the oscillatory migration of Drosophila cardiac progenitors. Dev Cell 58(14): 1299-1313.e1295. PubMed ID: 37295436

    Scepanovic, G., Hunter, M. V., Kafri, R. and Fernandez-Gonzalez, R. (2021). p38-mediated cell growth and survival drive rapid embryonic wound repair. Cell Rep 37(3): 109874. PubMed ID: 34686334

    Yu, J. C., Balaghi, N., Erdemci-Tandogan, G., Castle, V. and Fernandez-Gonzalez, R. (2021). Myosin cables control the timing of tissue internalization in the Drosophila embryo. Cells Dev: 203721. PubMed ID: 34271226

    Kobb, A. B., Rothenberg, K. E. and Fernandez-Gonzalez, R. (2019). Actin and myosin dynamics are independent during Drosophila embryonic wound repair. Mol Biol Cell: mbcE18110703. PubMed ID: 31553671

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  • Dominique Ferrandon Institut de Biologie Moleculaire et Cellulaire, Strasbourg France
    Huang, J., Lou, Y., Liu, J., Bulet, P., Cai, C., Ma, K., Jiao, R., Hoffmann, J. A., Liegeois, S., Li, Z. and Ferrandon, D. (2023). A Toll pathway effector protects Drosophila specifically from distinct toxins secreted by a fungus or a bacterium. Proc Natl Acad Sci U S A 120(12): e2205140120. PubMed ID: 36917667

    Xu, R., Lou, Y., Tidu, A., Bulet, P., Heinekamp, T., Martin, F., Brakhage, A., Li, Z., Liegeois, S. and Ferrandon, D. (2022). The Toll pathway mediates Drosophila resilience to Aspergillus mycotoxins through specific Bomanins. EMBO Rep: e56036. PubMed ID: 36322050

    Huang, C., Xu, R., Liegeois, S., Chen, D., Li, Z. and Ferrandon, D. (2020). Differential Requirements for Mediator Complex Subunits in Drosophila melanogaster Host Defense Against Fungal and Bacterial Pathogens. Front Immunol 11: 478958. PubMed ID: 33746938

    Brunke, S., Quintin, J., Kasper, L., Jacobsen, I. D., Richter, M. E., Hiller, E., Schwarzmuller, T., d'Enfert, C., Kuchler, K., Rupp, S., Hube, B. and Ferrandon, D. (2015). Of mice, flies - and men? Comparing fungal infection models for large-scale screening efforts. Dis Model Mech. PubMed ID: 25786415

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    Amcheslavsky, A., Song, W., Li, Q., Nie, Y., Bragatto, I., Ferrandon, D., Perrimon, N. and Ip, Y. T. (2014). Enteroendocrine Cells Support Intestinal Stem-Cell-Mediated Homeostasis in Drosophila. Cell Rep. PubMed ID: 25263551

    Lestradet, M., Lee, K. Z. and Ferrandon, D. (2014). Drosophila as a model for intestinal infections. Methods Mol Biol 1197: 11-40. PubMed ID: 25172273

    Haller, S., Limmer, S. and Ferrandon, D. (2014). Assessing Pseudomonas Virulence with a Nonmammalian Host: Drosophila melanogaster. Methods Mol Biol 1149: 723-740. PubMed ID: 24818946

    Quintin, J., Asmar, J., Matskevich, A. A., Lafarge, M. C. and Ferrandon, D. (2013). The Drosophila Toll Pathway Controls but Does Not Clear Candida glabrata Infections. J Immunol. PubMed ID: 23401590

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  • Alberto Ferrus Cajal Institute CSIC, Madrid
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    Ramirez, J., Morales, M., Osinalde, N., Martinez-Padron, I., Mayor, U. and Ferrus, A. (2021). The ubiquitin ligase Ariadne-1 regulates neurotransmitter release via ubiquitination of NSF. J Biol Chem: 100408. PubMed ID: 33581113

    Arnes, M., Romero, N., Casas-Tinto, S., Acebes, A. and Ferrus, A. (2019). PI3K activation prevents Abeta42-induced synapse loss and favors insoluble amyloid deposits formation. Mol Biol Cell: mbcE19050303. PubMed ID: 31877058

    Martin-Pena, A. and Ferrus, A. (2019). CCB is involved in actin-based axonal transport of selected synaptic proteins. J Neurosci. PubMed ID: 31754011

    Casas-Tinto, S. and Ferrus, A. (2019). Troponin-I mediates the localization of selected apico-basal cell polarity signaling proteins. J Cell Sci 132(8). PubMed ID: 30872455

    Casas-Tinto, S. and Ferrus, A. (2019). Troponin-I localizes selected apico-basal cell polarity signals. J Cell Sci. PubMed ID: 30872455

    Arnes, M., Casas-Tinto, S., Malmendal, A. and Ferrus, A. (2017). Amyloid beta42 peptide is toxic to non-neural cells in Drosophila yielding a characteristic metabolite profile and the effect can be suppressed by PI3K. Biol Open 6(11): 1664-1671. PubMed ID: 29141953

    Jordan-Alvarez, S., Santana, E., Casas-Tinto, S., Acebes, A. and Ferrus, A. (2017). The equilibrium between antagonistic signaling pathways determines the number of synapses in Drosophila. PLoS One 12(9): e0184238. PubMed ID: 28892511

    Casas-Tinto, S., Arnes, M. and Ferrus, A. (2017). Drosophila enhancer-Gal4 lines show ectopic expression during development. R Soc Open Sci 4(3): 170039. PubMed ID: 28405401

    Mansilla, A., Chaves-Sanjuan, A., Campillo, N. E., Semelidou, O., Martinez-Gonzalez, L., Infantes, L., Gonzalez-Rubio, J. M., Gil, C., Conde, S., Skoulakis, E. M., Ferrus, A., Martinez, A. and Sanchez-Barrena, M. J. (2017). Interference of the complex between NCS-1 and Ric8a with phenothiazines regulates synaptic function and is an approach for fragile X syndrome. Proc Natl Acad Sci U S A 114(6): E999-e1008. PubMed ID: 28119500

  • Jean-François Ferveur CNRS, Université de Bourgogne
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    Rihani, K., Fraichard, S., Chauvel, I., Poirier, N., Delompre, T., Neiers, F., Tanimura, T., Ferveur, J. F. and Briand, L. (2019). A conserved odorant binding protein is required for essential amino acid detection in Drosophila. Commun Biol 2: 425. PubMed ID: 31799428

    Cazale-Debat, L., Houot, B., Farine, J. P., Everaerts, C. and Ferveur, J. F. (2019). Flying Drosophila show sex-specific attraction to fly-labelled food. Sci Rep 9(1): 14947. PubMed ID: 31628403

    Murgier, J., Everaerts, C., Farine, J. P. and Ferveur, J. F. (2019). Live yeast in juvenile diet induces species-specific effects on Drosophila adult behaviour and fitness. Sci Rep 9(1): 8873. PubMed ID: 31222019

    Cortot, J., Farine, J. P., Houot, B., Everaerts, C. and Ferveur, J. F. (2019). Experimental introgression to evaluate the impact of sex specific traits on Drosophila melanogaster incipient speciation. G3 (Bethesda). PubMed ID: 31167833

    Nojima, T., Chauvel, I., Houot, B., Bousquet, F., Farine, J. P., Everaerts, C., Yamamoto, D. and Ferveur, J. F. (2019). The desaturase1 gene affects reproduction before, during and after copulation in Drosophila melanogaster. J Neurogenet: 1-20. PubMed ID: 30724684

    Everaerts, C., Cazale-Debat, L., Louis, A., Pereira, E., Farine, J. P., Cobb, M. and Ferveur, J. F. (2018). Pre-imaginal conditioning alters adult sex pheromone response in Drosophila. PeerJ 6: e5585. PubMed ID: 30280017

    Grangeteau, C., Yahou, F., Everaerts, C., Dupont, S., Farine, J. P., Beney, L. and Ferveur, J. F. (2018). Yeast quality in juvenile diet affects Drosophila melanogaster adult life traits. Sci Rep 8(1): 13070. PubMed ID: 30166573

    Houot, B., Cazale-Debat, L., Fraichard, S., Everaerts, C., Saxena, N., Sane, S. P. and Ferveur, J. F. (2017). Gene regulation and species-specific evolution of free-flight odor-tracking in Drosophila. Mol Biol Evol. PubMed ID: 28961885

    Houot, B., Gigot, V., Robichon, A. and Ferveur, J. F. (2017). Free flight odor tracking in Drosophila: Effect of wing chemosensors, sex and pheromonal gene regulation. Sci Rep 7: 40221. PubMed ID: 28067325

    Wang, Y., da Cruz, T. C., Pulfemuller, A., Gregoire, S., Ferveur, J. F. and Moussian, B. (2016). Inhibition of fatty acid desaturases in Drosophila melanogaster larvae blocks feeding and developmental progression. Arch Insect Biochem Physiol [Epub ahead of print]. PubMed ID: 27037621

    Thibert, J., Farine, J. P., Cortot, J. and Ferveur, J. F. (2016). Drosophila Food-Associated Pheromones: Effect of Experience, Genotype and Antibiotics on Larval Behavior. PLoS One 11: e0151451. PubMed ID: 26987117

  • André Fiala Dept. of Molecular Neurobiology of Behaviour, Schwann-Schleiden Research Centre, Göttingen
    Poppinga, H., Çoban, B., Meltzer, H., Mayseless, O., Widmann, A., Schuldiner, O. and Fiala, A. (2022). Pruning deficits of the developing Drosophila mushroom body result in mild impairment in associative odour learning and cause hyperactivity. Open Biol 12(9): 220096. PubMed ID: 36128716

    Hancock, C. E., Rostami, V., Rachad, E. Y., Deimel, S. H., Nawrot, M. P. and Fiala, A. (2022). Visualization of learning-induced synaptic plasticity in output neurons of the Drosophila mushroom body γ-lobe. Sci Rep 12(1): 10421. PubMed ID: 35729203

    Hancock, C. E., Geurten, B. R. H. and Fiala, A. (2020). Visualization of naive and learned odor representations using in vivo calcium imaging and immunohistochemical bouton mapping of single Drosophila mushroom body neurons. STAR Protoc 1(3): 100210. PubMed ID: 33377104

    Kanellopoulos, A. K., Mariano, V., Spinazzi, M., Woo, Y. J., McLean, C., Pech, U., Li, K. W., Armstrong, J. D., Giangrande, A., Callaerts, P., Smit, A. B., Abrahams, B. S., Fiala, A., Achsel, T. and Bagni, C. (2020). Aralar Sequesters GABA into Hyperactive Mitochondria, Causing Social Behavior Deficits. Cell 180(6): 1178-1197.e1120. PubMed ID: 32200800

    Bilz, F., Geurten, B. R. H., Hancock, C. E., Widmann, A. and Fiala, A. (2020). Visualization of a Distributed Synaptic Memory Code in the Drosophila Brain. Neuron. PubMed ID: 32268119

    Warth Perez Arias, C. C., Frosch, P., Fiala, A. and Riemensperger, T. D. (2020). Stochastic and Arbitrarily Generated Input Patterns to the Mushroom Bodies Can Serve as Conditioned Stimuli in Drosophila. Front Physiol 11: 53. PubMed ID: 32116764

    Hancock, C. E., Bilz, F. and Fiala, A. (2019). In Vivo Optical Calcium Imaging of Learning-Induced Synaptic Plasticity in Drosophila melanogaster. J Vis Exp(152). PubMed ID: 31657798

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    Martelli, C., Pech, U., Kobbenbring, S., Pauls, D., Bahl, B., Sommer, M. V., Pooryasin, A., Barth, J., Arias, C. W. P., Vassiliou, C., Luna, A. J. F., Poppinga, H., Richter, F. G., Wegener, C., Fiala, A. and Riemensperger, T. (2017). SIFamide translates hunger signals into appetitive and feeding behavior in Drosophila. Cell Rep 20(2): 464-478. PubMed ID: 28700946

    Gupta, V. K., Pech, U., Bhukel, A., Fulterer, A., Ender, A., Mauermann, S. F., Andlauer, T. F., Antwi-Adjei, E., Beuschel, C., Thriene, K., Maglione, M., Quentin, C., Bushow, R., Schwarzel, M., Mielke, T., Madeo, F., Dengjel, J., Fiala, A. and Sigrist, S. J. (2016). Spermidine suppresses age-associated memory impairment by preventing adverse increase of presynaptic active zone size and release. PLoS Biol 14: e1002563. PubMed ID: 27684064

    Vasmer, D., Pooryasin, A., Riemensperger, T. and Fiala, A. (2014). Induction of aversive learning through thermogenetic activation of Kenyon cell ensembles in Drosophila. Front Behav Neurosci 8: 174. PubMed ID: 24860455

  • Russ Finley Center for Molecular Medicine and Genetics, Wayne State University School of Medicine, Detroit
    Atikukke, G., Albosta, P., Zhang, H. and Finley, R. L., Jr. (2014). A role for Drosophila Cyclin J in oogenesis revealed by genetic interactions with the piRNA pathway. Mech Dev. PubMed ID: 24946235

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  • Karl-Friedrich Fischbach Institut für Biologie, Freiburg
    Linneweber, G. A., Winking, M. and Fischbach, K. F. (2015). The cell adhesion molecules Roughest, Hibris, Kin of Irre and Sticks and Stones are required for long range spacing of the Drosophila wing disc sensory sensilla. PLoS One 10: e0128490. PubMed ID: 26053791

    Luthy, K., Ahrens, B., Rawal, S., Lu, Z., Tarnogorska, D., Meinertzhagen, I. A. and Fischbach, K. F. (2014). The irre Cell Recognition Module (IRM) Protein Kirre Is Required to Form the Reciprocal Synaptic Network of L4 Neurons in the Drosophila Lamina. J Neurogenet. PubMed ID: 24697410

    Helmstadter, M., Luthy, K., Godel, M., Simons, M., Ashish, Nihalani, D., Rensing, S. A., Fischbach, K. F. and Huber, T. B. (2012). Functional study of mammalian Neph proteins in Drosophila melanogaster. PLoS One 7: e40300. PubMed ID: 22792268

    Sugie, A., Umetsu, D., Yasugi, T., Fischbach, K. F. and Tabata, T. (2010). Recognition of pre- and postsynaptic neurons via nephrin/NEPH1 homologs is a basis for the formation of the Drosophila retinotopic map. Development 137: 3303-3313. PubMed ID: 20724453

  • Janice Fischer Cell and Molecular Biology University of Texas, Austin
    Grimm, C., Chari, A., Pelz, J. P., Kuper, J., Kisker, C., Diederichs, K., Stark, H., Schindelin, H., Lee, J. H. and Fischer, J. A. (2012). Drosophila Tel2 is expressed as a translational fusion with EpsinR and is a regulator of wingless signaling. PLoS One 7: e46357. PubMed ID: 23029494

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    Xie, X., Cho, B. and Fischer, J. A. (2012). Drosophila Epsin's role in Notch ligand cells requires three Epsin protein functions: the lipid binding function of the ENTH domain, a single Ubiquitin interaction motif, and a subset of the C-terminal protein binding modules. Dev Biol 363: 399-412. PubMed ID: 22265678

  • Helen Fitzsimons Institute of Fundamental Sciences, Massey University, New Zealand
    Schwartz, S., Wilson, S. J., Hale, T. K. and Fitzsimons, H. L. (2023). Ankyrin2 is essential for neuronal morphogenesis and long-term courtship memory in Drosophila. Mol Brain 16(1): 42. PubMed ID: 37194019

    Palmer, M. J. and Fitzsimons, H. L. (2023). Herzog is not required for mushroom body development or courtship learning & memory but is required for eye development in Drosophila melanogaster. MicroPubl Biol 2023. PubMed ID: 36798589

    Hura, A. J., Hawley, H. R., Tan, W. J., Penny, R. J., Jacobsen, J. C. and Fitzsimons, H. L. (2022). Loss of Drosophila Coq8 results in impaired survival, locomotor deficits and photoreceptor degeneration. Mol Brain 15(1): 15. PubMed ID: 35139868

    Main, P., Tan, W. J., Wheeler, D. and Fitzsimons, H. L. (2021). Increased Abundance of Nuclear HDAC4 Impairs Neuronal Development and Long-Term Memory. Front Mol Neurosci 14: 616642. PubMed ID: 33859551

    Schwartz, S., Truglio, M., Scott, M. J. and Fitzsimons, H. L. (2016). Long-term memory in Drosophila is influenced by the histone deacetylase HDAC4 interacting with the SUMO-conjugating enzyme Ubc9. Genetics [Epub ahead of print]. PubMed ID: 27182943

    Fitzsimons, H. L., Schwartz, S., Given, F. M. and Scott, M. J. (2013). The histone deacetylase HDAC4 regulates long-term memory in Drosophila. PLoS One 8: e83903. PubMed ID: 24349558

    Fitzsimons, H. L. and Scott, M. J. (2011). Genetic modulation of Rpd3 expression impairs long-term courtship memory in Drosophila. PLoS One 6: e29171. PubMed ID: 22195015

  • Thomas Flatt Institute of Population Genetics, Vetmeduni, Vienna
    Rodrigues, M. A., Merckelbach, A., Durmaz, E., Kerdaffrec, E. and Flatt, T. (2021). Transcriptomic evidence for a trade-off between germline proliferation and immunity in Drosophila. Evol Lett 5(6): 644-656. PubMed ID: 34917403

    Durmaz, E., Rajpurohit, S., Betancourt, N., Fabian, D. K., Kapun, M., Schmidt, P. and Flatt, T. (2019). A clinal polymorphism in the insulin signaling transcription factor foxo contributes to life-history adaptation in Drosophila. Evolution. PubMed ID: 31111462

    Kapun, M. and Flatt, T. (2018). The adaptive significance of chromosomal inversion polymorphisms in Drosophila melanogaster. Mol Ecol. PubMed ID: 30230076

    Durmaz, E., Benson, C., Kapun, M., Schmidt, P. and Flatt, T. (2018). An inversion supergene in Drosophila underpins latitudinal clines in survival traits. J Evol Biol. PubMed ID: 29904977

    Flatt, T. (2016). Genomics of clinal variation in Drosophila: disentangling the interactions of selection and demography. Mol Ecol 25: 1023-1026. PubMed ID: 26919307

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    Kapun, M., Fabian, D. K., Goudet, J. and Flatt, T. (2016). Genomic evidence for adaptive inversion clines in Drosophila melanogaster. Mol Biol Evol [Epub ahead of print]. PubMed ID: 26796550

    Fabian, D. K., Lack, J. B., Mathur, V., Schlotterer, C., Schmidt, P. S., Pool, J. E. and Flatt, T. (2015). Spatially varying selection shapes life history clines among populations of Drosophila melanogaster from sub-Saharan Africa. J Evol Biol. PubMed ID: 25704153

    Klepsatel, P., Galikova, M., Huber, C. D. and Flatt, T. (2014). Similarities and Differences in Altitudinal Versus Latitudinal Variation for Morphological Traits in Drosophila Melanogaster. Evolution. PubMed ID: 24410363

    Klepsatel, P., Galikova, M., De Maio, N., Huber, C. D., Schlotterer, C. and Flatt, T. (2013). Variation in thermal performance and reaction norms among populations of Drosophila melanogaster. Evolution 67: 3573-3587. PubMed ID: 24299409

  • Eden Foley Dept. of Medical Microbiology & Immunology, University of Alberta, Edmonton
    Shin, M., Ferguson, M., Willms, R. J., Jones, L. O., Petkau, K. and Foley, E. (2022). Immune regulation of intestinal-stem-cell function in Drosophila. Stem Cell Reports 17(4): 741-755. PubMed ID: 35303435

    Galenza, A. and Foley, E. (2021). A glucose-supplemented diet enhances gut barrier integrity in Drosophila. Biol Open 10(3). PubMed ID: 33579694

    Ferguson, M., Petkau, K., Shin, M., Galenza, A., Fast, D. and Foley, E. (2021). Differential effects of commensal bacteria on progenitor cell adhesion, division symmetry and tumorigenesis in the Drosophila intestine. Development 148(5). PubMed ID: 33593820

    Davoodi, S., Galenza, A., Panteluk, A., Deshpande, R., Ferguson, M., Grewal, S. and Foley, E. (2019). The Immune Deficiency Pathway Regulates Metabolic Homeostasis in Drosophila. J Immunol 202(9): 2747-2759. PubMed ID: 30902902

    Galenza, A., Hutchinson, J., Campbell, S. D., Hazes, B. and Foley, E. (2016). Glucose modulates Drosophila longevity and immunity independent of the microbiota. Biol Open [Epub ahead of print]. PubMed ID: 26794610

    Petkau, K., Parsons, B. D., Duggal, A. and Foley, E. (2014). A Deregulated Intestinal Cell Cycle Program Disrupts Tissue Homeostasis, Without Affecting Longevity in Drosophila. J Biol Chem. PubMed ID: 25170078

    Parsons, B. and Foley, E. (2013). The Drosophila PDGF and VEGF-Receptor Related (Pvr) Ligands Pvf2 and Pvf3 Control Hemocyte Viability and Invasive Migration. J Biol Chem. PubMed ID: 23737520

    Bond, D. and Foley, E. (2012). Autocrine platelet-derived growth factor-vascular endothelial growth factor receptor-related (Pvr) pathway activity controls intestinal stem cell proliferation in the adult Drosophila midgut. J Biol Chem 287: 27359-27370. PubMed ID: 22722927

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  • Nancy Fossett Pathology, University of Maryland School of Medicine, Baltimore
    Baldeosingh, R., Gao, H., Wu, X. and Fossett, N. (2018). Hedgehog signaling from the Posterior Signaling Center maintains U-shaped expression and a prohemocyte population in Drosophila. Dev Biol. PubMed ID: 29966604

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    Gao, H., Wu, X., Simon, L. and Fossett, N. (2014). Antioxidants maintain E-cadherin levels to limit Drosophila prohemocyte differentiation. PLoS One 9: e107768. PubMed ID: 25226030

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  • Klaus Förstemann Genzentrum & Dept. Biochemie, University of Munich
    Bottcher, R., Schmidts, I., Nitschko, V., Duric, P. and Forstemann, K. (2022). RNA polymerase II is recruited to DNA double-strand breaks for dilncRNA transcription in Drosophila. RNA Biol 19(1): 68-77. PubMed ID: 34965182

    Tants, J. N., Fesser, S., Kern, T., Stehle, R., Geerlof, A., Wunderlich, C., Juen, M., Hartlmuller, C., Bottcher, R., Kunzelmann, S., Lange, O., Kreutz, C., Forstemann, K. and Sattler, M. (2017). Molecular basis for asymmetry sensing of siRNAs by the Drosophila Loqs-PD/Dcr-2 complex in RNA interference. Nucleic Acids Res. PubMed ID: 29040648

    Merk, K., Breinig, M., Bottcher, R., Krebs, S., Blum, H., Boutros, M. and Forstemann, K. (2017). Splicing stimulates siRNA formation at Drosophila DNA double-strand breaks. PLoS Genet 13(6): e1006861. PubMed ID: 28628606

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    Wissel, S., Kieser, A., Yasugi, T., Duchek, P., Roitinger, E., Gokcezade, J. F., Steinmann, V., Gaul, U., Mechtler, K., Forstemann, K., Knoblich, J. A. and Neumuller, R. A. (2016). A combination of CRISPR/Cas9 and standardized RNAi as a versatile platform for the characterization of gene function. G3 (Bethesda) [Epub ahead of print]. PubMed ID: 27280787

    Elmer, K., Helfer, S., Mirkovic-Hosle, M. and Forstemann, K. (2014). Analysis of Endo-siRNAs in Drosophila. Methods Mol Biol 1173: 33-49. PubMed ID: 24920358

    Mirkovic-Hosle, M. and Forstemann, K. (2014). Transposon Defense by Endo-siRNAs, piRNAs and Somatic pilRNAs in Drosophila: Contributions of Loqs-PD and R2D2. PLoS One 9: e84994. PubMed ID: 24454776

    Esslinger, S. M., Schwalb, B., Helfer, S., Michalik, K. M., Witte, H., Maier, K. C., Martin, D., Michalke, B., Tresch, A., Cramer, P. and Forstemann, K. (2013). Drosophila miR-277 controls branched-chain amino acid catabolism and affects lifespan. RNA Biol 10: 1042-1056. PubMed ID: 23669073

    Schertel, C., Rutishauser, T., Forstemann, K. and Basler, K. (2012). Functional characterization of Drosophila microRNAs by a novel in vivo library. Genetics 192: 1543-1552. PubMed ID: 23051640

  • Mark Fortini Department of Biochemistry & Molecular Biology, Thomas Jefferson University
    Khanna, M. R. and Fortini, M. E. (2015). Transcriptomic analysis of Drosophila mushroom body neurons lacking Amyloid-beta precursor-like protein activity. J Alzheimers Dis 46: 913-928. PubMed ID: 26402626

    Sasamura, T., Matsuno, K. and Fortini, M. E. (2013). Disruption of Drosophila melanogaster Lipid Metabolism Genes Causes Tissue Overgrowth Associated with Altered Developmental Signaling. PLoS Genet 9: e1003917. PubMed ID: 24244188

    Groth, C., Sasamura, T., Khanna, M. R., Whitley, M. and Fortini, M. E. (2013). Protein trafficking abnormalities in Drosophila tissues with impaired activity of the ZIP7 zinc transporter Catsup. Development. PubMed ID: 23785054

    Yousefian, J., Troost, T., Grawe, F., Sasamura, T., Fortini, M., Klein, T. (2013) Dmon1 controls recruitment of Rab7 to maturing endosomes in Drosophila. J Cell Sci. PubMed ID: 23418349

    Yamakawa, T., Yamada, K., Sasamura, T., Nakazawa, N., Kanai, M., Suzuki, E., Fortini, M. E. and Matsuno, K. (2012). Deficient Notch signaling associated with neurogenic pecanex is compensated for by the unfolded protein response in Drosophila. Development 139: 558-567. PubMed ID: 22190636

    Stempfle, D., Kanwar, R., Loewer, A., Fortini, M. E. and Merdes, G. (2010). In vivo reconstitution of gamma-secretase in Drosophila results in substrate specificity. Mol Cell Biol 30: 3165-3175. PubMed ID: 20421416

  • Donald Fox Pharmacology and Cancer Biology, Duke University School of Medicine, Durham, N. C.
    Chakraborty, A., Peterson, N. G., King, J. S., Gross, R. T., Pla, M. M., Thennavan, A., Zhou, K. C., DeLuca, S., Bursac, N., Bowles, D. E., Wolf, M. J. and Fox, D. T. (2023). Conserved chamber-specific polyploidy maintains heart function in Drosophila. Development 150(16). PubMed ID: 37526609
    Clay, D. E., Jezuit, E. A., Montague, R. A. and Fox, D. T. (2022). Conserved Function Of Drosophila Fancd2 Monoubiquitination In Response To Double-Strand DNA Breaks. G3 (Bethesda). PubMed ID: 35595243

    Allen, S. R., Stewart, R. K., Rogers, M., Ruiz, I. J., Cohen, E., Laederach, A., Counter, C. M., Sawyer, J. K. and Fox, D. T. (2022). Distinct responses to rare codons in select Drosophila tissues. Elife 11. PubMed ID: 35522036

    Sawyer, J. K., Kabiri, Z., Montague, R. A., Allen, S. R., Stewart, R., Paramore, S. V., Cohen, E., Zaribafzadeh, H., Counter, C. M. and Fox, D. T. (2020). Exploiting codon usage identifies intensity-specific modifiers of Ras/MAPK signaling in vivo. PLoS Genet 16(12): e1009228. PubMed ID: 33296356

    Peterson, N. G., Stormo, B. M., Schoenfelder, K. P., King, J. S., Lee, R. R. and Fox, D. T. (2020). Cytoplasmic sharing through apical membrane remodeling. Elife 9. PubMed ID: 33051002

    Stormo, B. M. and Fox, D. T. (2018). Interphase cohesin regulation ensures mitotic fidelity after genome reduplication. Mol Biol Cell: mbcE17100582. PubMed ID: 30462577

    Cohen, E., Allen, S. R., Sawyer, J. K. and Fox, D. T. (2018). Fizzy-related dictates a cell cycle switch during organ repair and tissue growth responses in the Drosophila hindgut. Elife 7. PubMed ID: 30117808

    Sawyer, J. K., Cohen, E. and Fox, D. T. (2017). Inter-organ regulation of Drosophila intestinal stem cell proliferation by a hybrid organ boundary zone. Development. PubMed ID: 28947534

    Bretscher, H.S. and Fox, D.T. (2016). Proliferation of double-strand break-resistant polyploid cells requires Drosophila FANCD2. Dev Cell 37: 444-457. PubMed ID: 27270041

    Stormo, B. M. and Fox, D. T. (2016). Distinct responses to reduplicated chromosomes require distinct Mad2 responses. Elife 5 [Epub ahead of print]. PubMed ID: 27159240

  • Jessica Fox Case Western Reserve University
    Rauscher, M. J. and Fox, J. L. (2021). Haltere and visual inputs sum linearly to predict wing (but not gaze) motor output in tethered flying Drosophila. Proc Biol Sci 288(1943): 20202374. PubMed ID: 33499788

    Mureli, S., Thanigaivelan, I., Schaffer, M. L. and Fox, J. L. (2017). Cross-modal influence of mechanosensory input on gaze responses to visual motion in Drosophila. J Exp Biol. PubMed ID: 28385799

    Mureli, S. and Fox, J. L. (2015). Haltere mechanosensory influence on tethered flight behavior in Drosophila. J Exp Biol 218(Pt 16): 2528-2537. PubMed ID: 26113141

    Fox, J. L. (2014). Optical limitations guide behavioral algorithms in Drosophila. Front Behav Neurosci 8: 374. PubMed ID: 25400561

  • Lee Fradkin Leids Universitair Medisch Centrum, Leiden, Netherlands
    Shi, F., Mendrola, J. M., Sheetz, J. B., Wu, N., Sommer, A., Speer, K. F., Noordermeer, J. N., Kan, Z. Y., Perry, K., Englander, S. W., Stayrook, S. E., Fradkin, L. G. and Lemmon, M. A. (2021). ROR and RYK extracellular region structures suggest that receptor tyrosine kinases have distinct WNT-recognition modes. Cell Rep 37(3): 109834. PubMed ID: 34686333

    Hing, H., Reger, N., Snyder, J. and Fradkin, L. G. (2020). Interplay between axonal Wnt5-Vang and dendritic Wnt5-Drl/Ryk signaling controls glomerular patterning in the Drosophila antennal lobe. PLoS Genet 16(5): e1008767. PubMed ID: 32357156

    Jantrapirom, S., Cao, D., Wang, J., Hing, H., Tabone, C. J., Lantz, K., de Belle, J. S., Qiu, Y. T., Smid, H. M., Yamaguchi, M., Noordermeer, J. N., Fradkin, L. G. and Potikanond, S. (2019). hDystrophin is Required for Normal Synaptic Gain in the Drosophila Olfactory Circuit. Brain Res. PubMed ID: 30711401

    Wu, Y., Helt, J. C., Wexler, E., Petrova, I. M., Noordermeer, J. N., Fradkin, L. G. and Hing, H. (2014). Wnt5 and drl/ryk gradients pattern the Drosophila olfactory dendritic map. J Neurosci 34: 14961-14972. PubMed ID: 25378162

    Petrova, I. M., Lahaye, L. L., Martianez, T., de Jong, A. W., Malessy, M. J., Verhaagen, J., Noordermeer, J. N. and Fradkin, L. G. (2013). Homodimerization of the Wnt Receptor DERAILED Recruits the Src Family Kinase SRC64B. Mol Cell Biol. PubMed ID: 23979591

    van der Laan, A. M., van Gemert, A. M., Dirks, R. W., Noordermeer, J. N., Fradkin, L. G., Tanke, H. J. and Jost, C. R. (2012). mRNA cycles through hypoxia-induced stress granules in live Drosophila embryonic muscles. Int J Dev Biol 56: 701-709. PubMed ID: 23319346

    Lahaye, L. L., Wouda, R. R., de Jong, A. W., Fradkin, L. G. and Noordermeer, J. N. (2012). WNT5 interacts with the Ryk receptors doughnut and derailed to mediate muscle attachment site selection in Drosophila melanogaster. PLoS One 7: e32297. PubMed ID: 22403643

    Pilgram, G. S., Potikanond, S., van der Plas, M. C., Fradkin, L. G. and Noordermeer, J. N. (2011). The RhoGAP crossveinless-c interacts with Dystrophin and is required for synaptic homeostasis at the Drosophila neuromuscular junction. J Neurosci 31: 492-500. PubMed ID: 21228159

  • Nathalie Franc Department of Immunology & Microbial Science, Scripps Research Institute, La Jolla, CA
    Xiao, H., Wang, H., Silva, E. A., Thompson, J., Guillou, A., Yates, J. R., Jr., Buchon, N. and Franc, N. C. (2015). The Pallbearer E3 ligase promotes actin remodeling via RAC in efferocytosis by degrading the ribosomal protein S6. Dev Cell 32: 19-30. PubMed ID: 25533207

    Van Goethem, E., Silva, E. A., Xiao, H. and Franc, N. C. (2012). The Drosophila TRPP cation channel, PKD2 and Dmel/Ced-12 act in genetically distinct pathways during apoptotic cell clearance. PLoS One 7: e31488. PubMed ID: 22347485


  • Nicole Francis Department of Molecular & Cellular Biology, Harvard University
    Kapur, I., Boulier, E. L. and Francis, N. J. (2022). Regulation of Polyhomeotic Condensates by Intrinsically Disordered Sequences That Affect Chromatin Binding. Epigenomes 6(4). PubMed ID: 36412795

    Alecki, C. and Francis, N. J. (2021). Identification of R-loop-forming Sequences in Drosophila melanogaster Embryos and Tissue Culture Cells Using DRIP-seq. Bio Protoc 11(9): e4011. PubMed ID: 34124311

    Kang, J. J., Faubert, D., Boulais, J. and Francis, N. J. (2020). DNA Binding Reorganizes the Intrinsically Disordered C-Terminal Region of PSC in Drosophila PRC1. J Mol Biol. PubMed ID: 32628956

    Alecki, C., Chiwara, V., Sanz, L. A., Grau, D., Arias Perez, O., Boulier, E. L., Armache, K. J., Chedin, F. and Francis, N. J. (2020). RNA-DNA strand exchange by the Drosophila Polycomb complex PRC2. Nat Commun 11(1): 1781. PubMed ID: 32286294

    Wani, A. H., Boettiger, A. N., Schorderet, P., Ergun, A., Munger, C., Sadreyev, R. I., Zhuang, X., Kingston, R. E. and Francis, N. J. (2016). Chromatin topology is coupled to Polycomb group protein subnuclear organization. Nat Commun 7: 10291. PubMed ID: 26759081

    Follmer, N. E., Wani, A. H. and Francis, N. J. (2012). A polycomb group protein is retained at specific sites on chromatin in mitosis. PLoS Genet 8: e1003135. PubMed ID: 23284300

    Lo, S. M., McElroy, K. A. and Francis, N. J. (2012). Chromatin modification by PSC occurs at one PSC per nucleosome and does not require the acidic patch of histone H2A. PLoS One 7: e47162. PubMed ID: 23071745

    Follmer, N. E. and Francis, N. J. (2012). Preparation of Drosophila tissue culture cells from different stages of the cell cycle for chromatin immunoprecipitation using centrifugal counterflow elutriation and fluorescence-activated cell sorting. Methods Enzymol 513: 251-269. PubMed ID: 22929773

  • C. Andrew Frank Molecular Medicine, University of Iowa, Iowa City
    Mallik, B., Brusich, D. J., Heyrman, G. and Frank, C. A. (2023). Precise mapping of one classic and three novel GluRIIA mutants in Drosophila melanogaster. MicroPubl Biol 2023. PubMed ID: 37334199

    Armstrong, N. S. and Frank, C. A. (2022). The calcineurin regulator Sarah enables distinct forms of homeostatic plasticity at the Drosophila neuromuscular junction. Front Synaptic Neurosci 14: 1033743. PubMed ID: 36685082

    Mallik, B. and Frank, C. A. (2022). Roles for Mitochondrial Complex I Subunits in Regulating Synaptic Transmission and Growth. Front Neurosci 16: 846425. PubMed ID: 35557603

    James, T. D., Zwiefelhofer, D. J. and Frank, C. A. (2019). Maintenance of homeostatic plasticity at the Drosophila neuromuscular synapse requires continuous IP3-directed signaling. Elife 8. PubMed ID: 31180325

    Brusich, D. J., Spring, A. M., James, T. D., Yeates, C. J., Helms, T. H. and Frank, C. A. (2018). Drosophila CaV2 channels harboring human migraine mutations cause synapse hyperexcitability that can be suppressed by inhibition of a Ca2+ store release pathway. PLoS Genet 14(8): e1007577. PubMed ID: 30080864

    Yeates, C. J., Zwiefelhofer, D. J. and Frank, C. A. (2017). The Maintenance of Synaptic Homeostasis at the Drosophila Neuromuscular Junction Is Reversible and Sensitive to High Temperature. eNeuro 4(6). PubMed ID: 29255795

    Li, Q., Kellner, D. A., Hatch, H. A. M., Yumita, T., Sanchez, S., Machold, R. P., Frank, C. A. and Stavropoulos, N. (2017). Conserved properties of Drosophila Insomniac link sleep regulation and synaptic function. PLoS Genet 13(5): e1006815. PubMed ID: 28558011

    Hegle, A. P., Frank, C. A., Berndt, A., Klose, M., Allan, D. W. and Accili, E. A. (2017). The Ih Channel Gene Promotes Synaptic Transmission and Coordinated Movement in Drosophila melanogaster. Front Mol Neurosci 10: 41. PubMed ID: 28286469

    Spring, A. M., Brusich, D. J. and Frank, C. A. (2016). C-terminal Src Kinase Gates Homeostatic Synaptic Plasticity and Regulates Fasciclin II Expression at the Drosophila Neuromuscular Junction. PLoS Genet 12(2): e1005886. PubMed ID: 26901416

  • Manfred Frasch Developmental Biology, Friedrich-Alexander-University Erlangen-Nuremberg
    Schultheis, D. and Frasch, M. (2023). Longitudinal visceral muscles in Drosophila fully dedifferentiate and fragment prior to their reestablishment during metamorphosis. MicroPubl Biol 2023. PubMed ID: 37008728

    Schaub, C., Rose, M. and Frasch, M. (2019). Yorkie and JNK revert syncytial muscles into myoblasts during Org-1-dependent lineage reprogramming. J Cell Biol. PubMed ID: 31591186

    Schultheis, D., Schwirz, J. and Frasch, M. (2019). RNAi screen in Tribolium reveals involvement of F-BAR proteins in myoblast fusion and visceral muscle morphogenesis in insects. G3 (Bethesda) 9(4): 1141-1151. PubMed ID: 30733382

    Schultheis, D., Weisskopf, M., Schaub, C., Ansari, S., Dao, V. A., Grossmann, D., Majumdar, U., Hakeemi, M. S., Troelenberg, N., Richter, T., Schmitt-Engel, C., Schwirz, J., Strohlein, N., Teuscher, M., Bucher, G. and Frasch, M. (2019). A Large Scale Systemic RNAi Screen in the Red Flour Beetle Tribolium castaneum Identifies Novel Genes Involved in Insect Muscle Development. G3 (Bethesda). PubMed ID: 30733381

    Schultheis, D., Schwirz, J. and Frasch, M. (2019). RNAi screen in Tribolium reveals involvement of F-BAR proteins in myoblast fusion and visceral muscle morphogenesis in Insects. G3 (Bethesda). PubMed ID: 30733382

    Schaub, C., März, J., Reim, I. and Frasch, M. (2015). Org-1-dependent lineage reprogramming generates the ventral longitudinal musculature of the Drosophila heart. Curr Biol [Epub ahead of print]. PubMed ID: 25660543

    Hollfelder, D., Frasch, M. and Reim, I. (2014). Distinct functions of the laminin beta LN domain and collagen IV during cardiac extracellular matrix formation and stabilization of alary muscle attachments revealed by EMS mutagenesis in Drosophila. BMC Dev Biol 14: 26. PubMed ID: 24935095

    Jin, H., Stojnic, R., Adryan, B., Ozdemir, A., Stathopoulos, A. and Frasch, M. (2013). Genome-wide screens for in vivo Tinman binding sites identify cardiac enhancers with diverse functional architectures. PLoS Genet 9: e1003195. PubMed ID: 23326246

    Schaub, C., Frasch, M. (2013) Org-1 is required for the diversification of circular visceral muscle founder cells and normal midgut morphogenesis. Dev Biol. PubMed ID: 23380635

    Reim, I., Hollfelder, D., Ismat, A. and Frasch, M. (2012). The FGF8-related signals Pyramus and Thisbe promote pathfinding, substrate adhesion, and survival of migrating longitudinal gut muscle founder cells. Dev. Biol. 368(1): 28-43. PubMed Citation: 22609944

    Schaub, C., Nagaso, H., Jin, H. and Frasch, M. (2012). Org-1, the Drosophila ortholog of Tbx1, is a direct activator of known identity genes during muscle specification. Development 139: 1001-1012. PubMed ID: 22318630

  • Marc Freeman University of Massachusetts Medical School, Worchester
    Lassetter, A. P., Corty, M. M., Barria, R., Sheehan, A. E., Hill, J. Q., Aicher, S. A., Fox, A. N. and Freeman, M. R. (2023). Glial TGFβ activity promotes neuron survival in peripheral nerves. J Cell Biol 222(1). PubMed ID: 36399182

    Corty, M. M., Hulegaard, A. L., Hill, J. Q., Sheehan, A. E., Aicher, S. A. and Freeman, M. R. (2022). Discoidin domain receptor regulates ensheathment, survival, and caliber of peripheral axons. Development. PubMed ID: 36355066

    Chaturvedi, R., Stork, T., Yuan, C., Freeman, M. R. and Emery, P. (2022). Astrocytic GABA transporter controls sleep by modulating GABAergic signaling in Drosophila circadian neurons. Curr Biol. PubMed ID: 35303417

    Grieve, A. G., Yeh, Y. C., Chang, Y. F., Huang, H. Y., Zarcone, L., Breuning, J., Johnson, N., Stríaovsky, K., Brown, M. H., Parekh, A. B. and Freeman, M. (2021). Conformational surveillance of Orai1 by a rhomboid intramembrane protease prevents inappropriate CRAC channel activation. Mol Cell 81(23): 4784-4798. PubMed ID: 34800360

    Jay, T. R., Kang, Y., Jefferson, A. and Freeman, M. R. (2021). An ELISA-based method for rapid genetic screens in Drosophila. Proc Natl Acad Sci U S A 118(43). PubMed ID: 34686600

    Ackerman, S. D., Perez-Catalan, N. A., Freeman, M. R. and Doe, C. Q. (2021). Astrocytes close a motor circuit critical period. Nature 592(7854): 414-420. PubMed ID: 33828296

    Ma, Z. and Freeman, M. R. (2020). TrpML-mediated astrocyte microdomain Ca(2+) transients regulate astrocyte-tracheal interactions. Elife 9. PubMed ID: 33284108

    Hsu, J. M., Kang, Y., Corty, M. M., Mathieson, D., Peters, O. M. and Freeman, M. R. (2020). Injury-Induced Inhibition of Bystander Neurons Requires dSarm and Signaling from Glia. Neuron. PubMed ID: 33296670

    Muliyil, S., Levet, C., Dusterhoft, S., Dulloo, I., Cowley, S. A. and Freeman, M. (2020). ADAM17-triggered TNF signalling protects the ageing Drosophila retina from lipid droplet-mediated degeneration. Embo j: e104415. PubMed ID: 32715522

    Gu, P., Gong, J., Shang, Y., Wang, F., Ruppell, K. T., Ma, Z., Sheehan, A. E., Freeman, M. R. and Xiang, Y. (2019). Polymodal nociception in Drosophila requires alternative splicing of TrpA1. Curr Biol. PubMed ID: 31735672

    Smith, G. A., Lin, T. H., Sheehan, A. E., Van der Goes van Naters, W., Neukomm, L. J., Graves, H. K., Bis-Brewer, D. M., Zuchner, S. and Freeman, M. R. (2019). Glutathione S-transferase regulates mitochondrial populations in axons through increased glutathione oxidation. Neuron. PubMed ID: 31101394

    Farley, J. E., Burdett, T. C., Barria, R., Neukomm, L. J., Kenna, K. P., Landers, J. E. and Freeman, M. R. (2018). Transcription factor Pebbled/RREB1 regulates injury-induced axon degeneration. Proc Natl Acad Sci U S A. PubMed ID: 29295933

  • Matthew Freeman MRC Laboratory of Molecular Biology, Cambridge, England
    Adrain, C. and Freeman, M. (2014). Regulation of receptor tyrosine kinase ligand processing. Cold Spring Harb Perspect Biol 6. PubMed ID: 24384567

    Aldaz, S., Escudero, L. M., Freeman, M. (2013) Dual role of myosin II during Drosophila imaginal disc metamorphosis. Nat Commun 4: 1761. PubMed ID: 23612302

    Aldaz, S., Escudero, L. M. and Freeman, M. (2010). Live imaging of Drosophila imaginal disc development. Proc Natl Acad Sci 107: 14217-14222. PubMed ID: 20660765

    Zettl, M., Adrain, C., Strisovsky, K., Lastun, V., and Freeman, M. (2011). Rhomboid Family Pseudoproteases Use the ER Quality Control Machinery to Regulate Intercellular Signaling. Cell 145: 79-91. PubMed Citation: 21439629

  • Robert Fredriksson Department of Pharmaceutical Biosciences, Research; Molecular Neuropharmacology, Uppsala University, Sweden
    Ceder, M. M., Lindberg, F. A., Perland, E., Williams, M. J. and Fredriksson, R. (2021). The Fly Homologue of MFSD11 Is Possibly Linked to Nutrient Homeostasis and Has a Potential Role in Locomotion: A First Characterization of the Atypical Solute Carrier CG18549 in Drosophila Melanogaster. Insects 12(11). PubMed ID: 34821824

    Ceder, M. M., Aggarwal, T., Hosseini, K., Maturi, V., Patil, S., Perland, E., Williams, M. J. and Fredriksson, R. (2020). CG4928 Is Vital for Renal Function in Fruit Flies and Membrane Potential in Cells: A First In-Depth Characterization of the Putative Solute Carrier UNC93A. Front Cell Dev Biol 8: 580291. PubMed ID: 33163493

    Ceder, M. M., Lekholm, E., Klaesson, A., Tripathi, R., Schweizer, N., Weldai, L., Patil, S. and Fredriksson, R. (2020). Glucose Availability Alters Gene and Protein Expression of Several Newly Classified and Putative Solute Carriers in Mice Cortex Cell Culture and D. melanogaster. Front Cell Dev Biol 8: 579. PubMed ID: 32733888

    Aggarwal, T., Patil, S., Ceder, M., Hayder, M. and Fredriksson, R. (2019). Knockdown of SLC38 Transporter Ortholog - CG13743 Reveals a Metabolic Relevance in Drosophila. Front Physiol 10: 1592. PubMed ID: 32038282

    Perland, E., Bagchi, S., Klaesson, A. and Fredriksson, R. (2017). Characteristics of 29 novel atypical solute carriers of major facilitator superfamily type: evolutionary conservation, predicted structure and neuronal co-expression. Open Biol 7(9). PubMed ID: 28878041

  • Zachary Freyberg Center for Neuroscience, University of Pittsburgh
    Buck, S. A., Steinkellner, T., Aslanoglou, D., Villeneuve, M., Bhatte, S. H., Childers, V. C., Rubin, S. A., De Miranda, B. R., O'Leary, E. I., Neureiter, E. G., Fogle, K. J., Palladino, M. J., Logan, R. W., Glausier, J. R., Fish, K. N., Lewis, D. A., Greenamyre, J. T., McCabe, B. D., Cheetham, C. E. J., Hnasko, T. S. and Freyberg, Z. (2021). Vesicular glutamate transporter modulates sex differences in dopamine neuron vulnerability to age-related neurodegeneration. Aging Cell: e13365. PubMed ID: 33909313

    Deshpande, S. A., Freyberg, Z., Lawal, H. O. and Krantz, D. E. (2020). Vesicular neurotransmitter transporters in Drosophila melanogaster. Biochim Biophys Acta Biomembr 1862(12): 183308. PubMed ID: 32305263

    Steinkellner, T., Zell, V., Farino, Z. J., Sonders, M. S., Villeneuve, M., Freyberg, R. J., Przedborski, S., Lu, W., Freyberg, Z. and Hnasko, T. S. (2018). Role for VGLUT2 in selective vulnerability of midbrain dopamine neurons. J Clin Invest 128(2): 774-788. PubMed ID: 29337309

  • Rachael French San Jose State University
    Belhorma, K., Darwish, N., Benn-Hirsch, E., Duenas, A., Gates, H., Sanghera, N., Wu, J. and French, R. L. (2021). Developmental ethanol exposure causes central nervous system dysfunction and may slow the aging process in a Drosophila model of fetal alcohol spectrum disorder. Alcohol. PubMed ID: 33961967

    Gates, H., Urbina, B. and French, R. (2018). Developmental ethanol exposure causes reduced feeding and reveals a critical role for Neuropeptide F in survival. Front Physiol 9: 237. PubMed ID: 29623043

    Luu, P., Zaki, S. A., Tran, D. H. and French, R. L. (2015). A Novel Gene Controlling the Timing of Courtship Initiation in Drosophila melanogaster. Genetics. PubMed ID: 26721856

    Logan-Garbisch, T., Bortolazzo, A., Luu, P., Ford, A., Do, D., Khodabakhshi, P. and French, R. L. (2014). Developmental ethanol exposure leads to dysregulation of lipid metabolism and oxidative stress in Drosophila. G3 (Bethesda) 5: 49-59. PubMed ID: 25387828

    Tran, D. H., Meissner, G. W., French, R. L. and Baker, B. S. (2014). A small subset of fruitless subesophageal neurons modulate early courtship in Drosophila. PLoS One 9: e95472. PubMed ID: 24740138

  • Urban Friberg Evolutionary Biology Centre, Uppsala University
    Malacrino, A., Brengdahl, M. I., Kimber, C. M., Mital, A., Shenoi, V. N., Mirabello, C. and Friberg, U. (2022). Ageing desexualizes the Drosophila brain transcriptome. Proc Biol Sci 289(1980): 20221115. PubMed ID: 35946149

    Stocks, M., Dean, R., Rogell, B. and Friberg, U. (2015). Sex-specific Trans-regulatory Variation on the Drosophila melanogaster X Chromosome. PLoS Genet 11: e1005015. PubMed ID: 25679222

    Shenoi, V. N., Brengdahl, M. I., Grace, J. L., Eriksson, B., Ryden, P. and Friberg, U. (2022). A genome-wide test for paternal indirect genetic effects on lifespan in Drosophila melanogaster. Proc Biol Sci 289(1974): 20212707. PubMed ID: 35538781

    Schell, B., Legrand, P. and Fribourg, S. (2022). Crystal structure of SFPQ-NONO heterodimer. Biochimie 198: 1-7. PubMed ID: 35245601

    Brengdahl, M. I., Kimber, C. M., Elias, P., Thompson, J. and Friberg, U. (2020). Deleterious mutations show increasing negative effects with age in Drosophila melanogaster. BMC Biol 18(1): 128. PubMed ID: 32993647

    Brengdahl, M., Kimber, C. M., Maguire-Baxter, J., Malacrino, A. and Friberg, U. (2018). Genetic quality affects the rate of male and female reproductive aging differently in Drosophila melanogaster. Am Nat 192(6): 761-772. PubMed ID: 30444654

    Brengdahl, M., Kimber, C. M., Maguire-Baxter, J. and Friberg, U. (2018). Sex differences in life span: Females homozygous for the X chromosome do not suffer the shorter life span predicted by the unguarded X hypothesis. Evolution 72(3): 568-577. PubMed ID: 29430636

    Griffin, R.M., Schielzeth, H. and Friberg, U. (2016). Autosomal and X linked additive genetic variation for lifespan and aging: Comparisons within and between the sexes in Drosophila melanogaster. G3 (Bethesda) [Epub ahead of print]. PubMed ID: 27678519

    Zajitschek, F., Zajitschek, S. R., Canton, C., Georgolopoulos, G., Friberg, U. and Maklakov, A. A. (2016). Evolution under dietary restriction increases male reproductive performance without survival cost. Proc Biol Sci 283. PubMed ID: 26911958

    Griffin, R.M., Le Gall, D., Schielzeth, H. and Friberg, U. (2015). Within-population Y-linked genetic variation for lifespan in Drosophila melanogaster. J Evol Biol [Epub ahead of print]. PubMed ID: 26230387

  • Claudia Fricke Evolution and Sexual Conflict Group, Institute for Evolution and Biodiversity, University of Muenster
    Canal Domenech, B. and Fricke, C. (2023). Developmental heat stress interrupts spermatogenesis inducing early male sterility in Drosophila melanogaster. J Therm Biol 114: 103589. PubMed ID: 37300998

    Koppik, M. and Fricke, C. (2022). Sex peptide receipt alters macronutrient utilization but not optimal yeast-sugar ratio in Drosophila melanogaster females. J Insect Physiol 139: 104382. PubMed ID: 35318041

    Wensing, K. U. and Fricke, C. (2018). Divergence in sex peptide-mediated female post-mating responses in Drosophila melanogaster. Proc Biol Sci 285(1886). PubMed ID: 30209231

    Ruhmann, H., Koppik, M., Wolfner, M. F. and Fricke, C. (2018). The impact of ageing on male reproductive success in Drosophila melanogaster. Exp Gerontol 103: 1-10. PubMed ID: 29258876

    Koppik, M., Ruhmann, H. and Fricke, C. (2018). The effect of mating history on male reproductive ageing in Drosophila melanogaster. J Insect Physiol 111: 16-24. PubMed ID: 30312587

  • Yih-Woei Fridell Department of Allied Health Sciences, College of Agriculture and Natural Resources, University of Connecticut, Stores
    Kannan, K. and Fridell, Y. W. (2013). Functional implications of insulin-like peptides in metabolism, aging, and dietary restriction. Front Physiol 4: 288. PubMed ID: 24137131

    Islam, R., Yang, L., Sah, M., Kannan, K., Anamani, D., Vijayan, C., Kwok, J., Cantino, M. E., Beal, M. F. and Fridell, Y. W. (2012). A neuroprotective role of the human uncoupling protein 2 (hUCP2) in a Drosophila Parkinson's disease model. Neurobiol Dis 46: 137-146. PubMed ID: 22266335

    Haselton, A. T. and Fridell, Y. W. (2011). Insulin injection and hemolymph extraction to measure insulin sensitivity in adult Drosophila melanogaster. J Vis Exp. PubMed ID: 21750490

  • Judith Fridovich-Keil Dept. of Human Genetics, Emory University School of Medicine, Atlanta
    Jumbo-Lucioni, P. P., Ryan, E. L., Hopson, M., Bishop, H., Weitner, T., Tovmasyan, A., Spasojevic, I., Batinic-Haberle, I., Liang, Y., Jones, D. P. and Fridovich-Keil, J. L. (2013). Manganese-based superoxide dismutase mimics modify both acute and long-term outcome severity in a Drosophila melanogaster model of classic galactosemia. Antioxid Redox Signal. PubMed ID: 23758052

    Jumbo-Lucioni, P. P., Hopson, M. L., Hang, D., Liang, Y., Jones, D. P. and Fridovich-Keil, J. L. (2013). Oxidative stress contributes to outcome severity in a Drosophila melanogaster model of classic galactosemia. Dis Model Mech 6: 84-94. PubMed ID: 22773758

    Ryan, E. L., DuBoff, B., Feany, M. B. and Fridovich-Keil, J. L. (2012). Mediators of a long-term movement abnormality in a Drosophila melanogaster model of classic galactosemia. Dis Model Mech 5: 796-803. PubMed ID: 22736462

    Daenzer, J. M., Sanders, R. D., Hang, D. and Fridovich-Keil, J. L. (2012). UDP-galactose 4'-epimerase activities toward UDP-Gal and UDP-GalNAc play different roles in the development of Drosophila melanogaster. PLoS Genet 8: e1002721. PubMed ID: 22654673

  • Maxim Frolov Department of Biochemistry and Molecular Genetics, College of Medicine University of Illinois at Chicago
    Zappia, M. P., Kwon, Y. J., Westacott, A., Liseth, I., Lee, H. M., Islam, A., Kim, J. and Frolov, M. V. (2023). E2F regulation of the Phosphoglycerate kinase gene is functionally important in Drosophila development. Proc Natl Acad Sci U S A 120(15): e2220770120. PubMed ID: 37011211

    Zappia, M. P., Guarner, A., Kellie-Smith, N., Rogers, A., Morris, R., Nicolay, B., Boukhali, M., Haas, W., Dyson, N. J. and Frolov, M. V. (2021). E2F/Dp inactivation in fat body cells triggers systemic metabolic changes. Elife 10. PubMed ID: 34251339

    Zappia, M. P., de Castro, L., Ariss, M. M., Jefferson, H., Islam, A. B. and Frolov, M. V. (2020). A cell atlas of adult muscle precursors uncovers early events in fibre-type divergence in Drosophila. EMBO Rep: e49555. PubMed ID: 32815271

    Ariss, M. M., Terry, A. R., Islam, A., Hay, N. and Frolov, M. V. (2020). Amalgam regulates the receptor tyrosine kinase pathway through Sprouty in glial cell development. J Cell Sci. PubMed ID: 32878945

    Ariss, M. M., Islam, A., Critcher, M., Zappia, M. P. and Frolov, M. V. (2018). Single cell RNA-sequencing identifies a metabolic aspect of apoptosis in Rbf mutant. Nat Commun 9(1): 5024. PubMed ID: 30479347

    Truscott, M., Islam, A. B. and Frolov, M. V. (2016). Novel regulation and functional interaction of polycistronic miRNAs. RNA 22: 129-138. PubMed ID: 26554028

    Zappia, M. P. and Frolov, M. V. (2016). E2F function in muscle growth is necessary and sufficient for viability in Drosophila. Nat Commun 7: 10509. PubMed ID: 26823289

    Truscott, M., Islam, A. B., Lightfoot, J., Lopez-Bigas, N. and Frolov, M. V. (2014). An Intronic microRNA Links Rb/E2F and EGFR Signaling. PLoS Genet 10: e1004493. PubMed ID: 25058496

    Ambrus, A. M., Islam, A. B., Holmes, K. B., Moon, N. S., Lopez-Bigas, N., Benevolenskaya, E. V. and Frolov, M. V. (2013). Loss of dE2F Compromises Mitochondrial Function. Dev Cell 27: 438-451. PubMed ID: 24286825

    Bayarmagnai, B., Nicolay, B. N., Islam, A. B., Lopez-Bigas, N. and Frolov, M. V. (2012). Drosophila GAGA factor is required for full activation of the dE2f1-Yki/Sd transcriptional program. Cell Cycle 11: 4191-4202. PubMed ID: 23070566

    Nicholson, S. C., Nicolay, B. N., Frolov, M. V. and Moberg, K. H. (2011). Notch-dependent expression of the archipelago ubiquitin ligase subunit in the Drosophila eye. Development 138: 251-260. PubMed ID: 21148181

  • James Fry Department of Biology, University of Rochester, Rochester, N.Y.
    Chakraborty, M. and Fry, J.D. (2015). Evidence that environmental heterogeneity maintains a detoxifying enzyme polymorphism in Drosophila melanogaster. Curr Biol [Epub ahead of print]. PubMed ID: 26748852

    Chakraborty, M. and Fry, J. D. (2015). Parallel functional changes in independent testis-specific duplicates of Aldehyde dehydrogenase in Drosophila. Mol Biol Evol. PubMed ID: 25564519

    Fry, J. D. (2014). Mechanisms of naturally evolved ethanol resistance in Drosophila melanogaster. J Exp Biol 217: 3996-4003. PubMed ID: 25392459

    Yampolsky, L. Y., Glazko, G. V. and Fry, J. D. (2012). Evolution of gene expression and expression plasticity in long-term experimental populations of Drosophila melanogaster maintained under constant and variable ethanol stress. Mol Ecol 21: 4287-4299. PubMed ID: 22774776

    Chakraborty, M. and Fry, J. D. (2011). Drosophila lacking a homologue of mammalian ALDH2 have multiple fitness defects. Chem Biol Interact 191: 296-302. PubMed ID: 21296060

  • Horacio Frydman Department of Biology, Boston University
    Deehan, M., Lin, W., Blum, B., Emili, A. and Frydman, H. (2021). Intracellular Density of Wolbachia Is Mediated by Host Autophagy and the Bacterial Cytoplasmic Incompatibility Gene cifB in a Cell Type-Dependent Manner in Drosophila melanogaster. mBio 12(1). PubMed ID: 33436431
    Carneiro Dutra, H. L., Deehan, M. A. and Frydman, H. (2020). Wolbachia and Sirtuin-4 interaction is associated with alterations in host glucose metabolism and bacterial titer. PLoS Pathog 16(10): e1008996. PubMed ID: 33048997

    Simhadri, R. K., Fast, E. M., Guo, R., Schultz, M. J., Vaisman, N., Ortiz, L., Bybee, J., Slatko, B. E. and Frydman, H. M. (2017). The Gut Commensal Microbiome of Drosophila melanogaster Is Modified by the Endosymbiont Wolbachia. mSphere 2(5). PubMed ID: 28932814

    Toomey, M. E. and Frydman, H. M. (2014). Extreme divergence of Wolbachia tropism for the stem-cell-niche in the Drosophila testis. PLoS Pathog 10(12): e1004577. PubMed ID: 25521619

  • Marc Frye Department of Integrative Biology and Physiology, UCLA
    Rimniceanu, M., Currea, J. P. and Frye, M. A. (2023). Proprioception gates visual object fixation in flying flies. Curr Biol. PubMed ID: 37001520

    Hardcastle, B. J., Omoto, J. J., Kandimalla, P., Nguyen, B. M., Keleş, M. F., Boyd, N. K., Hartenstein, V. and Frye, M. A. (2021). A visual pathway for skylight polarization processing in Drosophila. Elife 10. PubMed ID: 33755020

    Cheng, K. Y. and Frye, M. A. (2021). Odour boosts visual object approach in flies. Biol Lett 17(3): 20200770. PubMed ID: 33726562

    Stadele, C., Keleş, M. F., Mongeau, J. M. and Frye, M. A. (2020). Non-canonical Receptive Field Properties and Neuromodulation of Feature-Detecting Neurons in Flies. Curr Biol. PubMed ID: 32442460

    Salem, W., Cellini, B., Frye, M. A. and Mongeau, J. M. (2020). Fly eyes are not still: a motion illusion in Drosophila flight supports parallel visual processing. J Exp Biol. PubMed ID: 32321749

    Keles, M. F., Hardcastle, B. J., Stadele, C., Xiao, Q. and Frye, M. A. (2020). Inhibitory interactions and columnar inputs to an object motion detector in Drosophila. Cell Rep 30(7): 2115-2124. PubMed ID: 32075756

    Cheng, K. Y., Colbath, R. A. and Frye, M. A. (2019). Olfactory and neuromodulatory signals reverse visual object avoidance to approach in Drosophila. Curr Biol 29(12): 2058-2065.e2052. PubMed ID: 31155354

    Keles, M. F., Mongeau, J. M. and Frye, M. A. (2018). Object features and T4/T5 motion detectors modulate the dynamics of bar tracking by Drosophila. J Exp Biol. PubMed ID: 30446539

    Omoto, J. J., Keles, M. F., Nguyen, B. M., Bolanos, C., Lovick, J. K., Frye, M. A. and Hartenstein, V. (2017). Visual Input to the Drosophila Central Complex by Developmentally and Functionally Distinct Neuronal Populations. Curr Biol 27(8): 1098-1110. PubMed ID: 28366740

  • Tsai-Feng Fu National Chi Nan University, Taiwan
    Chen, S. L., Liu, B. T., Lee, W. P., Liao, S. B., Deng, Y. B., Wu, C. L., Ho, S. M., Shen, B. X., Khoo, G. H., Shiu, W. C., Chang, C. H., Shih, H. W., Wen, J. K., Lan, T. H., Lin, C. C., Tsai, Y. C., Tzeng, H. F. and Fu, T. F. (2022). WAKE-mediated modulation of cVA perception via a hierarchical neuro-endocrine axis in Drosophila male-male courtship behaviour. Nat Commun 13(1): 2518. PubMed ID: 35523813

    Chen, S. L., Chen, Y. H., Wang, C. C., Yu, Y. W., Tsai, Y. C., Hsu, H. W., Wu, C. L., Wang, P. Y., Chen, L. C., Lan, T. H. and Fu, T. F. (2017). Active and passive sexual roles that arise in Drosophila male-male courtship are modulated by dopamine levels in PPL2ab neurons. Sci Rep 7: 44595. PubMed ID: 28294190

    Wu, C. L., Fu, T. F., Chiang, M. H., Chang, Y. W., Her, J. L. and Wu, T. (2016). Magnetoreception Regulates Male Courtship Activity in Drosophila. PLoS One 11(5): e0155942. PubMed ID: 27195955

    Yang, C. H., Shih, M. F., Chang, C. C., Chiang, M. H., Shih, H. W., Tsai, Y. L., Chiang, A. S., Fu, T. F. and Wu, C. L. (2016). Additive Expression of Consolidated Memory through Drosophila Mushroom Body Subsets. PLoS Genet 12(5): e1006061. PubMed ID: 27195782

  • Ying-Hui Fu Neurology, University of California, San Francisco
    Kaasik, K., Kivimae, S., Allen, J. J., Chalkley, R. J., Huang, Y., Baer, K., Kissel, H., Burlingame, A. L., Shokat, K. M., Ptacek, L. J. and Fu, Y. H. (2013). Glucose Sensor O-GlcNAcylation Coordinates with Phosphorylation to Regulate Circadian Clock. Cell Metab 17: 291-302. PubMed ID: 23395175

    Shen, Y., Lee, H. Y., Rawson, J., Ojha, S., Babbitt, P., Fu, Y. H. and Ptacek, L. J. (2011). Mutations in PNKD causing paroxysmal dyskinesia alters protein cleavage and stability. Hum Mol Genet 20: 2322-2332. PubMed ID: 21487022

  • Margaret Fuller Department of Developmental Biology and Department of Genetics, Stanford University School of Medicine
    Baker, C. C., Gallicchio, L., Parsanian, L., Taing, E., Tam, C. and Fuller, M. T. (2023). A cell-type-specific multi-protein complex regulates expression of Cyclin B protein in Drosophila male meiotic prophase. bioRxiv. PubMed ID: 36824933

    Raz, A. A., Vida, G. S., Stern, S. R., Mahadevaraju, S., Fingerhut, J. M., Viveiros, J. M., Pal, S., Grey, J. R., Grace, M. R., Berry, C. W., Li, H., Janssens, J., Saelens, W., Shao, Z., Hu, C., Yamashita, Y. M., Przytycka, T., Oliver, B., Brill, J. A., Krause, H., Matunis, E. L., White-Cooper, H., DiNardo, S. and Fuller, M. T. (2023). Emergent dynamics of adult stem cell lineages from single nucleus and single cell RNA-Seq of Drosophila testes. Elife 12. PubMed ID: 36795469

    Lu, D., Sin, H. S., Lu, C. and Fuller, M. T. (2020). Developmental regulation of cell type-specific transcription by novel promoter-proximal sequence elements. Genes Dev. PubMed ID: 32217666

    Angulo, B., Srinivasan, S., Bolival, B. J., Olivares, G. H., Spence, A. C. and Fuller, M. T. (2019). DREF genetically counteracts Mi-2 and Caf1 to regulate adult stem cell maintenance. PLoS Genet 15(6): e1008187. PubMed ID: 31226128

    Papagiannouli, F., Berry, C. W. and Fuller, M. T. (2019). The Dlg module and Clathrin-mediated endocytosis regulate EGFR signaling and cyst cell-germline coordination in the Drosophila testis. Stem Cell Reports. PubMed ID: 31006632

    Brantley, S. E. and Fuller, M. T. (2019). Somatic support cells regulate germ cell survival through the Baz/aPKC/Par6 complex. Development 146(8). PubMed ID: 30918053

    Bailey, A. S., Batista, P. J., Gold, R. S., Chen, Y. G., de Rooij, D. G., Chang, H. Y. and Fuller, M. T. (2017). The conserved RNA helicase YTHDC2 regulates the transition from proliferation to differentiation in the germline. Elife 6. PubMed ID: 29087293

    Kim, J., Lu, C., Srinivasan, S., Awe, S., Brehm, A. and Fuller, M. T. (2017). Blocking promiscuous activation at cryptic promoters directs cell type-specific gene expression. Science 356(6339): 717-721. PubMed ID: 28522526

    Sawyer, E. M., Brunner, E. C., Hwang, Y., Ivey, L. E., Brown, O., Bannon, M., Akrobetu, D., Sheaffer, K. E., Morgan, O., Field, C. O., Suresh, N., Gordon, M. G., Gunnell, E. T., Regruto, L. A., Wood, C. G., Fuller, M. T. and Hales, K. G. (2017). Testis-specific ATP synthase peripheral stalk subunits required for tissue-specific mitochondrial morphogenesis in Drosophila. BMC Cell Biol 18(1): 16. PubMed ID: 28335714

    Fuller, M. T. (2016). Differentiation in Stem Cell Lineages and in Life: Explorations in the Male Germ Line Stem Cell Lineage. Curr Top Dev Biol 116: 375-390. PubMed ID: 26970629

  • Maria Furia Developmental Biology, Genetics And Genomics, Università di Napoli Federico II
    Vicidomini, R., Petrizzo, A., di Giovanni, A., Cassese, L., Lombardi, A. A., Pragliola, C. and Furia, M. (2017). Drosophila dyskerin is required for somatic stem cell homeostasis. Sci Rep 7(1): 347. PubMed ID: 28337032

    Vicidomini, R., Di Giovanni, A., Petrizzo, A., Iannucci, L. F., Benvenuto, G., Nagel, A. C., Preiss, A. and Furia, M. (2015). Loss of Drosophila pseudouridine synthase triggers apoptosis-induced proliferation and promotes cell-nonautonomous EMT. Cell Death Dis 6: e1705. PubMed ID: 25811802

    Angrisani, A., Tafer, H., Stadler, P. F. and Furia, M. (2015). Developmentally regulated expression and expression strategies of Drosophila snoRNAs. Insect Biochem Mol Biol. PubMed ID: 25641266

    Vicidomini, R., Tortoriello, G., Furia, M. and Polese, G. (2010). Laser microdissection applied to gene expression profiling of subset of cells from the Drosophila wing disc. J Vis Exp. PubMed ID: 20436400

  • Eileen Furlong EMBL Heidelberg
    Cavalheiro, G. R., Girardot, C., Viales, R. R., Pollex, T., Cao, T. B. N., Lacour, P., Feng, S., Rabinowitz, A. and Furlong, E. E. M. (2023). CTCF, BEAF-32, and CP190 are not required for the establishment of TADs in early Drosophila embryos but have locus-specific roles. Sci Adv 9(5): eade1085. PubMed ID: 36735786

    Calderon, D., Blecher-Gonen, R., Huang, X., Secchia, S., Kentro, J., Daza, R. M., Martin, B., Dulja, A., Schaub, C., Trapnell, C., Larschan, E., O'Connor-Giles, K. M., Furlong, E. E. M. and Shendure, J. (2022). The continuum of Drosophila embryonic development at single-cell resolution. Science 377(6606): eabn5800. PubMed ID: 35926038

    Secchia, S., Forneris, M., Heinen, T., Stegle, O. and Furlong, E. E. M. (2022). Simultaneous cellular and molecular phenotyping of embryonic mutants using single-cell regulatory trajectories. Dev Cell 57(4): 496-511.e498. PubMed ID: 35176234

    Kogler, A. C., Kherdjemil, Y., Bender, K., Rabinowitz, A., Marco-Ferreres, R. and Furlong, E. E. M. (2021). Extremely rapid and reversible optogenetic perturbation of nuclear proteins in living embryos. Dev Cell 56(16): 2348-2363. PubMed ID: 34363757

    Liu, J., Viales, R. R., Khoueiry, P., Reddington, J. P., Girardot, C., Furlong, E. and Robinson-Rechavi, M. (2021). The hourglass model of evolutionary conservation during embryogenesis extends to developmental enhancers with signatures of positive selection. Genome Res. PubMed ID: 34266978

    Floc'hlay, S., Wong, E., Zhao, B., Viales, R. R., Thomas-Chollier, M., Thieffry, D., Garfield, D. A. and Furlong, E. E. M. (2020). Cis-acting variation is common across regulatory layers but is often buffered during embryonic development. Genome Res. PubMed ID: 33310749

    Reddington, J. P., Garfield, D. A., Sigalova, O. M., Karabacak Calviello, A., Marco-Ferreres, R., Girardot, C., Viales, R. R., Degner, J. F., Ohler, U. and Furlong, E. E. M. (2020). Lineage-Resolved Enhancer and Promoter Usage during a Time Course of Embryogenesis. Dev Cell. PubMed ID: 33171098

    Sigalova, O. M., Shaeiri, A., Forneris, M., Furlong, E. E. and Zaugg, J. B. (2020). Predictive features of gene expression variation reveal mechanistic link with differential expression. Mol Syst Biol 16(8): e9539. PubMed ID: 32767663

    Zhou, J., Schor, I. E., Yao, V., Theesfeld, C. L., Marco-Ferreres, R., Tadych, A., Furlong, E. E. M. and Troyanskaya, O. G. (2019). Accurate genome-wide predictions of spatio-temporal gene expression during embryonic development. PLoS Genet 15(9): e1008382. PubMed ID: 31553718

    Ghavi-Helm, Y., Jankowski, A., Meiers, S., Viales, R. R., Korbel, J. O. and Furlong, E. E. M. (2019). Highly rearranged chromosomes reveal uncoupling between genome topology and gene expression. Nat Genet 51(8): 1272-1282. PubMed ID: 31308546

    Wu, W. H., Kuo, T. H., Kao, C. W., Girardot, C., Hung, S. J., Liu, T., Furlong, E. E. M. and Liu, Y. H. (2019). Expanding the mesodermal transcriptional network by genome-wide identification of Zinc finger homeodomain 1 (Zfh1) targets. FEBS Lett. PubMed ID: 31093969

    Schor, I. E., Bussotti, G., Males, M., Forneris, M., Viales, R. R., Enright, A. J. and Furlong, E. E. M. (2018). Non-coding RNA Expression, Function, and Variation during Drosophila Embryogenesis. Curr Biol. PubMed ID: 30393032

  • Kazuhiro Furukawa Niigata University
    Pandey, H., Bourahmoune, K., Honda, T., Honjo, K., Kurita, K., Sato, T., Sawa, A. and Furukubo-Tokunaga, K. (2017). Genetic interaction of DISC1 and Neurexin in the development of fruit fly glutamatergic synapses. NPJ Schizophr 3(1): 39. PubMed ID: 29079805 Uchino, R., Sugiyama, S., Katagiri, M., Chuman, Y. and Furukawa, K. (2017). Non-farnesylated B-type lamin can tether chromatin inside the nucleus and its chromatin interaction requires the Ig-fold region. Chromosoma 126(1):125-144. PubMed ID: 26892013

    Uchino, R., Nonaka, Y. K., Horigome, T., Sugiyama, S. and Furukawa, K. (2013). Loss of Drosophila A-type lamin C initially causes tendon abnormality including disintegration of cytoskeleton and nuclear lamina in muscular defects. Dev Biol 373: 216-227. PubMed ID: 22982669

    Liu, Z., Matsuoka, S., Enoki, A., Yamamoto, T., Furukawa, K., Yamasaki, Y., Nishida, Y. and Sugiyama, S. (2011). Negative modulation of bone morphogenetic protein signaling by Dullard during wing vein formation in Drosophila. Dev Growth Differ 53: 822-841. PubMed ID: 21790556

  • Katsuo Furukubo-Tokunaga Life and Environmental Sciences, University of Tsukuba
    Pandey, H., Bourahmoune, K., Honda, T., Honjo, K., Kurita, K., Sato, T., Sawa, A. and Furukubo-Tokunaga, K. (2017). Genetic interaction of DISC1 and Neurexin in the development of fruit fly glutamatergic synapses. NPJ Schizophr 3(1): 39. PubMed ID: 29079805

    Honda, T., Lee, C. Y., Honjo, K. and Furukubo-Tokunaga, K. (2016). Artificial induction of associative olfactory memory by optogenetic and thermogenetic activation of olfactory sensory neurons and octopaminergic neurons in Drosophila larvae. Front Behav Neurosci 10: 137. PubMed ID: 27445732

    Honda, T., Lee, C. Y., Yoshida-Kasikawa, M., Honjo, K. and Furukubo-Tokunaga, K. (2014). Induction of associative olfactory memory by targeted activation of single olfactory neurons in Drosophila larvae. Sci Rep 4: 4798. PubMed ID: 24762789

    Ando, M., Totani, Y., Walldorf, U. and Furukubo-Tokunaga, K. (2011). TALE-class homeodomain transcription factors, homothorax and extradenticle, control dendritic and axonal targeting of olfactory projection neurons in the Drosophila brain. Dev Biol 358: 122-136. PubMed ID: 21801717

    Mochizuki, H., Toda, H., Ando, M., Kurusu, M., Tomoda, T. and Furukubo-Tokunaga, K. (2011). Unc-51/ATG1 controls axonal and dendritic development via kinesin-mediated vesicle transport in the Drosophila brain. PLoS One 6: e19632. PubMed ID: 21589871

  • Mikio and Kyoko Furuse National Institute for Physiological Sciences, Okazaki, Aichi, Japan
    Izumi, Y., Furuse, K. and Furuse, M. (2021). The novel membrane protein Hoka regulates septate junction organization and stem cell homeostasis in the Drosophila gut. J Cell Sci 134(6). PubMed ID: 33589496

    Beyenbach, K. W., Schone, F., Breitsprecher, L. F., Tiburcy, F., Furuse, M., Izumi, Y., Meyer, H., Jonusaite, S., Rodan, A. R. and Paululat, A. (2020). The septate junction protein Tetraspanin 2A is critical to the structure and function of Malpighian tubules in Drosophila melanogaster. Am J Physiol Cell Physiol 318(6): C1107-C1122. PubMed ID: 32267718

    Jonusaite, S., Beyenbach, K. W., Meyer, H., Paululat, A., Izumi, Y., Furuse, M. and Rodan, A. R. (2020). The septate junction protein Mesh is required for epithelial morphogenesis, ion transport, and paracellular permeability in the Drosophila Malpighian tubule. Am J Physiol Cell Physiol 318(3): C675-C694. PubMed ID: 31913700

    >Izumi, Y., Furuse, K. and Furuse, M. (2019). Septate junctions regulate gut homeostasis through regulation of stem cell proliferation and enterocyte behavior in Drosophila. J Cell Sci 132(18). PubMed ID: 31444286

  • Dmitry Fyodorov Department of Cell Biology, Albert Einstein School of Medicine, Bronx, NY
    Andreyeva, E. N., Emelyanov, A. V., Nevil, M., Sun, L., Vershilova, E., Hill, C. A., Keogh, M. C., Duronio, R. J., Skoultchi, A. I. and Fyodorov, D. V. (2022). Drosophila SUMM4 complex couples insulator function and DNA replication control. Elife 11. PubMed ID: 36458689

    Andreyeva, E. N., Bernardo, T. J., Kolesnikova, T. D., Lu, X., Yarinich, L. A., Bartholdy, B. A., Guo, X., Posukh, O. V., Healton, S., Willcockson, M. A., Pindyurin, A. V., Zhimulev, I. F., Skoultchi, A. I. and Fyodorov, D. V. (2017). Regulatory functions and chromatin loading dynamics of linker histone H1 during endoreplication in Drosophila. Genes Dev 31(6): 603-616. PubMed ID: 28404631

    Emelyanov, A. V. and Fyodorov, D. V. (2016). Thioredoxin-dependent disulfide bond reduction is required for protamine eviction from sperm chromatin. Genes Dev [Epub ahead of print]. PubMed ID: 28031247

    Xu, N., Lu, X., Kavi, H., Emelyanov, A.V., Bernardo, T.J., Vershilova, E., Skoultchi, A.I. and Fyodorov, D.V. (2016). BEN domain protein Elba2 can functionally substitute for linker histone H1 in Drosophila in vivo. Sci Rep 6: 34354. PubMed ID: 27687115

    Kavi, H., Emelyanov, A. V., Fyodorov, D. V. and Skoultchi, A. I. (2016). Independent biological and biochemical functions for individual structural domains of Drosophila linker histone H1. J Biol Chem [Epub ahead of print]. PubMed ID: 27226620

    Kavi, H., Lu, X., Xu, N., Bartholdy, B. A., Vershilova, E., Skoultchi, A. I. and Fyodorov, D. V. (2015). A Genetic Screen and Transcript Profiling Reveal a Shared Regulatory Program for Drosophila Linker Histone H1 and Chromatin Remodeler CHD1. G3 (Bethesda). PubMed ID: 25628309

    Emelyanov, A. V., Rabbani, J., Mehta, M., Vershilova, E., Keogh, M. C. and Fyodorov, D. V. (2014). Drosophila TAP/p32 is a core histone chaperone that cooperates with NAP-1, NLP, and nucleophosmin in sperm chromatin remodeling during fertilization. Genes Dev 28: 2027-2040. PubMed ID: 25228646

    Xu, N., Emelyanov, A. V., Fyodorov, D. V. and Skoultchi, A. I. (2014). Drosophila linker histone H1 coordinates STAT-dependent organization of heterochromatin and suppresses tumorigenesis caused by hyperactive JAK-STAT signaling. Epigenetics Chromatin 7: 16. PubMed ID: 25177369

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