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Associated Resources List

16236 items
Strain   16234 items Go to list of Strain
DNA   2 items Go to list of DNA
Organism strain
Drosophila Wildtype 90 Go to list
NP Lines 4185 Go to list
Protein Trap Lines 996 Go to list
RNAi Lines 7271 Go to list
LA lines 2 Go to list
Basic strains 199 Go to list
GS Lines 1816 Go to list
Sequencing Strains 10 Go to list
GAL4 Lines 4203 Go to list
UAS Lines 66 Go to list
Deficiency Kit 14 Go to list
FLP 15 Go to list
FRT 7 Go to list
FRT-lethal(BruinFly) 1237 Go to list
Deficiencies 55 Go to list
GFP 1033 Go to list
Duplication Kit 5 Go to list
P element mutagenesis 6 Go to list
Mapping 1 Go to list
MARCM 31 Go to list
DrosDel 24 Go to list
Cas9 Strains 12 Go to list
TRiP Strains 275 Go to list
gRNA Strains 2 Go to list
Antibody 14 Go to list
Organism DNA
Drosophila Cas9 Plasmids 2 Go to list
Strain List 16234 items 1 - 20 / 16234
Drosophila: DGRC#103389  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103390  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103391  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103396  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103400  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103403  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103407  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103408  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103411  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103414  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103415  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103417  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103418  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103421  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103428  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103433  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103435  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103450  Available Kyoto Institute of Technology
Category: Wildtype
Drosophila: DGRC#103486  Available Kyoto Institute of Technology
Category: Wildtype
Species : D. melanogaster
Genotype : low stpl.18
Taxonomy : Drosophila
Reference : Kato Y, Sawada A, Tonai K, Tatsuno H, Uenoyama T, Itoh M. (2022) A new allele of engrailed, en
Drosophila: DGRC#105666  Available Kyoto Institute of Technology
Category: Wildtype
Species : D. melanogaster
Genotype : Canton-S
Taxonomy : Drosophila
Reference : Yanagawa A, Tomaru M, Kajiwara A, Nakajima H, Quemener ED, Steyer JP, Mitani T. (2020) Impact of 2.45 GHz Microwave Irradiation on the Fruit Fly, <i>Drosophila melanogaster</i>. Insects 11(9)
Yanagawa A, Tomaru M, Kajiwara A, Nakajima H, Quemener ED, Steyer JP, Mitani T. (2020) Impact of 2.45 GHz Microwave Irradiation on the Fruit Fly, <i>Drosophila melanogaster</i>. Insects 11(9)
Toyofuku M, Fujinaga D, Inaba K, Funahashi T, Fujikawa Y, Inoue H, Kataoka H, Niwa R, Ono H. (2021) The plant-derived triterpenoid, cucurbitacin B, but not cucurbitacin E, inhibits the developmental transition associated with ecdysone biosynthesis in Drosophila melanogaster. J Insect Physiol 134 104294
Toyofuku M, Fujinaga D, Inaba K, Funahashi T, Fujikawa Y, Inoue H, Kataoka H, Niwa R, Ono H. (2021) The plant-derived triterpenoid, cucurbitacin B, but not cucurbitacin E, inhibits the developmental transition associated with ecdysone biosynthesis in Drosophila melanogaster. J Insect Physiol 134 104294
Karim MR. (2021) A Method to Quantify <i>Drosophila</i> Behavioral Activities Induced by GABA
Karim MR. (2021) A Method to Quantify <i>Drosophila</i> Behavioral Activities Induced by GABA
Miwako Toyofuku, Daiki Fujinaga, Kazue Inaba, Tomoki Funahashi, Yuuta Fujikawa, Hideshi Inoue, Hiroshi Kataoka, Ryusuke Niwa, Hajime Ono (2021) The plant-derived triterpenoid, cucurbitacin B, but not cucurbitacin E, inhibits the developmental transition associated with ecdysone biosynthesis in Drosophila melanogaster Journal of Insect Physiology 134 104294
Miwako Toyofuku, Daiki Fujinaga, Kazue Inaba, Tomoki Funahashi, Yuuta Fujikawa, Hideshi Inoue, Hiroshi Kataoka, Ryusuke Niwa, Hajime Ono (2021) The plant-derived triterpenoid, cucurbitacin B, but not cucurbitacin E, inhibits the developmental transition associated with ecdysone biosynthesis in Drosophila melanogaster Journal of Insect Physiology 134 104294
Yang YT, Hu SW, Li X, Sun Y, He P, Kohlmeier KA, Zhu Y. (2023) Sex peptide regulates female receptivity through serotoninergic neurons in <i>Drosophila</i>. iScience 26(3) 106123
Yang YT, Hu SW, Li X, Sun Y, He P, Kohlmeier KA, Zhu Y. (2023) Sex peptide regulates female receptivity through serotoninergic neurons in <i>Drosophila</i>. iScience 26(3) 106123
Sanuki R, Tanaka T, Suzuki F, Ibaraki K, Takano T. (2019) Normal aging hyperactivates innate immunity and reduces the medical efficacy of minocycline in brain injury. Brain Behav Immun 80 427-438
Sanuki R, Tanaka T, Suzuki F, Ibaraki K, Takano T. (2019) Normal aging hyperactivates innate immunity and reduces the medical efficacy of minocycline in brain injury. Brain Behav Immun 80 427-438
Emborski C, Mikheyev AS. (2019) Ancestral diet transgenerationally influences offspring in a parent-of-origin and sex-specific manner. Philos Trans R Soc Lond B Biol Sci 374(1768) 20180181
Emborski C, Mikheyev AS. (2019) Ancestral diet transgenerationally influences offspring in a parent-of-origin and sex-specific manner. Philos Trans R Soc Lond B Biol Sci 374(1768) 20180181
Tomaru M, Ohsako T, Watanabe M, Juni N, Matsubayashi H, Sato H, Takahashi A, Yamamoto MT. (2018) Severe Fertility Effects of <i>sheepish</i> Sperm Caused by Failure To Enter Female Sperm Storage Organs in <i>Drosophila melanogaster</i>. G3 (Bethesda) 8(1) 149-160
Tomaru M, Ohsako T, Watanabe M, Juni N, Matsubayashi H, Sato H, Takahashi A, Yamamoto MT. (2018) Severe Fertility Effects of <i>sheepish</i> Sperm Caused by Failure To Enter Female Sperm Storage Organs in <i>Drosophila melanogaster</i>. G3 (Bethesda) 8(1) 149-160
Kerstens A, Corthout N, Pavie B, Huang Z, Vernaillen F, Vande Velde G, Munck S. (2019) A Label-free Multicolor Optical Surface Tomography (ALMOST) imaging method for nontransparent 3D samples. BMC Biol 17(1) 1
Kerstens A, Corthout N, Pavie B, Huang Z, Vernaillen F, Vande Velde G, Munck S. (2019) A Label-free Multicolor Optical Surface Tomography (ALMOST) imaging method for nontransparent 3D samples. BMC Biol 17(1) 1
DNA List 2 items 1 - 2 / 2
Drosophila: pBFv-U6.2  Available National Institute of GENETICS
Category: Cas9 Plasmids
Taxonomy : vectors
Reference : Bawankar P, Lence T, Paolantoni C, Haussmann IU, Kazlauskiene M, Jacob D, Heidelberger JB, Richter FM, Nallasivan MP, Morin V, Kreim N, Beli P, Helm M, Jinek M, Soller M, Roignant JY. (2021) Hakai is required for stabilization of core components of the m
Hun LV, Okamoto N, Imura E, Maxson R, Bittar R, Yamanaka N. (2022) Essential functions of mosquito ecdysone importers in development and reproduction. Proc Natl Acad Sci U S A 119(25) e2202932119
Thakkar N, Giesecke A, Bazalova O, Martinek J, Smykal V, Stanewsky R, Dolezel D. (2022) Evolution of casein kinase 1 and functional analysis of new <i>doubletime</i> mutants in <i>Drosophila</i>. Front Physiol 13 1062632
Enya S, Yamamoto C, Mizuno H, Esaki T, Lin HK, Iga M, Morohashi K, Hirano Y, Kataoka H, Masujima T, Shimada-Niwa Y, Niwa R. (2017) Dual Roles of Glutathione in Ecdysone Biosynthesis and Antioxidant Function During Larval Development in <i>Drosophila</i>. Genetics 207(4) 1519-1532
Okamoto N, Viswanatha R, Bittar R, Li Z, Haga-Yamanaka S, Perrimon N, Yamanaka N. (2018) A Membrane Transporter Is Required for Steroid Hormone Uptake in Drosophila. Dev Cell 47(3) 294-305.e7
Yamada T, Habara O, Yoshii Y, Matsushita R, Kubo H, Nojima Y, Nishimura T. (2019) The role of glycogen in development and adult fitness in <i>Drosophila</i>. Development 146(8)
Singh S, Giesecke A, Damulewicz M, Fexova S, Mazzotta GM, Stanewsky R, Dolezel D. (2019) New <i>Drosophila</i> Circadian Clock Mutants Affecting Temperature Compensation Induced by Targeted Mutagenesis of <i>Timeless</i>. Front Physiol 10 1442
Lence T, Akhtar J, Bayer M, Schmid K, Spindler L, Ho CH, Kreim N, Andrade-Navarro MA, Poeck B, Helm M, Roignant JY. (2016) m
Uryu O, Ou Q, Komura-Kawa T, Kamiyama T, Iga M, Syrzycka M, Hirota K, Kataoka H, Honda BM, King-Jones K, Niwa R. (2018) Cooperative Control of Ecdysone Biosynthesis in <i>Drosophila</i> by Transcription Factors Séance, Ouija Board, and Molting Defective. Genetics 208(2) 605-622
Uechi H, Kuranaga E. (2019) The Tricellular Junction Protein Sidekick Regulates Vertex Dynamics to Promote Bicellular Junction Extension. Dev Cell 50(3) 327-338.e5
Drosophila: pBFv-U6.2B  Available National Institute of GENETICS
Category: Cas9 Plasmids