RNAi

Gene Info

  • Species: Fly (Drosophila melanogaster)
  • GeneID: 31762
  • Symbol: ND-75
  • Description: NADH dehydrogenase (ubiquinone) 75 kDa subunit
DataSource: http://genomernai.dkfz.de/v16/genedetails/31762

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Stable_ID Entrez_ID Gene_ID Gene_Symbol Reagent_ID Score Phenotype Conditions Follow_Up Comment Screen_Title Publication_Title Authors Publication_Year Pubmed_ID Biosource Biomodel Assay Method Library Scope Reagent_Type Score_Type Cutoff Notes
GR00002-A 31762 FBgn0017566 ND75 DRSC18686 5.443083022 Increased lipid droplet area no Lipid storage COPI complex is a regulator of lipid homeostasis. Beller et al. 2008 19067489 Cell line Kc167 Nuclear to lipid droplet cross-sectional area Fluorescence np Genome-wide dsRNA B-score > 2 OR < -1.7 Additional information about a secondary screen with non-overlaping dsRNAs
GR00002-A 31762 FBgn0017566 ND75 DRSC18686 3.950582045 Increased lipid droplet area no Lipid storage COPI complex is a regulator of lipid homeostasis. Beller et al. 2008 19067489 Cell line Kc167 Nuclear to lipid droplet cross-sectional area Fluorescence np Genome-wide dsRNA B-score > 2 OR < -1.7 Additional information about a secondary screen with non-overlaping dsRNAs
GR00031-A-1 31762 HFA18686 0.3 none yes Cell growth and viability (1) Genome-wide RNAi analysis of growth and viability in Drosophila cells. Boutros et al. 2004 14764878 Cell line Kc167 Cell number and viability Luminescence Custom-made (HFA) Genome-wide dsRNA Z-score >
GR00031-A-2 31762 HFA18686 1.9 none no Cell growth and viability (2) Genome-wide RNAi analysis of growth and viability in Drosophila cells. Boutros et al. 2004 14764878 Cell line S2R+ Cell number and viability Luminescence Custom-made (HFA) Genome-wide dsRNA Z-score >
31762 FBgn0017566 ND75 RE66734 sp none no library: DGC2
GR00131-A-1 31762 ND75 DRSC18686 25 - 50 Altered mitochondrial Ca2+ and/or H+ levels no Mitochondrial Ca2+/H+ antiporter regulation (1) Genome-wide RNAi screen identifies Letm1 as a mitochondrial Ca2+/H+ antiporter. Jiang et al. 2009 19797662 Cell line S2 mt-pericam protein expression (reporter of mitochondrial Ca2+ and H+ levels) Fluorescence np Genome-wide dsRNA Percentage inhibition Class I: > 75; class II: 50-75; class III: 25–50
GR00135-A-1 31762 CG2286 ND75 52047 2.09 Increased noxious heat avoidance yes Heat nociception (1) A genome-wide Drosophila screen for heat nociception identifies α2δ3 as an evolutionarily conserved pain gene. Neely et al. 2010 21074052 Organism elav-GAL4 Noxious heat avoidance and viability Fly count np Genome-wide UAS-IR construct Z-score > 1.65 Additional information about secondary screens (geotactic, phototaxis, and temperature sensitivity)
GR00138-A-1 31762 CG2286 52047 1 none yes Heart development and function (1) A global in vivo Drosophila RNAi screen identifies NOT3 as a conserved regulator of heart function. Neely et al. 2010 20371351 Tissue TinCΔ4 12a-Gal4 Viability Fly count np Selected genes UAS-IR construct Developmental lethality <
GR00138-A-2 31762 CG2286 52047 2.16 none no Heart development and function (2) A global in vivo Drosophila RNAi screen identifies NOT3 as a conserved regulator of heart function. Neely et al. 2010 20371351 Tissue TinCΔ4 12a-Gal4 Viability Fly count np Selected genes UAS-IR construct Z-score > 3
GR00191-A-1 31762 CG2286 ND75 np np Increased melanotic mass formation yes Blood cell homeostasis regulation (1) An in vivo RNA interference screen identifies gene networks controlling Drosophila melanogaster blood cell homeostasis. Avet-Rochex et al. 2010 20540764 Tissue srp-GAL4 Melanotic mass formation Microscopy np Selected genes UAS-IR construct np np
GR00191-A-2 31762 CG2286 ND75 np np Increased melanotic mass formation yes Blood cell homeostasis regulation (2) An in vivo RNA interference screen identifies gene networks controlling Drosophila melanogaster blood cell homeostasis. Avet-Rochex et al. 2010 20540764 Tissue hml∆-GAL4 Melanotic mass formation Microscopy np Selected genes UAS-IR construct np np
GR00191-A-3 31762 CG2286 ND75 np 8 Increased melanotic mass formation yes Blood cell homeostasis regulation (3) An in vivo RNA interference screen identifies gene networks controlling Drosophila melanogaster blood cell homeostasis. Avet-Rochex et al. 2010 20540764 Tissue srp-GAL4 Melanotic mass formation Microscopy np Selected genes UAS-IR construct Tumor index >
GR00191-A-4 31762 CG2286 ND75 np 5.2 Increased melanotic mass formation yes Blood cell homeostasis regulation (4) An in vivo RNA interference screen identifies gene networks controlling Drosophila melanogaster blood cell homeostasis. Avet-Rochex et al. 2010 20540764 Tissue hml∆-GAL4 Melanotic mass formation Microscopy np Selected genes UAS-IR construct Tumor index >
GR00191-A-5 31762 CG2286 ND75 np 92.9 Increased melanotic mass formation yes Blood cell homeostasis regulation (5) An in vivo RNA interference screen identifies gene networks controlling Drosophila melanogaster blood cell homeostasis. Avet-Rochex et al. 2010 20540764 Tissue cg-GAL4 Melanotic mass formation Microscopy np Selected genes UAS-IR construct Tumor index >
GR00191-A-6 31762 CG2286 ND75 np 4.3 none yes confirmed melanotic suppressor gene, non-overlapping dsRNA Blood cell homeostasis regulation (6) An in vivo RNA interference screen identifies gene networks controlling Drosophila melanogaster blood cell homeostasis. Avet-Rochex et al. 2010 20540764 Tissue srp-GAL4 Melanotic mass formation Microscopy np Selected genes UAS-IR construct Tumor index >
GR00191-A-7 31762 CG2286 ND75 np 16.3 Increased melanotic mass formation yes confirmed melanotic suppressor gene, non-overlapping dsRNA Blood cell homeostasis regulation (7) An in vivo RNA interference screen identifies gene networks controlling Drosophila melanogaster blood cell homeostasis. Avet-Rochex et al. 2010 20540764 Tissue hml∆-GAL4 Melanotic mass formation Microscopy np Selected genes UAS-IR construct Tumor index >
GR00191-A-8 31762 CG2286 ND75 np 76.7 Increased melanotic mass formation no confirmed melanotic suppressor gene, non-overlapping dsRNA Blood cell homeostasis regulation (8) An in vivo RNA interference screen identifies gene networks controlling Drosophila melanogaster blood cell homeostasis. Avet-Rochex et al. 2010 20540764 Tissue cg-GAL4 Melanotic mass formation Microscopy np Selected genes UAS-IR construct Tumor index >
GR00218-S 31762 CG2286 ND75 AMB17958 -0.57 none no Hippo pathway regulation Salt-inducible kinases regulate growth through the Hippo signalling pathway in Drosophila Wehr et al. 2013 23263283 Cell line S2R+ Hippo pathway reporter Luminescence np Genome-wide dsRNA Z-score > 3 OR < -3 Author-submitted data. Primary screen
GR00239-A-1 31762 CG2286 2286R sp Decreased (GlcNAc)n Chp glycosylation yes Glycosylation regulation (1) Identification of genes required for neural-specific glycosylation using functional genomics. Yamamoto-Hino et al. 2010 21203496 Tissue GMR-GAL4 Chaoptin (Chp) protein expression, alpha1,3-fucose, alpha1,6-fucose, (GlcNAc)n, GlcNAcb1-4GlcNAc and mannose Chp glycosylation and viability Luminescence np Selected genes UAS-IR construct Z-score > 3
GR00239-A-2 31762 CG2286 2286R np Effect on Chp glycosylation yes rank 1 Glycosylation regulation (2) Identification of genes required for neural-specific glycosylation using functional genomics. Yamamoto-Hino et al. 2010 21203496 Tissue GMR-GAL4 Chaoptin (Chp) protein expression and alpha1,3-fucose, alpha1,6-fucose, (GlcNAc)n, GlcNAcb1-4GlcNAc and mannose Chp glycosylation Luminescence np Selected genes UAS-IR construct p-value < 0.005
GR00239-A-3 31762 CG2286 52049 np Effect on Chp glycosylation no library: VDRC Glycosylation regulation (3) Identification of genes required for neural-specific glycosylation using functional genomics. Yamamoto-Hino et al. 2010 21203496 Tissue GMR-GAL4 Chaoptin (Chp) protein expression and alpha1,3-fucose, alpha1,6-fucose, (GlcNAc)n, GlcNAcb1-4GlcNAc and mannose Chp glycosylation Luminescence np Selected genes UAS-IR construct p-value < 0.05
GR00282-A 31762 CG2286 ND75 52047 np none piRNA pathway regulation The Genetic Makeup of the Drosophila piRNA Pathway Handler 2013 23665231 Tissue tj-GAL4 Gypsy transposon expression Microscopy VDRC Selected genes UAS-IR construct Visual inspection np See comment for ovarian morphology data. Gene expression data shown in the comment derive from an ovarian stem cell line. VDRC library: KK and GD used, see phenotype data
GR00282-A 31762 CG2286 ND75 52049 np Increased transposon expression piRNA pathway regulation The Genetic Makeup of the Drosophila piRNA Pathway Handler 2013 23665231 Tissue tj-GAL4 Gypsy transposon expression Microscopy VDRC Selected genes UAS-IR construct Visual inspection np See comment for ovarian morphology data. Gene expression data shown in the comment derive from an ovarian stem cell line. VDRC library: KK and GD used, see phenotype data
GR00284-A 31762 CG2286 ND75 100733 0.22056574751575844 none piRNA pathway regulation A Transcriptome-wide RNAi Screen in the Drosophila Ovary Reveals Factors of the Germline piRNA Pathway Czech et al. 2013 23665227 Tissue nos-GAL4 Transposon expression qPCR VDRC Selected genes UAS-IR construct Z-score Weak < -1.5; strong: < -2 KK and GD libraries used (see phenotype data)
GR00311-A 31762 FBgn0017566 ND75 DRSC18686 np none Actin and microtubule morphology Comparative RNAi screening identifies a conserved core metazoan actinome by phenotype Rohn et al. 2011 21893601 Cell line S2R+ Alpha-tubulin and F-actin protein expression Fluorescence DRSC Genome-wide dsRNA Visual inspection np Exact phenotypes are shown in the comment section. Several genes were indicated as hits but no phenotype was provided. The screen data plus images is available at http://jcb-dataviewer.rupress.org/jcb/browse/4609/S2.
GR00315-A-1 31762 CG2286 ND75 100733 np Effect on follicular epithelium morphology further phenotype data in classification screen Follicular epithelium development (1) A genome-scale in vivo RNAi analysis of epithelial development in Drosophila identifies new proliferation domains outside of the stem cell niche Berns et al. 2014 24762813 Tissue Escargot-GAL4 and GR1-GAL4, GR1-GAL4, traffic jam-GAL4 Follicular epithelium morphology Fluorescence VDRC KK Random genes UAS-IR construct Visual inspection np Further classification screen available, see follicular epithelium development (2).
GR00315-A-2 31762 CG2286 ND75 100733 np Defect in formation phase Follicular epithelium development (2) A genome-scale in vivo RNAi analysis of epithelial development in Drosophila identifies new proliferation domains outside of the stem cell niche Berns et al. 2014 24762813 Tissue traffic jam-GAL4 Follicular epithelium morphology Fluorescence VDRC KK Selected genes UAS-IR construct Visual inspection np For more detailed phenotypes sp. Cell morphology was analized by aPKC and DLG protein expression. Additional validation screens available.
GR00323-A-1 31762 FBgn0017566 ND75 52047 np none Drosophila eye development The nucleolar protein Viriato/Nol12 is required for the growth and differentiation progression activities of the Dpp pathway during Drosophila eye development Marinho et al. 2013 23416177 Tissue eyeless-GAL4 Retina size Microscopy VDRC, NIG and TRiP Selected genes UAS-IR construct Visual inspection np Single RNAi screen; For double RNAi screen see "Viriato (Vito) interactions during eye development
GR00323-A-2 31762 FBgn0017566 ND75 52047 np none Viriato (Vito) interactions during eye development The nucleolar protein Viriato/Nol12 is required for the growth and differentiation progression activities of the Dpp pathway during Drosophila eye development Marinho et al. 2013 23416177 Tissue eyeless-Gal4 Retina size Microscopy VDRC, NIG and TRiP Selected genes UAS-IR construct Genetic interaction score np Double RNAi screen; vito knockdown was archieved by expression of UAS-vitoRNAiKK in the female flies. For single RNAi screen see "Drosophila eye development
GR00326-A 31762 FBgn0017566 ND75 2286 np none Synapse formation and maintenance A large-scale RNAi screen identifies functional classes of genes shaping synaptic development and maintenance Valakh et al. 2012 22542760 Tissue Elav-Gal4 Neuromuscular junction morphology Fluorescence VDRC Selected genes UAS-IR construct Visual inspection np For further phenotype explanations sp.
31762 FBgn0017566 np np sp none
GR00367-S 31762 CG2286 52047 np lethal or adult morphology phenotype VDRC Drosophila airway maturation Transient junction anisotropies orient annular cell polarization in the Drosophila airway tubes Hosono et al. 2015 26551273 Tissue btl-GAL4 Liquid clearance defect and viability Visual inspection VDRC, Trip, NIG Genome-wide UAS-IR construct Frequency >30%
GR00379-A-1 31762 CG2286 100733 -0.43357945494928607 none No phenotype in egg laying/hatching or larvae in egg laying or larvae Stem cell maintenance Regulation of Ribosome Biogenesis and Protein Synthesis Controls Germline Stem Cell Differentiation Sanchez et al. 2016 26669894 Organism nanos-GAL4 nos and yTub37c mRNA expression qPCR VDRC Selected genes UAS-IR construct Z-score Low: 1 - 2.5; Medium: 2.5 - 4; High: > Selected genes are: transcriptome-wide in female Drosophila. Additional phenotypes (egg laying/hatching) noted in the comment section. Subset libraries from VDRC (KK or GD) can be found in a column next to the comment field.
GR00388-A 31762 CG2286 BL33911 Lethal Regulation of intestinal stem cells (ISC) Genome-wide RNAi Screen Identifies Networks Involved in Intestinal Stem Cell Regulation in Drosophila Zeng et al. 2015 25704823 Tissue act5C-GAL4 Viability Visual inspection VDRC and BDSC Genome-wide UAS-IR construct np np Lethal transgenic lines identified from the primary screen were crossed with temperature-sensitive esg-GAL4 flies. Phenotypes of ISCs from the dissected midguts are shown in the "Comment" section.
GR00388-A 31762 CG2286 KK100733 Lethal Regulation of intestinal stem cells (ISC) Genome-wide RNAi Screen Identifies Networks Involved in Intestinal Stem Cell Regulation in Drosophila Zeng et al. 2015 25704823 Tissue act5C-GAL4 Viability Visual inspection VDRC and BDSC Genome-wide UAS-IR construct np np Lethal transgenic lines identified from the primary screen were crossed with temperature-sensitive esg-GAL4 flies. Phenotypes of ISCs from the dissected midguts are shown in the "Comment" section.
GR00388-A 31762 CG2286 BL33910 Lethal Regulation of intestinal stem cells (ISC) Genome-wide RNAi Screen Identifies Networks Involved in Intestinal Stem Cell Regulation in Drosophila Zeng et al. 2015 25704823 Tissue act5C-GAL4 Viability Visual inspection VDRC and BDSC Genome-wide UAS-IR construct np np Lethal transgenic lines identified from the primary screen were crossed with temperature-sensitive esg-GAL4 flies. Phenotypes of ISCs from the dissected midguts are shown in the "Comment" section.
GR00388-A 31762 CG2286 BL27739 none Regulation of intestinal stem cells (ISC) Genome-wide RNAi Screen Identifies Networks Involved in Intestinal Stem Cell Regulation in Drosophila Zeng et al. 2015 25704823 Tissue act5C-GAL4 Viability Visual inspection VDRC and BDSC Genome-wide UAS-IR construct np np Lethal transgenic lines identified from the primary screen were crossed with temperature-sensitive esg-GAL4 flies. Phenotypes of ISCs from the dissected midguts are shown in the "Comment" section.