Publications of R. P. Kühnlein
All genres
Journal Article (36)
Journal Article
60 (8), pp. 1365 - 1378 (2019)
The α/β-hydrolase domain-containing 4 and 5 (ABHD4/5)-related phospholipase Pummelig controls energy storage in Drosophila. Journal of Lipid Research
Journal Article
9, 6989 (2019)
Chronic dysfunction of Stromal interaction molecule by pulsed RNAi induction in fat tissue impairs organismal energy homeostasis in Drosophila. Scientific Reports
Journal Article
25 (4), pp. 765 - 781 (2018)
Diacylglycerol triggers Rim101 pathway-dependent necrosis in yeast: A model for lipotoxicity. Cell Death and Differentiation
Journal Article
104, pp. 1 - 8 (2018)
Chronic low-dose pro-oxidant treatment stimulates transcriptional activity of telomeric retroelements and increases telomere length in Drosophila. Journal of Insect Physiology
Journal Article
7, 46516 (2017)
Spastic paraplegia-linked phospholipase PAPLA1 is necessary for development, reproduction, and energy metabolism in Drosophila. Scientific Reports
Journal Article
119 (3), 1600138 (2017)
The obesity-related adipokinetic hormone controls feeding and expression of neuropeptide regulators of Drosophila metabolism. European Journal of Lipid Science and Technology
Journal Article
6, 33667 (2016)
Thermal stress depletes energy reserves in Drosophila. Scientific Reports
Journal Article
201 (2), pp. 665 - 683 (2015)
Energy homeostasis control in Drosophila adipokinetic hormone mutants. Genetics
Journal Article
41 (5), pp. 283 - 292 (2014)
Gαq, Gγ1 and Plc21C control Drosophila body fat storage. Journal of Genetics and Genomics
Journal Article
19 (2), pp. 331 - 343 (2014)
A Drosophila in vivo screen identifies store-operated calcium entry as a key regulator of adiposity. Cell Metabolism
Journal Article
125 (15), pp. 3568 - 3577 (2012)
Opposite and redundant roles of the two Drosophila perilipins in lipid mobilization. Journal of Cell Science
Journal Article
53 (8), pp. 1430 - 1436 (2012)
Lipid droplet-based storage fat metabolism in Drosophila. Journal of Lipid Research
Journal Article
42 (3), pp. 220 - 229 (2012)
Functional fat body proteomics and gene targeting reveal in vivo functions of Drosophila melanogaster α-Esterase-7. Insect Biochemistry and Molecular Biology
Journal Article
22 (22), pp. 2104 - 2113 (2012)
Lipid droplets control the maternal histone supply of Drosophila embryos. Current Biology
Journal Article
50 (4), pp. 348 - 356 (2011)
The contribution of the Drosophila model to lipid droplet research. Progress in Lipid Research
Journal Article
6 (9), e23796 (2011)
Reliable Drosophila body fat quantification by a coupled colorimetric assay. PLoS One
Journal Article
12 (5), pp. 521 - 532 (2010)
PERILIPIN-dependent control of lipid droplet structure and fat storage in Drosophila. Cell Metabolism
Journal Article
1801 (3), pp. 215 - 221 (2010)
Drosophila as a lipotoxicity model organism - more than a promise? Biochimica et Biophysica Acta
Journal Article
10, pp. 438 - 439 (2009)
Putting the brakes on dietary fat breakdown. Cell Metabolism
Journal Article
183 (1), pp. 219 - 232 (2009)
curled encodes the Drosophila homolog of the vertebrate circadian deadenylase nocturnin. Genetics