易科泰生態技術公司提供高通量果蠅呼吸代謝測量全面解決方案：

1.高分辨率、高通量果蠅能量代謝測量，8通道、16通道直至64通道供選配

2.高通量、高靈敏度果蠅采食行為在線監測技術方案

3.可分辨“品嘗"行為和“采食"行為及食性選擇行為

4.應用于生物醫學、健康醫學、神經科學、遺傳性、進化生態學、發育生物學等實驗研究

部分參考文獻：

Alex C Keene, PhD, Sleep-Dependent Modulation of Metabolic Rate in Drosophila, Sleep, Volume 40, Issue 8, August 2017, zsx084,

Arce C C, Th Eepan V, Schimmel B C, et al. Plant-associated CO2 mediates long-distance host location and foraging behaviour of a root herbivore[J]. eLife Sciences, 2021, 10:e65575.

Bawa S, Brooks D S, Neville K E, et al. Drosophila TRIM32 cooperates with glycolytic enzymes to promote cell growth[J]. eLife Sciences, 2020, 9.

Bethany A Stahl, PhD, Melissa E Slocumb, BS, Hersh Chaitin, MS, Justin R DiAngelo, PhD,

Careau V, PP Beauchamp, Bouchard S, et al. Energy metabolism and personality in wild-caught fall field crickets[J]. Physiology & Behavior, 2019, 199:173-181.

Dweck H, Carlson J R. Molecular Logic and Evolution of Bitter Taste in Drosophila[J]. Current biology: CB, 2019, 30(1).

Hoekstra L A, Julick C R, Mika K M, et al. Energy demand and the context-dependent effects of genetic interactions[J]. Evolution Letters, 2(2):102-113.

Horn CJ, Mierzejewski MK, Elahi ME, Luong LT. Extending the ecology of fear: Parasite-mediated sexual selection drives host response to parasites. Physiol Behav. 2020 Oct 1;224:113041. doi: 10.1016/j.physbeh.2020.113041. Epub 2020 Jun 30. PMID: 32619526.

Joseph R M, Sun J S, Edric T, et al. A receptor and neuron that activate a circuit limiting sucrose consumption[J]. eLife,6,(2017-03-19), 2017, 6.

Kubrak O, Jensen L, Ahrentloev N, et al. The gut hormone Allatostatin C/Somatostatin regulates food intake and metabolic homeostasis under nutrient stress. 2020.

Luo Y, Johnson J C, Chakraborty T S, et al. Yeast volatiles double starvation survival in Drosophila[J]. Science Advances, 2021, 7(20):eabf8896.

Mallard, F., Nolte, V., Tobler, R. et al. A simple genetic basis of adaptation to a novel thermal environment results in complex metabolic rewiring in Drosophila. Genome Biol 19, 119 (2018). 

Matoo O B, Julick C R, Montooth K L. Genetic Variation for Ontogenetic Shifts in Metabolism Underlies Physiological Homeostasis in Drosophila[J]. Genetics, 2019, 212(2).

May C E, Vaziri A, Lin Y Q, et al. High dietary sugar reshapes sweet taste to promote feeding behavior in Drosophila melanogaster[J]. Cell reports, 2019, 27(6): 1675-1685. e7.

Mishra P, Yang S E, Montgomery A B, et al. The fly liquid-food electroshock assay (FLEA) suggests opposite roles for neuropeptide F in avoidance of bitterness and shock[J]. BMC Biology, 2021, 19(1).

Mothersill C, Vo N, Lemon J, et al. The Phenotypic and Transcriptomic Response of the Caenorhabditis elegans Nematode to Background and Below-Background Radiation Levels[J]. Frontiers in Public Health, 2020, 8:581796.

Neville K E, Bosse T L, Klekos M, et al. A novel ex vivo method for measuring whole brain metabolism in model systems[J]. Journal of Neuroscience Methods, 2018, 296:32-43.

Rajpurohit S, V Vrkoslav, Hanus R, et al. Post-eclosion temperature effects on insect cuticular hydrocarbon profiles[J]. Ecology and Evolution, 2020.

Schilder R J, Raynor M. Molecular plasticity and functional enhancements of leg muscles in response to hypergravity in the fruit fly Drosophila melanogaster[J]. Journal of Experimental Biology, 2017, 220(19):3508-3518.

Suh, G., Wong, A., Hergarden, A. et al. A single population of olfactory sensory neurons mediates an innate avoidance behaviour in Drosophila. Nature 431, 854–859 (2004). 

Zorana Kurbalija Novii，et al. Lithium influences whole-organism metabolic rate in Drosophila subobscura[J]. Journal of Neuroscience Research, 2020(6).