这是一篇有关果蝇的综述,是根据7篇发表使用实验的文章归纳的。这综述旨在帮助来邦网的访客找到最适合果蝇。
Bloomington Drosophila Stock Center
为了研究果蝇中Matrimony表达水平的调控对于卵母细胞-胚胎过渡的重要性,布卢明顿果蝇库存中心的w*; P{mat alpha 4-GAL-VP16}V37果蝇品系被用于进行果蝇养殖。至该文献
为了研究Par-1调控组织生长的机制,布鲁明顿果蝇库存中心的Par-1 RNAi果蝇被用于进行果蝇养殖。至该文献
为了研究果蝇幼虫中表皮生长和自噬的调控机制,布鲁明顿果蝇库存中心的果蝇品系w1118被用于进行果蝇养殖。至该文献
为了研究果蝇精子中预先存在的着丝粒Cid蛋白的作用,采用了Bloomington Drosophila Stock Center的cid(G5950)基因型果蝇,进行免疫组织化学和免疫细胞化学实验。至该文献
Vienna Drosophila RNAi Center
为了研究神经时钟细胞中蛋白质翻译的时钟节律性,采用了维也纳果蝇RNAi中心的UAS-Tdc2 RNAi 果蝇进行体内Tdc2基因表达抑制实验。至该文献
为了研究Par-1调控组织生长的机制,维也纳果蝇RNAi中心的UAS-ex-RNAi果蝇被用于进行果蝇养殖。至该文献
为了研究果蝇幼虫中表皮生长和自噬的调控机制,维也纳果蝇RNAi中心的果蝇品系UAS-stit-IR被用于进行果蝇养殖。至该文献
为了研究PICK1缺乏引起的分泌小泡生成损伤、生长阻滞及乳糖耐受降低,采用了Vienna Drosophila RNAi Center的transformant ID 27281进行果蝇基因学实验。至该文献
为了研究在细胞有丝分裂及减数分裂过程中CID装配所需要的因子,采用了VDRC的UAS-CID-RNAi 进行RNAi实验至该文献
文章列表
  1. Yanmei Huang et al. (2013). "Translational profiling of clock cells reveals circadianly synchronized protein synthesis".PMID 24348200
  2. Zachary J Whitfield et al. (2013). "A meiosis-specific form of the APC/C promotes the oocyte-to-embryo transition by decreasing levels of the Polo kinase inhibitor matrimony".PMID 24019759
  3. Hong Ling Huang et al. (2013). "Par-1 regulates tissue growth by influencing hippo phosphorylation status and hippo-salvador association".PMID 23940457
  4. Fergal O'Farrell et al. (2013). "Two-tiered control of epithelial growth and autophagy by the insulin receptor and the ret-like receptor, stitcher".PMID 23935447
  5. Birgitte Holst et al. (2013). "PICK1 deficiency impairs secretory vesicle biogenesis and leads to growth retardation and decreased glucose tolerance".PMID 23630454
  6. Elaine M Dunleavy et al. (2012). "The cell cycle timing of centromeric chromatin assembly in Drosophila meiosis is distinct from mitosis yet requires CAL1 and CENP-C".PMID 23300382
  7. Nitika Raychaudhuri et al. (2012). "Transgenerational propagation and quantitative maintenance of paternal centromeres depends on Cid/Cenp-A presence in Drosophila sperm".PMID 23300376