Julie A Brill, Ph.D.
|2001-||Cell Biology Program||Hospital for Sick Children, Toronto, ON|
Area:Drosophila sperm development, phosphoinositide signaling, membrane trafficking, cytoskeletal regulation, secretory granule biogenesis, cell morphogenesis, cell biology
Google:"Julie A Brill"
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|Ma CJ, Brill JA. (2021) Quantitation of Secretory Granule Size in Larval Salivary Glands. Bio-Protocol. 11: e4039|
|Ma CJ, Burgess J, Brill JA. (2021) Maturing secretory granules: Where secretory and endocytic pathways converge. Advances in Biological Regulation. 80: 100807|
|Ma CJ, Brill JA. (2021) Endosomal Rab GTPases regulate secretory granule maturation in larval salivary glands. Communicative & Integrative Biology. 14: 15-20|
|Ma CJ, Yang Y, Kim T, et al. (2021) Correction: An early endosome-derived retrograde trafficking pathway promotes secretory granule maturation. The Journal of Cell Biology. 220|
|Tsatskis Y, Rosenfeld R, Pearson JD, et al. (2020) The NEMP family supports metazoan fertility and nuclear envelope stiffness. Science Advances. 6: eabb4591|
|Griffiths NW, Del Bel LM, Wilk R, et al. (2020) Cellular homeostasis in the retina requires the lipid phosphatase Sac1. Molecular Biology of the Cell. mbcE20020161|
|Ma CJ, Yang Y, Kim T, et al. (2020) An early endosome-derived retrograde trafficking pathway promotes secretory granule maturation. The Journal of Cell Biology. 219|
|Volpatti JR, Al-Maawali A, Smith L, et al. (2019) The expanding spectrum of neurological disorders of phosphoinositide metabolism. Disease Models & Mechanisms. 12|
|Del Bel LM, Brill JA. (2019) Correction to: Sac1, a lipid phosphatase at the interface of vesicular and non-vesicular transport. Traffic (Copenhagen, Denmark). 20: 181|
|Cantarutti KC, Burgess J, Brill JA, et al. (2018) Type II phosphatidylinositol 4-kinase regulates nerve terminal growth and synaptic vesicle recycling. Journal of Neurogenetics. 1-6|