Niu, W. and Spradling, A.C. (2019). Escort-like somatic cells mediate early mouse fetal ovarian development but surface-derived Lgr5+ cells support primordial follicles. BioRxiv/2019/855346   
Wang, C. and  Spradling, A.C. (2019). An abundant quiescent stem cell population in Drosophila Malpighian tubules protects principal cells from kidney stones. 
BioRxiv 826826;
Greenblatt, E.J., Obniski, R., Mical, C. and Spradling, A.C. (2019).  Prolonged storage of mature Drosophila oocytes dramatically increases meiotic spindle instability.
eLife 8:e49455  
Greenblatt, E. and Spradling, A.C. (2018). Fragile X mental retardation gene enhances the translation of large autism-related proteins. 
Science 361, 709-712.
Obniski, R*. Sieber, M*. and Spradling, A.C. (2018). Dietary lipids modulate Notch signaling and influence adult intestinal development and metabolism in Drosophila.
Dev. Cell 47, 1-14.
DeLuca, S. and Spradling, A.C. (2018).  Efficient expression of genes in the Drosophila germline using a UAS-promoter free of interference by hsp70 piRNAs. 
Genetics 209, 381-387.
Lei, L. and Spradling, A.C. (2016).  Mouse oocytes differentiate through organelle enrichment from sister cyst germ cells. 
Science 352, 95-99.
Sieber, MH., Thomsen, MB. and Spradling, A.C. (2016). Electron transport chain remodeling by GSK3 during oogenesis connects nutrient state to reproduction.
Cell 164: 420-32.
Deady L.D., Shen W., Mosure S.A., Spradling A.C. and Sun J.J. (2015). Matrix metalloproteinase 2 is required for ovulation and corpus luteum formation in Drosophila. 
PLoS Genetics 11:e1004989.
Sieber, M. and Spradling, A.C. (2015). Steroid signaling establishes a female metabolic state and coordinates with SREBP to control oocyte lipid accumulation. 
Curr. Biol. 25: 993-l004.