1. Protocol for assessing translation in living Drosophila imaginal discs by O-propargyl-puromycin incorporation. Kiparaki# M. and Baker# N.E., Star Protoc. Dec 15;4(4):102653, 2023. (* corresponding authors)
2. Ribosomal protein mutations and cell competition: autonomous and nonautonomous effects on a stress response. Kiparaki*, M. & Baker*, N. E. Genetics 224, iyad080, 2023 (Featured article) (* co-corresponding authors)
3. The transcription factor Xrp1 orchestrates both reduced translation and cell competition upon defective ribosome assembly or function. Kiparaki*, M., Khan, C., Folgado, V., Chuen, J. & Baker*, N. E. eLife 11, e71705, 2022 (* co-corresponding authors)
4. Cell competition removes segmental aneuploid cells from Drosophila imaginal disc-derived tissues based on ribosomal protein gene dose. Ji, Z., Chuen, J., Kiparaki, M. and Baker, N.E. eLife 10, e61172, 2021
5. Drosophila RpS12 controls translation, growth, and cell competition through Xrp1. Ji Z.*, Kiparaki* M., Folgado V., Kumar A., Blanco J., Rimesso G., Chuen J., Liu Y., Zheng D., and Baker N.E. PLoS Genet. Dec 16;15(12), 2019 (*equal contribution)
6. A potential link between p53, cell competition and ribosomopathy in mammals and in Drosophila. Baker N., Kiparaki M., Khan C. Dev Biol 446, 17-19, 2019
7. A regulatory response to ribosomal protein mutations controls translation, growth, and cell competition Lee *C., Kiparaki* M., Blanco J., Folgado V., Ji Z, Kumar A., Rimesso G., Baker N.E. Dev Cell 46, 456–469, 2018, (*equal contribution)
8. Ribosomal Protein S12e Has a Distinct Function in Cell Competition. Kale A., Ji* Z., Kiparaki* M., Blanco J., Rimesso G., Flibotte S. and Baker N.E. Dev Cell 44, 42–55, 2018 (*equal contribution)
9. bHLH proteins involved in Drosophila neurogenesis are mutually regulated at the level of stability. Kiparaki M., Zarifi I., and Delidakis C. Nucleic Acids Res. 43(5):2543-59, 2015
10. The two Tribolium E(spl) genes show evolutionarily conserved expression and function during embryonic neurogenesis. Kux K, Kiparaki M, Delidakis C. Mech Dev.; 130(4-5):207-25, 2013
11. Essential roles of Da transactivation domains in neurogenesis and in E(spl)-mediated repression. Zarifi*, I., Kiparaki*, M., Koumpanakis, K.A., Giagtzoglou, N., Zacharioudaki, E., Alexiadis, T., Livadaras, I. and Delidakis, C. Mol Cell Biol.; 32(22):4534-48, 2012 (*equal contribution)
Pubmed link: https://pubmed.ncbi.nlm.nih.gov/?term=Marianthi+Kiparaki