2024 Journal Article Exaptation of an evolutionary constraint enables behavioural control over the composition of secreted venom in a giant centipedeSchendel, Vanessa, Hamilton, Brett R., Robinson, Samuel D., Green, Kathryn, Sayre, Marcel E., Brown, Darren, Stow, Jennifer L., Øyen, Jan Philip, Voje, Kjetil L., Millard, S. Sean, Vetter, Irina, Rash, Lachlan D. and Undheim, Eivind A. B. (2024). Exaptation of an evolutionary constraint enables behavioural control over the composition of secreted venom in a giant centipede. Nature Ecology & Evolution, 9 (1), 1-14. doi: 10.1038/s41559-024-02556-9 |
2024 Journal Article Drosophila larval motor patterning relies on regulated alternative splicing of Dscam2Odierna, G. Lorenzo, Kerwin, Sarah K., Shin, Grace Ji-eun and Millard, S. Sean (2024). Drosophila larval motor patterning relies on regulated alternative splicing of Dscam2. Frontiers in Molecular Neuroscience, 17 1415207. doi: 10.3389/fnmol.2024.1415207 |
2024 Journal Article PPTC7 antagonizes mitophagy by promoting BNIP3 and NIX degradation via SCFFBXL4Nguyen-Dien, Giang Thanh, Townsend, Brendan, Kulkarni, Prajakta Gosavi, Kozul, Keri-Lyn, Ooi, Soo Siang, Eldershaw, Denaye N, Weeratunga, Saroja, Liu, Meihan, Jones, Mathew JK, Millard, S Sean, Ng, Dominic CH, Pagano, Michele, Bonfim-Melo, Alexis, Schneider, Tobias, Komander, David, Lazarou, Michael, Collins, Brett M and Pagan, Julia K (2024). PPTC7 antagonizes mitophagy by promoting BNIP3 and NIX degradation via SCFFBXL4. EMBO Reports, 25 (8), 3324-3347. doi: 10.1038/s44319-024-00181-y |
2024 Journal Article Mitochondrial fusion and altered beta-oxidation drive muscle wasting in a Drosophila cachexia modelDark, Callum, Ali, Nashia, Golenkina, Sofya, Dhyani, Vaibhav, Blazev, Ronnie, Parker, Benjamin L, Murphy, Kate T, Lynch, Gordon S, Senapati, Tarosi, Millard, S Sean, Judge, Sarah M, Judge, Andrew R, Giri, Lopamudra, Russell, Sarah M and Cheng, Louise Y (2024). Mitochondrial fusion and altered beta-oxidation drive muscle wasting in a Drosophila cachexia model. EMBO Reports, 25 (4), 1835-1858. doi: 10.1038/s44319-024-00102-z |
2023 Journal Article FBXL4 suppresses mitophagy by restricting the accumulation of NIX and BNIP3 mitophagy receptorsNguyen‐Dien, Giang Thanh, Kozul, Keri‐Lyn, Cui, Yi, Townsend, Brendan, Kulkarni, Prajakta Gosavi, Ooi, Soo Siang, Marzio, Antonio, Carrodus, Nissa, Zuryn, Steven, Pagano, Michele, Parton, Robert G, Lazarou, Michael, Millard, S Sean, Taylor, Robert W, Collins, Brett M, Jones, Mathew JK and Pagan, Julia K (2023). FBXL4 suppresses mitophagy by restricting the accumulation of NIX and BNIP3 mitophagy receptors. The EMBO Journal, 42 (13) e112767, e112767. doi: 10.15252/embj.2022112767 |
2020 Journal Article Elevated levels of Drosophila Wdr62 promote glial cell growth and proliferation through AURKA signalling to AKT and MYCShohayeb, Belal, Mitchell, Naomi, Millard, S. Sean, Quinn, Leonie M. and Ng, Dominic C.H. (2020). Elevated levels of Drosophila Wdr62 promote glial cell growth and proliferation through AURKA signalling to AKT and MYC. Biochimica et Biophysica Acta - Molecular Cell Research, 1867 (7) 118713, 118713. doi: 10.1016/j.bbamcr.2020.118713 |
2020 Journal Article Dscam2 suppresses synaptic strength through a PI3K-dependent endosomal pathwayOdierna, G. Lorenzo, Kerwin, Sarah K., Harris, Lucy E., Shin, Grace Ji-eun, Lavidis, Nickolas A., Noakes, Peter G. and Millard, S. Sean (2020). Dscam2 suppresses synaptic strength through a PI3K-dependent endosomal pathway. Journal of Cell Biology, 219 (6) e201909143. doi: 10.1083/jcb.201909143 |
2020 Journal Article The association of microcephaly protein WDR62 with CPAP/IFT88 is required for cilia formation and neocortical developmentShohayeb, Belal, Ho, Uda, Yeap, Yvonne Y., Parton, Robert G., Millard, Sean S., Xu, Zhiheng, Piper, Michael and Ng, Dominic C. H. (2020). The association of microcephaly protein WDR62 with CPAP/IFT88 is required for cilia formation and neocortical development. Human Molecular Genetics, 29 (2), 248-263. doi: 10.1093/hmg/ddz281 |
2019 Journal Article Deterministic splicing of Dscam2 is regulated by MuscleblindLi, Joshua Shing Shun and Sean Millard, S. (2019). Deterministic splicing of Dscam2 is regulated by Muscleblind. Science Advances, 5 (1) eaav1678, eaav1678. doi: 10.1126/sciadv.aav1678 |
2018 Journal Article Strategies for assembling columns and layers in the Drosophila visual systemMillard, S. Sean and Pecot, Matthew Y. (2018). Strategies for assembling columns and layers in the Drosophila visual system. Neural Development, 13 (1) 11, 11. doi: 10.1186/s13064-018-0106-9 |
2018 Journal Article Regulated alternative splicing of Drosophila Dscam2 is necessary for attaining the appropriate number of photoreceptor synapsesKerwin, Sarah K., Li, Joshua Shing Shun, Noakes, Peter G., Shin, Grace Ji-eun and Millard, S. Sean (2018). Regulated alternative splicing of Drosophila Dscam2 is necessary for attaining the appropriate number of photoreceptor synapses. Genetics, 208 (2), 717-728. doi: 10.1534/genetics.117.300432 |
2017 Journal Article Glial-specific functions of microcephaly protein WDR62 and interaction with the mitotic kinase AURKA are essential for Drosophila brain growthLim, Nicholas R., Shohayeb, Belal, Zaytseva, Olga, Mitchell, Naomi, Millard, S. Sean, Ng, Dominic C. H. and Quinn, Leonie M. (2017). Glial-specific functions of microcephaly protein WDR62 and interaction with the mitotic kinase AURKA are essential for Drosophila brain growth. Stem Cell Reports, 9 (1), 32-41. doi: 10.1016/j.stemcr.2017.05.015 |
2016 Journal Article Dscam proteins direct dendritic targeting through adhesionTadros, Wael, Xu, Shuwa, Akin, Orkun, Yi, Caroline H., Shin, Grace Ji-eun, Millard, S. Sean and Zipursky, S. Lawrence (2016). Dscam proteins direct dendritic targeting through adhesion. Neuron, 89 (3), 480-493. doi: 10.1016/j.neuron.2015.12.026 |
2015 Journal Article Dscam2 affects visual perception in Drosophila melanogasterBosch, Danny S., van Swinderen, Bruno and Millard, S. Sean (2015). Dscam2 affects visual perception in Drosophila melanogaster. Frontiers in Behavioral Neuroscience, 9 (June) A149, 1-13. doi: 10.3389/fnbeh.2015.00149 |
2015 Journal Article Neuronal cell-type-specific alternative splicing: A mechanism for specifying connections in the brain?Li, Joshua Shing Shun, Shin, Grace Ji-eun and Millard, Sean S. (2015). Neuronal cell-type-specific alternative splicing: A mechanism for specifying connections in the brain?. Neurogenesis, 2 (1), e1122699.1-e1122699.5. doi: 10.1080/23262133.2015.1122699 |
2014 Journal Article Cell-specific alternative splicing of Drosophila Dscam2 is crucial for proper neuronal wiringLah, Grace Ji-eun, Li, Joshua Shing Shun and Millard, S. Sean (2014). Cell-specific alternative splicing of Drosophila Dscam2 is crucial for proper neuronal wiring. Neuron, 83 (6), 1376-1388. doi: 10.1016/j.neuron.2014.08.002 |
2013 Journal Article Combinatorial rules of precursor specification underlying olfactory neuron diversityLi, Qingyun, Ha, Tal Soo, Okuwa, Sumie, Wang, Yiping, Wang, Qian, Millard, S. Sean, Smith, Dean P. and Volkan, Pelin Cayirlioglu (2013). Combinatorial rules of precursor specification underlying olfactory neuron diversity. Current Biology, 23 (24), 2481-2490. doi: 10.1016/j.cub.2013.10.053 |
2013 Journal Article Vision in Drosophila: seeing the world through a model's eyesPaulk, Angelique, Millard, S. Sean and van Swinderen, Bruno (2013). Vision in Drosophila: seeing the world through a model's eyes. Annual Review of Entomology, 58 (1), 313-332. doi: 10.1146/annurev-ento-120811-153715 |
2010 Journal Article Drosophila Dscam proteins regulate postsynaptic specificity at multiple-contact synapsesMillard, S. Sean, Lu, Zhiyuan, Zipursky, S. Lawrence and Meinertzhagen, Ian A. (2010). Drosophila Dscam proteins regulate postsynaptic specificity at multiple-contact synapses. Neuron, 67 (5), 761-768. doi: 10.1016/j.neuron.2010.08.030 |
2008 Journal Article Dscam-mediated cell recognition regulates neural circuit formationHattori, D., Millard, S. S., Wojtowicz, W. M. and Zipursky, S. L. (2008). Dscam-mediated cell recognition regulates neural circuit formation. Annual Review of Cell And Developmental Biology, 24 (1), 597-620. doi: 10.1146/annurev.cellbio.24.110707.175250 |