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2025 Journal Article Atlas of multilineage stem cell differentiation reveals TMEM88 as a developmental regulator of blood pressureShen, Sophie, Werner, Tessa, Lukowski, Samuel W., Andersen, Stacey, Sun, Yuliangzi, Shim, Woo Jun, Mizikovsky, Dalia, Kobayashi, Sakurako, Outhwaite, Jennifer, Chiu, Han Sheng, Chen, Xiaoli, Chapman, Gavin, Martin, Ella M. M. A., Xia, Di, Pham, Duy, Su, Zezhuo, Kim, Daniel, Yang, Pengyi, Tan, Men Chee, Sinniah, Enakshi, Zhao, Qiongyi, Negi, Sumedha, Redd, Meredith A., Powell, Joseph E., Dunwoodie, Sally L., Tam, Patrick P. L., Bodén, Mikael, Ho, Joshua W. K., Nguyen, Quan and Palpant, Nathan J. (2025). Atlas of multilineage stem cell differentiation reveals TMEM88 as a developmental regulator of blood pressure. Nature Communications, 16 (1) 1356, 1356-1. doi: 10.1038/s41467-025-56533-2 |
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2025 Journal Article TRIAGE: an R package for regulatory gene analysisZhao, Qiongyi, Shim, Woo Jun, Sun, Yuliangzi, Sinniah, Enakshi, Shen, Sophie, Boden, Mikael and Palpant, Nathan J. (2025). TRIAGE: an R package for regulatory gene analysis. Briefings in Bioinformatics, 26 (1) bbaf004, 1-13. doi: 10.1093/bib/bbaf004 |
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2024 Other Outputs Multilineage differentiation from pluripotency reveals genetic regulators of cardiovascular physiologyShen, Sophie (2024). Multilineage differentiation from pluripotency reveals genetic regulators of cardiovascular physiology. PhD Thesis, Institute for Molecular Bioscience, The University of Queensland. doi: 10.14264/06171ca |
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2024 Conference Publication Preclinical models of Glycaemic variability recapitulate Clinical Cardiovascular outcomes in DiabetesCao, Y., Redd, M., Outhwaite, J., Shim, W., Fang, C., Negi, S., Shen, S., Mizikovsky, D., Chiu, H., Tan, C., Thomas, U., Dragicevic, E., Sng, J., Short, K. and Palpant, N. (2024). Preclinical models of Glycaemic variability recapitulate Clinical Cardiovascular outcomes in Diabetes. 72nd Annual Scientific Meeting of the Cardiac Society of Australia and New Zealand, Perth, WA Australia, 1-4 August 2024. Chatswood, NSW Australia: Elsevier. doi: 10.1016/j.hlc.2024.06.332 |
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2024 Journal Article Wnt dose escalation during the exit from pluripotency identifies tranilast as a regulator of cardiac mesodermWu, Zhixuan, Shen, Sophie, Mizikovsky, Dalia, Cao, Yuanzhao, Naval-Sanchez, Marina, Tan, Siew Zhuan, Alvarez, Yanina D., Sun, Yuliangzi, Chen, Xiaoli, Zhao, Qiongyi, Kim, Daniel, Yang, Pengyi, Hill, Timothy A., Jones, Alun, Fairlie, David P., Pébay, Alice, Hewitt, Alex W., Tam, Patrick P.L., White, Melanie D., Nefzger, Christian M. and Palpant, Nathan J. (2024). Wnt dose escalation during the exit from pluripotency identifies tranilast as a regulator of cardiac mesoderm. Developmental Cell, 59 (6), 705-722.e8. doi: 10.1016/j.devcel.2024.01.019 |
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2023 Journal Article HOPX-associated molecular programs control cardiomyocyte cell states underpinning cardiac structure and functionFriedman, Clayton E., Cheetham, Seth W., Negi, Sumedha, Mills, Richard J., Ogawa, Masahito, Redd, Meredith A., Chiu, Han Sheng, Shen, Sophie, Sun, Yuliangzi, Mizikovsky, Dalia, Bouveret, Romaric, Chen, Xiaoli, Voges, Holly K., Paterson, Scott, De Angelis, Jessica E., Andersen, Stacey B., Cao, Yuanzhao, Wu, Yang, Jafrani, Yohaann M.A., Yoon, Sohye, Faulkner, Geoffrey J., Smith, Kelly A., Porrello, Enzo, Harvey, Richard P., Hogan, Benjamin M., Nguyen, Quan, Zeng, Jian, Kikuchi, Kazu, Hudson, James E. and Palpant, Nathan J. (2023). HOPX-associated molecular programs control cardiomyocyte cell states underpinning cardiac structure and function. Developmental Cell, 59 (1), 91-107.e1. doi: 10.1016/j.devcel.2023.11.012 |
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2023 Journal Article Inferring cell diversity in single cell data using consortium-scale epigenetic data as a biological anchor for cell identitySun, Yuliangzi, Shim, Woo Jun, Shen, Sophie, Sinniah, Enakshi, Pham, Duy, Su, Zezhuo, Mizikovsky, Dalia, White, Melanie D., Ho, Joshua W. K., Nguyen, Quan, Bodén, Mikael and Palpant, Nathan J (2023). Inferring cell diversity in single cell data using consortium-scale epigenetic data as a biological anchor for cell identity. Nucleic Acids Research, 51 (11), e62-e62. doi: 10.1093/nar/gkad307 |
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2023 Journal Article A transposable element into the human long noncoding RNA CARMEN is a switch for cardiac precursor cell specificationPlaisance, Isabelle, Chouvardas, Panagiotis, Sun, Yuliangzi, Nemir, Mohamed, Aghagolzadeh, Parisa, Aminfar, Farhang, Shen, Sophie, Shim, Woo Jun, Rochais, Francesca, Johnson, Rory, Palpant, Nathan and Pedrazzini, Thierry (2023). A transposable element into the human long noncoding RNA CARMEN is a switch for cardiac precursor cell specification. Cardiovascular Research, 119 (6), 1361-1376. doi: 10.1093/cvr/cvac191 |
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2022 Other Outputs Methods and compositions for multiplexing cell analysisPalpant, Nathan, Anderson, Stacey, Werner, Tessa, Lukowski, Samuel and Shen, Sophie (2022). Methods and compositions for multiplexing cell analysis. PCT/AU2022/051476. |
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2022 Conference Publication Alternative splicing of a transposable element into the human long noncoding RNA CARMEN is a switch for cardiac precursor cell specificationPlaisance, Isabelle, Chouvardas, Panagiotis, Sun, Yuliangzi, Nemir, Mohamed, Aghagolzadeh, Parisa, Aminfar, Farhang, Shen, Sophie, Shim, Woo Jun, Rochais, Francesca, Johnson, Rory and Pedrazzini, Thierry (2022). Alternative splicing of a transposable element into the human long noncoding RNA CARMEN is a switch for cardiac precursor cell specification. XXIV World Congress of the International Society for Heart Research, Berlin, Germany, 12–15 June 2022. London, United Kingdom: Academic Press. doi: 10.1016/j.yjmcc.2022.08.344 |
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2022 Journal Article Temporal perturbation of histone deacetylase activity reveals a requirement for HDAC1–3 in mesendoderm cell differentiationSinniah, Enakshi, Wu, Zhixuan, Shen, Sophie, Naval-Sanchez, Marina, Chen, Xiaoli, Lim, Junxian, Helfer, Abbigail, Iyer, Abishek, Tng, Jiahui, Lucke, Andrew J., Reid, Robert C., Redd, Meredith A., Nefzger, Christian M., Fairlie, David P. and Palpant, Nathan J. (2022). Temporal perturbation of histone deacetylase activity reveals a requirement for HDAC1–3 in mesendoderm cell differentiation. Cell Reports, 39 (7) 110818, 1-21. doi: 10.1016/j.celrep.2022.110818 |
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2022 Book Chapter Analysing genetic programs of cell differentiation to study cardiac cell diversificationWu, Zhixuan, Shen, Sophie, Sun, Yuliangzi, Werner, Tessa, Bradford, Stephen T. and Palpant, Nathan J. (2022). Analysing genetic programs of cell differentiation to study cardiac cell diversification. Advanced technologies in cardiovascular bioengineering. (pp. 125-167) edited by Jianyi Zhang and Vahid Serpooshan. Cham, Switzerland: Springer International Publishing. doi: 10.1007/978-3-030-86140-7_8 |
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2021 Journal Article Integrating single-cell genomics pipelines to discover mechanisms of stem cell differentiationShen, Sophie, Sun, Yuliangzi, Matsumoto, Maika, Shim, Woo Jun, Sinniah, Enakshi, Wilson, Sean B., Werner, Tessa, Wu, Zhixuan, Bradford, Stephen T., Hudson, James, Little, Melissa H., Powell, Joseph, Nguyen, Quan and Palpant, Nathan J. (2021). Integrating single-cell genomics pipelines to discover mechanisms of stem cell differentiation. Trends in Molecular Medicine, 27 (12), 1135-1158. doi: 10.1016/j.molmed.2021.09.006 |
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2020 Journal Article Conserved epigenetic regulatory logic infers genes governing cell identityShim, Woo Jun, Sinniah, Enakshi, Xu, Jun, Vitrinel, Burcu, Alexanian, Michael, Andreoletti, Gaia, Shen, Sophie, Sun, Yuliangzi, Balderson, Brad, Boix, Carles, Peng, Guangdun, Jing, Naihe, Wang, Yuliang, Kellis, Manolis, Tam, Patrick P L, Smith, Aaron, Piper, Michael, Christiaen, Lionel, Nguyen, Quan, Bodén, Mikael and Palpant, Nathan J. (2020). Conserved epigenetic regulatory logic infers genes governing cell identity. Cell Systems, 11 (6), 625-639.e13. doi: 10.1016/j.cels.2020.11.001 |
