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2026

Other Outputs

Protocol-dependent cardiomyocyte states determine disease modelling capacity of human iPSCs

Shen, Sophie, Tan, Clarissa, Cao, Yuanzhao, Chow, Chris Siu Yeung, Mizikovsky, Dalia, Reid, Janice, Dingwall, Steve, Prowse, Andrew, Sun, Yuliangzi, Wu, Zhixuan, Negi, Sumedha, Bao, Shaine Chenxin, Sinniah, Enakshi, Shim, Woo Jun, Zhao, Qiongyi, Thorpe, Jordan, Zahabi, Azadeh, Hanna, Amy, Cheng, Trishia, Hill, Adam, Hudson, James, Chong, James J. H. and Palpant, Nathan J. (2026). Protocol-dependent cardiomyocyte states determine disease modelling capacity of human iPSCs. doi: 10.64898/2026.03.29.715135

Protocol-dependent cardiomyocyte states determine disease modelling capacity of human iPSCs

2026

Other Outputs

Hierarchical control of cardiomyocyte maturation and ischaemia sensitivity by metabolic culture conditions

Cao, Yuanzhao, Chow, Chris Siu Yeung, Negi, Sumedha, Shim, Woo Jun, Shen, Sophie, Fang, Chen and Palpant, Nathan J. (2026). Hierarchical control of cardiomyocyte maturation and ischaemia sensitivity by metabolic culture conditions. doi: 10.64898/2026.03.12.711459

Hierarchical control of cardiomyocyte maturation and ischaemia sensitivity by metabolic culture conditions

2021

Other Outputs

Identifying genetic regulators of cell fate through computational analysis of epigenetic repression

Shim, Woo Jun (2021). Identifying genetic regulators of cell fate through computational analysis of epigenetic repression. PhD Thesis, School of Chemistry and Molecular Biosciences, The University of Queensland. doi: 10.14264/4d7b321

Identifying genetic regulators of cell fate through computational analysis of epigenetic repression