Unbiased Profiling of Isogenic Huntington Disease hPSC-Derived CNS and Peripheral Cells Reveals Strong Cell-Type Specificity of CAG Length Effects
10.1016/j.celrep.2019.02.008
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2021
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sg-nus-scholar.10635-2108022024-04-04T00:51:55Z Unbiased Profiling of Isogenic Huntington Disease hPSC-Derived CNS and Peripheral Cells Reveals Strong Cell-Type Specificity of CAG Length Effects Ooi, J. Langley, S.R. Xu, X. Utami, K.H. Sim, B. Huang, Y. Harmston, N.P. Tay, Y.L. Ziaei, A. Zeng, R. Low, D. Aminkeng, F. Sobota, R.M. Ginhoux, F. Petretto, E. Pouladi, M.A. PHYSIOLOGY DUKE-NUS MEDICAL SCHOOL YALE-NUS COLLEGE CAG repeat differentiation DNA damage genome editing human stem cells Huntington disease isogenic mitochondria proteomics transcriptome 10.1016/j.celrep.2019.02.008 Cell Reports 26 9 2494-25080000000 2021-12-16T07:51:02Z 2021-12-16T07:51:02Z 2019 Article Ooi, J., Langley, S.R., Xu, X., Utami, K.H., Sim, B., Huang, Y., Harmston, N.P., Tay, Y.L., Ziaei, A., Zeng, R., Low, D., Aminkeng, F., Sobota, R.M., Ginhoux, F., Petretto, E., Pouladi, M.A. (2019). Unbiased Profiling of Isogenic Huntington Disease hPSC-Derived CNS and Peripheral Cells Reveals Strong Cell-Type Specificity of CAG Length Effects. Cell Reports 26 (9) : 2494-25080000000. ScholarBank@NUS Repository. https://doi.org/10.1016/j.celrep.2019.02.008 22111247 https://scholarbank.nus.edu.sg/handle/10635/210802 Attribution-NonCommercial-NoDerivatives 4.0 International https://creativecommons.org/licenses/by-nc-nd/4.0/ Elsevier B.V. Scopus OA2019 |
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CAG repeat differentiation DNA damage genome editing human stem cells Huntington disease isogenic mitochondria proteomics transcriptome |
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CAG repeat differentiation DNA damage genome editing human stem cells Huntington disease isogenic mitochondria proteomics transcriptome Ooi, J. Langley, S.R. Xu, X. Utami, K.H. Sim, B. Huang, Y. Harmston, N.P. Tay, Y.L. Ziaei, A. Zeng, R. Low, D. Aminkeng, F. Sobota, R.M. Ginhoux, F. Petretto, E. Pouladi, M.A. Unbiased Profiling of Isogenic Huntington Disease hPSC-Derived CNS and Peripheral Cells Reveals Strong Cell-Type Specificity of CAG Length Effects |
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10.1016/j.celrep.2019.02.008 |
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PHYSIOLOGY |
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PHYSIOLOGY Ooi, J. Langley, S.R. Xu, X. Utami, K.H. Sim, B. Huang, Y. Harmston, N.P. Tay, Y.L. Ziaei, A. Zeng, R. Low, D. Aminkeng, F. Sobota, R.M. Ginhoux, F. Petretto, E. Pouladi, M.A. |
format |
Article |
author |
Ooi, J. Langley, S.R. Xu, X. Utami, K.H. Sim, B. Huang, Y. Harmston, N.P. Tay, Y.L. Ziaei, A. Zeng, R. Low, D. Aminkeng, F. Sobota, R.M. Ginhoux, F. Petretto, E. Pouladi, M.A. |
author_sort |
Ooi, J. |
title |
Unbiased Profiling of Isogenic Huntington Disease hPSC-Derived CNS and Peripheral Cells Reveals Strong Cell-Type Specificity of CAG Length Effects |
title_short |
Unbiased Profiling of Isogenic Huntington Disease hPSC-Derived CNS and Peripheral Cells Reveals Strong Cell-Type Specificity of CAG Length Effects |
title_full |
Unbiased Profiling of Isogenic Huntington Disease hPSC-Derived CNS and Peripheral Cells Reveals Strong Cell-Type Specificity of CAG Length Effects |
title_fullStr |
Unbiased Profiling of Isogenic Huntington Disease hPSC-Derived CNS and Peripheral Cells Reveals Strong Cell-Type Specificity of CAG Length Effects |
title_full_unstemmed |
Unbiased Profiling of Isogenic Huntington Disease hPSC-Derived CNS and Peripheral Cells Reveals Strong Cell-Type Specificity of CAG Length Effects |
title_sort |
unbiased profiling of isogenic huntington disease hpsc-derived cns and peripheral cells reveals strong cell-type specificity of cag length effects |
publisher |
Elsevier B.V. |
publishDate |
2021 |
url |
https://scholarbank.nus.edu.sg/handle/10635/210802 |
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1795374828975292416 |