Wan Kin Au Yeung
Affiliations: | Kyushu University (Japan) |
Area:
Machine learning, epigeneticsGoogle:
"Wan Kin Au Yeung"Parents
Sign in to add mentorHon-Ming Lam | research assistant | 2011-2013 | Chinese University of Hong Kong |
Hon-Ming Lam | grad student | 2008-2011 | Chinese University of Hong Kong |
Hiroyuki Sasaki | grad student | 2014-2019 | Kyushu University (Japan) |
Hiroyuki Sasaki | post-doc | 2019- | Kyushu University (Japan) |
BETA: Related publications
See more...
Publications
You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect. |
Uehara R, Au Yeung WK, Toriyama K, et al. (2023) The DNMT3A ADD domain is required for efficient de novo DNA methylation and maternal imprinting in mouse oocytes. Plos Genetics. 19: e1010855 |
Maruyama O, Li Y, Narita H, et al. (2022) CMIC: predicting DNA methylation inheritance of CpG islands with embedding vectors of variable-length k-mers. Bmc Bioinformatics. 23: 371 |
Au Yeung WK, Sasaki H. (2022) Low Input Genome-Wide DNA Methylation Analysis with Minimal Library Amplification. Methods in Molecular Biology (Clifton, N.J.). 2509: 233-250 |
Hasuwa H, Iwasaki YW, Au Yeung WK, et al. (2021) Production of functional oocytes requires maternally expressed PIWI genes and piRNAs in golden hamsters. Nature Cell Biology. 23: 1002-1012 |
Au Yeung WK, Maruyama O, Sasaki H. (2021) A convolutional neural network-based regression model to infer the epigenetic crosstalk responsible for CG methylation patterns. Bmc Bioinformatics. 22: 341 |
Richard Albert J, Au Yeung WK, Toriyama K, et al. (2020) Maternal DNMT3A-dependent de novo methylation of the paternal genome inhibits gene expression in the early embryo. Nature Communications. 11: 5417 |
Du Z, Zheng H, Kawamura YK, et al. (2019) Polycomb Group Proteins Regulate Chromatin Architecture in Mouse Oocytes and Early Embryos. Molecular Cell |
Ohishi H, Au Yeung WK, Unoki M, et al. (2019) Characterization of genetic-origin-dependent monoallelic expression in mouse embryonic stem cells. Genes to Cells : Devoted to Molecular & Cellular Mechanisms |
Au Yeung WK, Brind'Amour J, Hatano Y, et al. (2019) Histone H3K9 Methyltransferase G9a in Oocytes Is Essential for Preimplantation Development but Dispensable for CG Methylation Protection. Cell Reports. 27: 282-293.e4 |