Your search keyword '"Chu, Ho Ting"' showing total 7 results

1. Parallel bimodal single-cell sequencing of transcriptome and methylome provides molecular and translational insights on oocyte maturation and maternal aging

Author

Zhang, Fa Li, Qian, Yan, Li, Wei-Dong, Cao, Qin, Chu, Ho Ting, Luk, Alfrd Chun Sui, Tsang, Shun Wa, Lee, Wai Kit, Tang, Ming Kuen Patrick, Chan, Wai Yee, Chow, King Lau, Chan, David Yiu Leung Chan, Li, Tin Chiu, Yip, Kevin Yuk-Lap, Shen, Wei, Lee, Tin Lap, Zhang, Fa Li, Qian, Yan, Li, Wei-Dong, Cao, Qin, Chu, Ho Ting, Luk, Alfrd Chun Sui, Tsang, Shun Wa, Lee, Wai Kit, Tang, Ming Kuen Patrick, Chan, Wai Yee, Chow, King Lau, Chan, David Yiu Leung Chan, Li, Tin Chiu, Yip, Kevin Yuk-Lap, Shen, Wei, and Lee, Tin Lap

Abstract

Advanced maternal aging has become a worldwide public health issue contributing to female fertility decline. To provide a complete landscape of transcriptome and epigenetic changes during oocyte aging and maturation, we applied a parallel bimodal genomics approach to parallel transcriptome and methylome profiles of mouse oocytes at single-cell and single-base resolution. Age-associated gene expression changes were associated with defective spindle assembly and mitochondrial dysfunction. Parallel sequencing data suggested aged-related defects in mRNA degradation and methylome remodelling during oocyte maturation. Differentially methylated region in aged mature oocyte was associated with trimethylation of Histone H3 at Lysine 4. More importantly, RNA expression-based prediction model for assessing maturation and oocytes age. Taken together, our work provides a better understanding of molecular mechanisms during mouse oocyte aging, points a new direction of oocyte quality assessment and paves the way for developing novel treatments to improve oocyte quality. © 2022 The Authors

Published

2022

2. Retraction notice to “Parallel bimodal single-cell sequencing of transcriptome and methylome provides molecular and translational insights on oocyte maturation and maternal aging” [Genomics, 114/3 (2022) 110379]

Author

Zhang, Fa-Li, primary, Li, Wei-Dong, additional, Chu, Ho Ting, additional, Luk, Alfred Chun Sui, additional, Tsang, Shun Wa, additional, Lee, Wai Kit, additional, Tang, Patrick Ming-Kuen, additional, Chan, Wai-Yee, additional, Chow, King Lau, additional, Chan, David Yiu Leung, additional, Li, Tin Chiu, additional, Shen, Wei, additional, and Lee, Tin-Lap, additional

Published

2022

3. RETRACTED: Parallel bimodal single-cell sequencing of transcriptome and methylome provides molecular and translational insights on oocyte maturation and maternal aging

Author

Zhang, Fa-Li, primary, Li, Wei-Dong, additional, Chu, Ho Ting, additional, Luk, Alfred Chun Sui, additional, Tsang, Shun Wa, additional, Lee, Wai Kit, additional, Tang, Patrick Ming-Kuen, additional, Chan, Wai-Yee, additional, Chow, King Lau, additional, Chan, David Yiu Leung, additional, Li, Tin Chiu, additional, Shen, Wei, additional, and Lee, Tin-Lap, additional

Published

2022

4. Delineating the Methylome of Human Oocyte and Sibling Polar Body by Single‐cell Whole Genome Bisulfite sequencing

Author

Cheung, Man Yee, primary, Ng, Kin Wing, additional, Lee, Wing Tung, additional, Chan, Ting Hei, additional, Luk, Chun Shui, additional, Liao, Jinyue, additional, Suen, Hoi Ching, additional, Chu, Ho Ting, additional, Chan, Yiu Leung, additional, Chan, Wai Yee, additional, and Lee, Tin Lap, additional

Published

2021

5. The single-cell epigenetic regulatory landscape in mammalian perinatal testis development

Author

Liao, Jinyue, primary, Suen, Hoi Ching, additional, Rao, Shitao, additional, Luk, Alfred Chun Shui, additional, Zhang, Ruoyu, additional, Lee, Annie Wing Tung, additional, Chan, Ting Hei Thomas, additional, Cheung, Man Yee, additional, Chu, Ho Ting, additional, So, Hon Cheong, additional, Hobbs, Robin M., additional, and Lee, Tin-Lap, additional

Published

2021

6. Biomaterials and Advanced Biofabrication Techniques in hiPSCs Based Neuromyopathic Disease Modeling

Author

Sun, Jing, primary, Ma, Xun, additional, Chu, Ho Ting, additional, Feng, Bo, additional, Tuan, Rocky S., additional, and Jiang, Yangzi, additional

Published

2019

7. ¬Network Traffic Prediction Using the Combination of Chaos Theory and Simple-MKL

Author

Juqiong Yang, Xu-dong Zhang, and Chu-Ho Ting

Subjects

SIMPLE (military communications protocol), Computer Networks and Communications, Computer science, Generalization, business.industry, computer.software_genre, Machine learning, Regression, Chaos theory, Field (computer science), Network traffic simulation, Network simulation, Computer Science::Networking and Internet Architecture, Artificial intelligence, Data mining, business, Traffic generation model, computer

Abstract

Network traffic prediction has been an important problem in the field of network designing and planning. Several prediction approaches are developed to predict the network traffic as well as its generalization promotion ability. By analyzing the limitation of previous approaches, we propose a network traffic prediction approach based on the Chaos theory and Regression-SMKL (RRSMKL) algorithm. To our best knowledge, this is the first work that couples Chaos theory and RSMKL for network traffic prediction. First, we employ Chaos theory to extract the features of networks. Then we propose the RSMKL is to predict the network traffic, in the manner of regression. The proposed approach is then applied to predict the real network traffic data. By the simulation test, the results show that the proposed prediction approach in this paper has satisfied prediction accuracy, fast prediction speed and better network traffic prediction ability.

Published

2013