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Wing-Kin Sung
Researcher at National University of Singapore
Publications - 335
Citations - 28128
Wing-Kin Sung is an academic researcher from National University of Singapore. The author has contributed to research in topics: Gene & Genome. The author has an hindex of 64, co-authored 327 publications receiving 26116 citations. Previous affiliations of Wing-Kin Sung include University of Hong Kong & Yale University.
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Journal ArticleDOI
Long span DNA paired-end-tag (DNA-PET) sequencing strategy for the interrogation of genomic structural mutations and fusion-point-guided reconstruction of amplicons.
Fei Yao,Fei Yao,Pramila N. Ariyaratne,Axel M. Hillmer,Wah Heng Lee,Guoliang Li,Audrey S.M. Teo,Xing Yi Woo,Zhenshui Zhang,Jieqi P. Chen,Wan Ting Poh,Kelson F B Zawack,Chee Seng Chan,See Ting Leong,Say Chuan Neo,Poh Sum D Choi,Song Gao,Niranjan Nagarajan,Hervé Thoreau,Atif Shahab,Xiaoan Ruan,Valere Cacheux-Rataboul,Chia-Lin Wei,Guillaume Bourque,Wing-Kin Sung,Edison T. Liu,Yijun Ruan,Yijun Ruan +27 more
TL;DR: It is confirmed that large insert libraries allow for the identification of SVs within repetitive sequences, which cannot be spanned by short inserts, and it is shown how it can be used in a fusion-point-guided-concatenation algorithm to study focally amplified regions in cancer.
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Large-scale evolutionary surveillance of the 2009 H1N1 influenza A virus using resequencing arrays
Charlie Wah Heng Lee,Chee Wee Koh,Yang Sun Chan,Pauline Poh Kim Aw,Kuan Hon Loh,Bing Ling Han,Pei Ling Thien,Geraldine Yi Wen Nai,Martin L. Hibberd,Christopher W. Wong,Wing-Kin Sung +10 more
TL;DR: This work has developed and field-tested a resequencing kit that is capable of interrogating all eight segments of the 2009 influenza A(H1N1) virus genome and its variants, with added focus on critical regions such as drug-binding sites, structural components and mutation hotspots.
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Chromatin interaction networks and higher order architectures of eukaryotic genomes.
TL;DR: A stepwise topological transformation of genome is introduced from 1‐dimension (1D, linear) to 2‐ dimension (2D, networks) to 3‐dimensional (3D, architecture) to discuss how such transformations could advance the understanding of genome biology.
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Comprehensive analysis of transcriptome profiles in hepatocellular carcinoma
Yu Jin,Wai Yeow Lee,Soo Ting Toh,Chandana Tennakoon,Han Chong Toh,Pierce K. H. Chow,Pierce K. H. Chow,Alexander Y. F. Chung,Samuel S. Chong,London L.P.J. Ooi,Wing-Kin Sung,Wing-Kin Sung,Caroline G.L. Lee +12 more
TL;DR: Transcriptome sequencing of H CC patients reveals key cancer molecules and clinically relevant pathways deregulated/mutated in HCC patients and suggests that while HBV may integrate randomly during chronic infection, selective expression of functional chimeric transcripts likely occur during the process of tumorigenesis.
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Improved Algorithms for Constructing Consensus Trees
TL;DR: New deterministic algorithms for constructing consensus trees that are faster than all the previously known ones are presented, and are optimal since the input size is Ω(nk).