His primary areas of investigation include Genetics, Molecular biology, Gene, Virology and Complementary DNA. His Genetics and International HapMap Project, Haplotype, Genetic association, Single-nucleotide polymorphism and Genotype investigations all form part of his Genetics research activities. The concepts of his International HapMap Project study are interwoven with issues in Natural selection, Selection, Linkage disequilibrium and Tag SNP.
His Tag SNP study combines topics from a wide range of disciplines, such as Imputation, Structural variation and Haplotype estimation. His Molecular biology research includes elements of Apoptosis, Peptide sequence, TP63, Protein structure and DNA fragmentation. His Virology research is multidisciplinary, relying on both Men who have sex with men and Coronavirus.
His primary scientific interests are in Genetics, Molecular biology, Gene, Virology and Cancer research. His study in Genome, Single-nucleotide polymorphism, Genotype, Genetic association and Genome-wide association study is carried out as part of his studies in Genetics. His study on Molecular biology also encompasses disciplines like
His research investigates the link between Gene and topics such as Computational biology that cross with problems in Mycobacterium tuberculosis, DNA microarray and Bioinformatics. The Cancer research study combines topics in areas such as Apoptosis, Cancer, Cell growth and Giant-cell tumor of bone. In his research, Cellular differentiation and Gene isoform is intimately related to Cell biology, which falls under the overarching field of Cell growth.
The scientist’s investigation covers issues in Gene, Cancer research, Genetics, Computational biology and Immunology. He works mostly in the field of Gene, limiting it down to concerns involving Mycobacterium tuberculosis and, occasionally, Protein structure. His Cancer research research includes themes of Cancer, Colorectal cancer, Cell growth and In vivo.
His biological study deals with issues like Apoptosis, which deal with fields such as Signal transduction and Cell biology. His study involves Antibiotic resistance, Promoter and Drug resistance, a branch of Genetics. While the research belongs to areas of Computational biology, Stephen Kwok-Wing Tsui spends his time largely on the problem of Genome, intersecting his research to questions surrounding Proteomics and DNA sequencing.
Stephen Kwok-Wing Tsui mostly deals with Cancer research, Immunology, Genome, Transcriptome and Computational biology. His work deals with themes such as Cell growth, Tumor microenvironment, Metastasis, Colorectal cancer and In vivo, which intersect with Cancer research. His studies in Genome integrate themes in fields like Real-time polymerase chain reaction, Virology, Coronavirus and Severe acute respiratory syndrome coronavirus 2.
His work carried out in the field of Transcriptome brings together such families of science as Reference genes, RNA, Actin cytoskeleton, Exon and Regulation of gene expression. Reference genes is a subfield of Genetics that Stephen Kwok-Wing Tsui investigates. His Computational biology research incorporates elements of Effector, Proteomics and Mycobacterium tuberculosis.
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A haplotype map of the human genome
John W. Belmont;Andrew Boudreau;Suzanne M. Leal;Paul Hardenbol.
A second generation human haplotype map of over 3.1 million SNPs
Kelly A. Frazer;Dennis G. Ballinger;David R. Cox;David A. Hinds.
Genome-wide detection and characterization of positive selection in human populations
Pardis C. Sabeti;Pardis C. Sabeti;Patrick Varilly;Patrick Varilly;Ben Fry;Jason Lohmueller.
Immunomodulatory and anti-SARS activities of Houttuynia cordata
Kit Man Lau;Kin Ming Lee;Chi Man Koon;Crystal Sao Fong Cheung.
Journal of Ethnopharmacology (2008)
Translation of the circular RNA circβ-catenin promotes liver cancer cell growth through activation of the Wnt pathway
Wei-Cheng Liang;Wei-Cheng Liang;Cheuk-Wa Wong;Pu-Ping Liang;Mai Shi.
Genome Biology (2019)
A Genome-Based Resource for Molecular Cardiovascular Medicine Toward a Compendium of Cardiovascular Genes
David M. Hwang;Adam A. Dempsey;Ruo-Xiang Wang;Mojgan Rezvani.
Paeoniae Radix, a Chinese herbal extract, inhibit hepatoma cells growth by inducing apoptosis in a p53 independent pathway.
Simon Ming Yuen Lee;Mandy Lok Yee Li;Yu Chung Tse;Steve Chin Lung Leung.
Life Sciences (2002)
Molecular cloning and characterization of FHL2, a novel LIM domain protein preferentially expressed in human heart
Kwok Keung Chan;Stephen Kwok Wing Tsui;Simon Ming Yuen Lee;Sharon Chui Wah Luk.
The 3a protein of severe acute respiratory syndrome-associated coronavirus induces apoptosis in Vero E6 cells
Patrick T.W. Law;Chi Hang Wong;Thomas C.C. Au;Chi Pang Chuck.
Journal of General Virology (2005)
Whole-genome bisulfite sequencing of multiple individuals reveals complementary roles of promoter and gene body methylation in transcriptional regulation
Shaoke Lou;Heung-Man Lee;Hao Qin;Jing-Woei Li.
Genome Biology (2014)
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