Bing Lim focuses on Cell biology, Stem cell, Molecular biology, SOX2 and Genetics. His Cell biology research includes elements of Embryonic stem cell, Immunology, Cytokine and Transcription factor. His work carried out in the field of Stem cell brings together such families of science as Homeobox protein NANOG and Cellular differentiation, Adult stem cell.
Within one scientific family, he focuses on topics pertaining to Nanog Homeobox Protein under Homeobox protein NANOG, and may sometimes address concerns connected to Octamer Transcription Factor-3 and Gene expression profiling. His biological study spans a wide range of topics, including Cell, Stem cell factor, Ectopic expression, microRNA and Regulation of gene expression. As part of the same scientific family, he usually focuses on SOX2, concentrating on Induced pluripotent stem cell and intersecting with Reprogramming and Enhancer.
Bing Lim spends much of his time researching Cell biology, Stem cell, Molecular biology, Embryonic stem cell and Cellular differentiation. The Cell biology study combines topics in areas such as Genetics, microRNA, Induced pluripotent stem cell and Transcription factor. His research in Transcription factor tackles topics such as Chromatin immunoprecipitation which are related to areas like DNA binding site.
Bing Lim has researched Stem cell in several fields, including Embryoid body, Induced stem cells, Adult stem cell, Homeobox protein NANOG and Computational biology. Bing Lim has included themes like SOX2, Nanog Homeobox Protein and Rex1 in his Homeobox protein NANOG study. The study incorporates disciplines such as Gene expression, Gene knockdown, Gene expression profiling, Gene and Regulation of gene expression in addition to Molecular biology.
His primary scientific interests are in Cell biology, Cancer research, Cancer, Lung cancer and Progenitor cell. His Cell biology study focuses on Stem cell in particular. His Cancer research study incorporates themes from Haematopoiesis, Homocysteine, Transcription factor, Tumor Initiating Cells and Cell cycle.
His work deals with themes such as Oncology, Small molecule and Pathology, which intersect with Cancer. His Lung cancer research focuses on Adenocarcinoma and how it relates to Phenotype and Exome sequencing. His research integrates issues of Endothelial stem cell, Lung, Immunology and Cell fate determination in his study of Progenitor cell.
The scientist’s investigation covers issues in Cancer research, Cell biology, Cancer, Adenocarcinoma and Lung cancer. His Cancer research research incorporates elements of KRAS, Exact test and High Resolution Melt, Genotype. His research on Cell biology frequently connects to adjacent areas such as Cellular differentiation.
His Cancer study integrates concerns from other disciplines, such as Endothelial stem cell, Circulating endothelial cell, Single-cell analysis and Mesenchymal stem cell, Pathology. His Lung cancer study combines topics in areas such as Cell and microRNA. His Transcription factor study frequently links to related topics such as Stem cell.
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The Oct4 and Nanog transcription network regulates pluripotency in mouse embryonic stem cells.
Yuin Han Loh;Qiang Wu;Joon Lin Chew;Joon Lin Chew;Vinsensius B. Vega.
Nature Genetics (2006)
A Pattern-Based Method for the Identification of MicroRNA Binding Sites and Their Corresponding Heteroduplexes
Kevin C. Miranda;Tien Huynh;Yvonne Tay;Yen-Sin Ang.
MicroRNAs to Nanog, Oct4 and Sox2 coding regions modulate embryonic stem cell differentiation
Yvonne Tay;Jinqiu Zhang;Andrew M. Thomson;Bing Lim;Bing Lim.
A global map of p53 transcription-factor binding sites in the human genome.
Chia-Lin Wei;Qiang Wu;Vinsensius B. Vega;Kuo Ping Chiu.
Reciprocal transcriptional regulation of Pou5f1 and Sox2 via the Oct4/Sox2 complex in embryonic stem cells.
Joon-Lin Chew;Yuin-Han Loh;Yuin-Han Loh;Wensheng Zhang;Xi Chen;Xi Chen.
Molecular and Cellular Biology (2005)
MicroRNA-125b is a novel negative regulator of p53
Minh T.N. Le;Cathleen Teh;Ng Shyh-Chang;Huangming Xie;Huangming Xie;Huangming Xie.
Genes & Development (2009)
Correction: Corrigendum: Endothelin-1 supports clonal derivation and expansion of cardiovascular progenitors derived from human embryonic stem cells
Boon-Seng Soh;Shi-Yan Ng;Hao Wu;Kristina Buac.
Nature Communications (2016)
MicroRNAs Induced During Adipogenesis that Accelerate Fat Cell Development Are Downregulated in Obesity
Huangming Xie;Bing Lim;Harvey F. Lodish.
Glycine Decarboxylase Activity Drives Non-Small Cell Lung Cancer Tumor-Initiating Cells and Tumorigenesis
Wen Cai Zhang;Ng Shyh-Chang;He Yang;Amit Rai.
Sall4 modulates embryonic stem cell pluripotency and early embryonic development by the transcriptional regulation of Pou5f1.
Jinqiu Zhang;Wai-Leong Tam;Wai-Leong Tam;Guo Qing Tong;Qiang Wu.
Nature Cell Biology (2006)
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