Your search keyword '"Siew Lan Lim"' showing total 4 results

1. In vivo genome-wide analysis of multiple tissues identifies gene regulatory networks, novel functions and downstream regulatory genes for Bapx1 and its co-regulation with Sox9 in the mammalian vertebral column.

Author

Chatterjee, Sumantra, Sivakamasundari, V., Sook Peng Yap, Kraus, Petra, Kumar, Vibhor, Xing Xing, Siew Lan Lim, Joel Sng, Prabhakar, Shyam, and Lufkin, Thomas

Subjects

GENOMICS, GENE regulatory networks, REGULATOR genes, MORPHOGENESIS, TRANSCRIPTION factors

Abstract

Background: Vertebrate organogenesis is a highly complex process involving sequential cascades of transcription factor activation or repression. Interestingly a single developmental control gene can occasionally be essential for the morphogenesis and differentiation of tissues and organs arising from vastly disparate embryological lineages. Results: Here we elucidated the role of the mammalian homeobox gene Bapx1 during the embryogenesis of five distinct organs at E12.5 - vertebral column, spleen, gut, forelimb and hindlimb - using expression profiling of sorted wildtype and mutant cells combined with genome wide binding site analysis. Furthermore we analyzed the development of the vertebral column at the molecular level by combining transcriptional profiling and genome wide binding data for Bapx1 with similarly generated data sets for Sox9 to assemble a detailed gene regulatory network revealing genes previously not reported to be controlled by either of these two transcription factors. Conclusions: The gene regulatory network appears to control cell fate decisions and morphogenesis in the vertebral column along with the prevention of premature chondrocyte differentiation thus providing a detailed molecular view of vertebral column development. [ABSTRACT FROM AUTHOR]

Published

2014

2. Mouse strain specific gene expression differences for illumina microarray expression profiling in embryos.

Author

Kraus, Petra, Xing Xing, Siew Lan Lim, Fun, Max E., Sivakamasundari, V., Sook Peng Yap, Haixia Lee, Murthy Karuturi, R. Krishna, and Lufkin, Thomas

Subjects

GENE expression, GENETIC regulation, DNA microarrays, EMBRYOS, PREGNANCY, NERVOUS system

Abstract

Background: In the field of mouse genetics the advent of technologies like microarray based expression profiling dramatically increased data availability and sensitivity, yet these advanced methods are often vulnerable to the unavoidable heterogeneity of in vivo material and might therefore reflect differentially expressed genes between mouse strains of no relevance to a targeted experiment. The aim of this study was not to elaborate on the usefulness of microarray analysis in general, but to expand our knowledge regarding this potential "background noise" for the widely used Illumina microarray platform surpassing existing data which focused primarily on the adult sensory and nervous system, by analyzing patterns of gene expression at different embryonic stages using wild type strains and modern transgenic models of often non-isogenic backgrounds. Results: Wild type embryos of 11 mouse strains commonly used in transgenic and molecular genetic studies at three developmental time points were subjected to Illumina microarray expression profiling in a strain-by-strain comparison. Our data robustly reflects known gene expression patterns during mid-gestation development. Decreasing diversity of the input tissue and/or increasing strain diversity raised the sensitivity of the array towards the genetic background. Consistent strain sensitivity of some probes was attributed to genetic polymorphisms or probe design related artifacts. Conclusion: Our study provides an extensive reference list of gene expression profiling background noise of value to anyone in the field of developmental biology and transgenic research performing microarray expression profiling with the widely used Illumina microarray platform. Probes identified as strain specific background noise further allow for microarray expression profiling on its own to be a valuable tool for establishing genealogies of mouse inbred strains. [ABSTRACT FROM AUTHOR]

Published

2012

3. Tbx3 improves the germ-line competency of induced pluripotent stem cells.

Author

Jianyong Han, Ping Yuan, Henry Yang, Jinqiu Zhang, Boon Seng Soh, Pin Li, Siew Lan Lim, Suying Cao, Junliang Tay, Orlov, Yuriy L., Lufkin, Thomas, Huck-Hui Ng, Wai-Leong Tam, and Bing Lim

Subjects

STEM cells, SOMATIC cells, GENE expression, FIBROBLASTS, MOSAICISM, ANTIBODY diversity, GENOMES, GERM cells, CHROMATIN

Abstract

Induced pluripotent stem (iPS) cells can be obtained by the introduction of defined factors into somatic cells. The combination of Oct4 (also known as Pou5f1), Sox2 and Klf4 (which we term OSK) constitutes the minimal requirement for generating iPS cells from mouse embryonic fibroblasts. These cells are thought to resemble embryonic stem cells (ESCs) on the basis of global gene expression analyses; however, few studies have tested the ability and efficiency of iPS cells to contribute to chimaerism, colonization of germ tissues, and most importantly, germ-line transmission and live birth from iPS cells produced by tetraploid complementation. Using genomic analyses of ESC genes that have roles in pluripotency and fusion-mediated somatic cell reprogramming, here we show that the transcription factor Tbx3 significantly improves the quality of iPS cells. iPS cells generated with OSK and Tbx3 (OSKT) are superior in both germ-cell contribution to the gonads and germ-line transmission frequency. However, global gene expression profiling could not distinguish between OSK and OSKT iPS cells. Genome-wide chromatin immunoprecipitation sequencing analysis of Tbx3-binding sites in ESCs suggests that Tbx3 regulates pluripotency-associated and reprogramming factors, in addition to sharing many common downstream regulatory targets with Oct4, Sox2, Nanog and Smad1. This study underscores the intrinsic qualitative differences between iPS cells generated by different methods, and highlights the need to rigorously characterize iPS cells beyond in vitro studies. [ABSTRACT FROM AUTHOR]

Published

2010

4. SARS Transmission Pattern in Singapore Reassessed by Viral Sequence Variation Analysis.

Author

Jianjun Liu, Siew Lan Lim, Yijun Ruan, Ai Ee Ling, Ng, Lisa F. P., Drosten, Christian, Liu, Edison T., Stanton, Lawrence W., Hibberd, Martin L., and Sibbald, William

Subjects

SARS disease, INFECTIOUS disease transmission, CORONAVIRUS diseases, RESPIRATORY infections, MASS spectrometry

Abstract

Background Epidemiological investigations of infectious disease are mainly dependent on indirect contact information and only occasionally assisted by characterization of pathogen sequence variation from clinical isolates. Direct sequence analysis of the pathogen, particularly at a population level, is generally thought to be too cumbersome, technically difficult, and expensive. We present here a novel application of mass spectrometry (MS)--based technology in characterizing viral sequence variations that overcomes these problems, and we apply it retrospectively to the severe acute respiratory syndrome (SARS) outbreak in Singapore. Methods and Findings The success rate of the MS-based analysis for detecting SARS coronavirus (SARS-CoV) sequence variations was determined to be 95% with 75 copies of viral RNA per reaction, which is sufficient to directly analyze both clinical and cultured samples. Analysis of 13 SARS-CoV isolates from the different stages of the Singapore outbreak identified nine sequence variations that could define the molecular relationship between them and pointed to a new, previously unidentified, primary route of introduction of SARS-CoV into the Singapore population. Our direct determination of viral sequence variation from a clinical sample also clarified an unresolved epidemiological link regarding the acquisition of SARS in a German patient. We were also able to detect heterogeneous viral sequences in primary lung tissues, suggesting a possible coevolution of quasispecies of virus within a single host. Conclusion This study has further demonstrated the importance of improving clinical and epidemio-logical studies of pathogen transmission through the use of genetic analysis and has revealed the MS-based analysis to be a sensitive and accurate method for characterizing SARS-CoV genetic variations in clinical samples. We suggest that this approach should be used routinely during outbreaks of a wide variety of agents, in order to allow the ... [ABSTRACT FROM AUTHOR]

Published

2005