Li Lab
Welcome to the Computational Genomics LabDan L. Duncan Cancer Center, Department of Molecular and Cellular Biology, Baylor College of Medicine |
Recent News. 12/2010: Liguo's fly RNA-seq paper has been published in Genome Research. . 10/2010: A Texas CPRIT grant has been funded. We will work with Dr. Goodell at BCM to understand DNA Methylgransferase 3B in normal and malignant hematopoiesis. . 08/2010: Our Pilot Project has been funded by a NIH Stem Cell P01 project. . 07/2010: The DNA methylation platform comparision paper has been accepted to Nature Biotechnology. . 06/2010: Hao Zhao will join us as a postdoc fellow. Hao has a PhD in Computer Science from City University of Hong Kong. Welcome! . 05/2010: Our paper titled "Histone modifications and chromatin organization in prostate cancer" has been accepted by Epigenomics. . 01/2010: A Texas CPRIT grant has been funded. We will use ChIP-seq and RNA-seq to analyze Androgen Receptor (AR) function in Prostate Cancer with Dr. Weigel at BCM. . 01/2010: A CPRIT multi-investigator planning award has been funded. This project will bring together a "dream team" in epigenetics research from UT Southwestern, Baylor College of Medicine, and M.D. Anderson. We will direct the bioinformatics component for LONESTAR. . 01/2010: Wei Li is an invited speaker in the American Association for Cancer Research (AACR) Special Conference on Cancer Epigenetics at Puerto Rico. . 12/24/2009: Dr.Bert O'Malley's paper, Global Characterization of Transcriptional Impact of the SRC-3 Coregulator, has been accepted by Molecular Endocrinology. Liguo and Wei are co-authors on the paper. . 12/08/2009: Liguo's paper titled 'A Statistical Method for the Detection of Alternative Splicing Using RNA-seq' has been accepted by PLoS ONE. Congratulations Liguo! . 11/13/2009: Wei Li received a New Investigator Award from the Department of Defense (DOD) Prostate Cancer Research Program (PCRP). Cheers! . 11/07/2009: Wei Li gave a Keynote Presentation at the Symposium on Advances in Cell Signaling, Cancer Prevention and Therapy at South Padre Island, Texas. . 09/29/2009: A prestigious NIH Challenge grant has been funded. We will use ChIP-seq to analyze RXRa binding in mouse liver with Dr. Karpen at Texas Children's Hospital. . 09/17/2009: A two-year $2.5 million NIH Grand Opportunity (GO) grant has been funded. We will study aging epigenomics with Drs. Darlington and Goodell at BCM. . 09/15/2009: A prestigious NIH Challenge grant has been funded. We will use RNA-seq to characterize patient cardiac progenitors with Dr. Pu at Harvard Medical School. . 06/05/2009: Yuanxin's paper titled 'BSMAP: whole genome Bisulfite Sequence MAPping program' has been accepted by BMC Bioinformatics. Congratulations Yuanxin! . 03/26/2009: Wei's paper titled 'Reprogrammed Androgen Receptor Function in Androgen-Independent Prostate Cancer' has been accepted by Cell.
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A Genomic View of Epigenetic and Transcriptional RegulationOur lab is focused on the design and application of statistical and computational algorithms to elucidate global epigenetic and transcriptional regulatory mechanism, by interpreting and integrating data from ChIP-chip/seq, DNA methylation, Nucleosome positioning, Alternative splicing and Motif finding. An elaborate system of epigenetic and transcription regulation is responsible for the morphological and behavioral complexity in higher eukaryotes. This regulatory system consists of diverse trans-acting protein factors, cis-acting regulatory DNA sequences and the underlying epigenomic background, such as histone modifications, DNA methylation and Nucleosome localizations. Recently, Chromatin ImmunoPrecipitation coupled with whole genome tiled microarray (ChIP-chip) and/or next-generation sequencing (Solexa, SOLiD and 454) has evolved as a powerful and unbiased technique to study this genome-wide regulatory system. The application of this technology to multiple factors and/or in multiple conditions allows biologists to study how transcription is differentially regulated in a combinatorial manner. However, it also poses great challenges for the development of effective algorithms, the key link between massive raw data and biological hypotheses. We developed a series of algorithms to reliably detect and annotate ChIP-enriched regions using Next-generation sequencing (MACS; Genome Biology 2008) and Affymetrix whole-genome tiling arrays, including 1) Model-based Analysis of Tiling-arrays (MAT; PNAS 2006) and a hidden Markov model (Bioinformatics 2005) for ChIP-region detection, 2) extreme MApping of OligoNucleotide (xMAN; BMC Genomics 2008) for microarray probe mapping, 3) Cis-regulatory Element Annotation System (CEAS; NAR 2006) for ChIP-region annotation. Since the inception in early 2006, they have been adopted by hundreds of academic users and are now considered as the ChIP-chip data analysis standard in many labs. We worked with ENCODE consortium to systematically analyze the performance variability introduced in ChIP-chip protocols, array platforms, and analysis methods (Genome Res. 2008). Furthermore, we are also in close collaboration with several labs on identifying global regulation targets of several key transcription factors, including Estrogen Receptor (Cell 2005; Nature Genetics 2006); Androgen Receptor (Molecular Cell 2007; Cell 2009) and FoxA1 (Cell 2008). We are currently collaborating with many BCM laboratories to use the Next generation sequencing to study 1) Transcription factor binding and histone modifications (ChIP-seq); 2) DNA methylation at single nucleotide resolution (Bisulfite-seq); 3) Nucleosome remodeling (Mnase-seq); 4) Alternative splicing (RNA-seq). My laboratory also plays an important role in the BCM Epigenomics Data Analysis and Coordination Center for a five-year NIH Roadmap Epigenomics Program.
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