Kavita Garg

Publications (6) View all

• Article: The accessible chromatin landscape of the human genome.

  Robert E Thurman, Eric Rynes, Richard Humbert, Jeff Vierstra, Matthew T Maurano, Eric Haugen, Nathan C Sheffield, Andrew B Stergachis, Hao Wang, Benjamin Vernot, [......], Vishwanath R Iyer, Jason D Lieb, Shamil R Sunyaev, Joshua M Akey, Peter J Sabo, Rajinder Kaul, Terrence S Furey, Job Dekker, Gregory E Crawford, John A Stamatoyannopoulos
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  ABSTRACT: DNase I hypersensitive sites (DHSs) are markers of regulatory DNA and have underpinned the discovery of all classes of cis-regulatory elements including enhancers, promoters, insulators, silencers and locus control regions. Here we present the first extensive map of human DHSs identified through genome-wide profiling in 125 diverse cell and tissue types. We identify ∼2.9 million DHSs that encompass virtually all known experimentally validated cis-regulatory sequences and expose a vast trove of novel elements, most with highly cell-selective regulation. Annotating these elements using ENCODE data reveals novel relationships between chromatin accessibility, transcription, DNA methylation and regulatory factor occupancy patterns. We connect ∼580,000 distal DHSs with their target promoters, revealing systematic pairing of different classes of distal DHSs and specific promoter types. Patterning of chromatin accessibility at many regulatory regions is organized with dozens to hundreds of co-activated elements, and the transcellular DNase I sensitivity pattern at a given region can predict cell-type-specific functional behaviours. The DHS landscape shows signatures of recent functional evolutionary constraint. However, the DHS compartment in pluripotent and immortalized cells exhibits higher mutation rates than that in highly differentiated cells, exposing an unexpected link between chromatin accessibility, proliferative potential and patterns of human variation.
  Nature 09/2012; 489(7414):75-82. · 36.28 Impact Factor
• Source

  Available from: Scott Tenenbaum

  Article: An integrated encyclopedia of DNA elements in the human genome

  Ian Dunham, Anshul Kundaje, Shelley F Aldred, Patrick J Collins, Carrie A Davis, Francis Doyle, Charles B Epstein, Seth Frietze, Jennifer Harrow, Rajinder Kaul, [......], Jason D Lieb, Elliott H Margulies, Richard M Myers, Michael Snyder, John A Stamatoyannopoulos, Scott A Tenenbaum, Zhiping Weng, Kevin P White, Barbara Wold, Ewan Birney
  Nature 01/2012; 489(7414):57-74. · 36.28 Impact Factor
• Article: Regulation of miR-200 family microRNAs and ZEB transcription factors in ovarian cancer: evidence supporting a mesothelial-to-epithelial transition.

  Ausra Bendoraite, Emily C Knouf, Kavita S Garg, Rachael K Parkin, Evan M Kroh, Kathy C O'Briant, Aviva P Ventura, Andrew K Godwin, Beth Y Karlan, Charles W Drescher, Nicole Urban, Beatrice S Knudsen, Muneesh Tewari
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  ABSTRACT: Our objective was to characterize the expression and function of the miR-200 family of microRNAs (miRNA) in ovarian carcinogenesis. We used qRT-PCR to examine expression of the miR-200 miRNA family and its predicted targets, the ZEB1 and ZEB2 transcriptional repressors, in primary cultures of normal cells from the surface of the ovary and in a panel of 70 ovarian cancer tissues and 15 ovarian cancer cell lines. We studied the mechanisms of regulation of miR-200 miRNAs and ZEB transcription factors in ovarian cells using 3' UTR luciferase reporters, promoter luciferase reporters and siRNAs. miR-200 family members are expressed at low or negligible levels in normal ovarian surface cells and substantially increase in expression in ovarian cancer, whereas expression of ZEB1 and ZEB2 shows the opposite pattern. There is reciprocal repression between miR-200 family members and ZEB transcription factors, creating a double negative regulatory feedback loop resembling that reported in other cancer cell types. In contrast to epithelial cells from other sites, expression levels of miR-200 miRNAs and ZEB1/2 in cells from the ovarian surface are more consistent with a mesenchymal cell phenotype, potentially reflecting the mesothelial origin of the ovarian surface. Analysis of ovarian cancer tissues suggests that ovarian surface cells acquire a more epithelial miR-200-ZEB1/2 phenotype as they undergo transformation, switching from a miR-200 familyLOW and ZEB1/2HIGH state to a miR-200 familyHIGH and ZEB1/2LOW phenotype. Collectively, our data support the mesothelial-to-epithelial (Meso-E-T) model for development of ovarian cancers that arise from ovarian surface cells, as has been proposed previously on the basis of studies of protein markers.
  Gynecologic Oncology 10/2009; 116(1):117-25. · 3.89 Impact Factor
• Article: MicroRNA discovery and profiling in human embryonic stem cells by deep sequencing of small RNA libraries.

  Merav Bar, Stacia K Wyman, Brian R Fritz, Junlin Qi, Kavita S Garg, Rachael K Parkin, Evan M Kroh, Ausra Bendoraite, Patrick S Mitchell, Angelique M Nelson, Walter L Ruzzo, Carol Ware, Jerald P Radich, Robert Gentleman, Hannele Ruohola-Baker, Muneesh Tewari
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  ABSTRACT: We used massively parallel pyrosequencing to discover and characterize microRNAs (miRNAs) expressed in human embryonic stem cells (hESC). Sequencing of small RNA cDNA libraries derived from undifferentiated hESC and from isogenic differentiating cultures yielded a total of 425,505 high-quality sequence reads. A custom data analysis pipeline delineated expression profiles for 191 previously annotated miRNAs, 13 novel miRNAs, and 56 candidate miRNAs. Further characterization of a subset of the novel miRNAs in Dicer-knockdown hESC demonstrated Dicer-dependent expression, providing additional validation of our results. A set of 14 miRNAs (9 known and 5 novel) was noted to be expressed in undifferentiated hESC and then strongly downregulated with differentiation. Functional annotation analysis of predicted targets of these miRNAs and comparison with a null model using non-hESC-expressed miRNAs identified statistically enriched functional categories, including chromatin remodeling and lineage-specific differentiation annotations. Finally, integration of our data with genome-wide chromatin immunoprecipitation data on OCT4, SOX2, and NANOG binding sites implicates these transcription factors in the regulation of nine of the novel/candidate miRNAs identified here. Comparison of our results with those of recent deep sequencing studies in mouse and human ESC shows that most of the novel/candidate miRNAs found here were not identified in the other studies. The data indicate that hESC express a larger complement of miRNAs than previously appreciated, and they provide a resource for additional studies of miRNA regulation of hESC physiology. Disclosure of potential conflicts of interest is found at the end of this article.
  Stem Cells 07/2008; 26(10):2496-505. · 7.78 Impact Factor
• Article: Differing patterns of selection in alternative and constitutive splice sites.

  Kavita Garg, Phil Green
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  ABSTRACT: In addition to allowing identification of putative functional elements as regions having reduced substitution rates, comparison of genome sequences can also provide insights into these elements at the nucleotide level, by indicating the pattern of tolerated substitutions. We created data sets of orthologous alternative and constitutive splice sites in mouse, rat, and human and analyzed the substitutions occurring within them. Our results illuminate differences between alternative and constitutive sites and, in particular, strongly support the idea that alternative sites are under selection to be weak.
  Genome Research 08/2007; 17(7):1015-22. · 13.61 Impact Factor