Talks

Talks

  • Single-cell Epigenomics Enables Lineage Reconstruction and Reveals Distinct Modes of Demethylation in Early Mouse Embryos.
        Department of Bioengineering, Northeastern University. Boston, MA, USA (May 2017).
  • Single-cell Epigenomics Enables Lineage Reconstruction and Reveals Distinct Modes of Demethylation in Early Mouse Embryos.
        Center for Bioengineering, University of California, Santa Barbara, CA, USA (April 2017).
  • Developing Novel Single-Cell Sequencing Technologies to Study Cellular Heterogeneity.
        Department of Biosciences and Bioengineering, Indian Institute of Technology Bombay. Mumbai, India (Jan 2017).
  • Developing Novel Single-Cell Sequencing Technologies to Study Cellular Heterogeneity.
        Division of Developmental Biology, Cincinnati Children’s Hospital Medical Center. Cincinnati, OH, USA (Mar 2016).
  • Developing Novel Single-Cell Sequencing Technologies to Study Cellular Heterogeneity.
        Department of Chemical, Biochemical & Environmental Engineering, University of Maryland, Baltimore County. Baltimore, MD, USA (Feb 2016).
  • Developing Novel Single-Cell Sequencing Technologies to Study Cellular Heterogeneity.
       Department of Chemical & Biomolecular Engineering, University of Houston. Houston, TX, USA (Feb 2016).
  • Developing Novel Single-Cell Sequencing Technologies to Study Cellular Heterogeneity.
      Department of Chemical & Biomolecular Engineering, Johns Hopkins University. Baltimore, MD, USA (Feb 2016).
  • Developing Novel Single-Cell Sequencing Technologies to Study Cellular Heterogeneity.
      School of Chemical & Biomolecular Engineering, Georgia Institute of Technology. Atlanta, GA, USA (Feb 2016).
  • Developing Novel Single-Cell Sequencing Technologies to Study Cellular Heterogeneity.
      Department of Biomolecular Engineering, University of California, Santa Cruz, CA, USA (Feb 2016).
  • Developing Novel Single-Cell Sequencing Technologies to Study Cellular Heterogeneity.
      Department of Chemical Engineering, University of California, Santa Barbara, CA, USA (Jan 2016).
  • Developing Novel Single-Cell Sequencing Technologies to Study Cellular Heterogeneity.
      Department of Biological Sciences, University at Albany, SUNY. Albany, NY, USA (Jan 2016).
  • Developing Novel Single-Cell Sequencing Technologies to Study Cellular Heterogeneity.
      Department of Chemical & Biomolecular Engineering, University of Nebraska-Lincoln, NE, USA (Jan 2016).
  • Developing Novel Single-Cell Sequencing Technologies to Study Cellular Heterogeneity.
      Center for Cancer Research, National Cancer Institute (NCI). Bethesda, MD, USA (Dec 2015).
  • Single-cell 5-hydroxymethylcytosine sequencing reveals extensive chromosome-wide epigenetic heterogeneity among individual cells.
      Single Cell Analyses, Cold Spring Harbor Laboratory. New York, NY, USA (Nov 2015).
  • Integrated genome and transcriptome sequencing from the same cell.
         13th International Symposium on Mutation in the Genome. Leiden, The Netherlands (Apr 2015).
  • Integrated genome and transcriptome sequencing from the same cell.
         Single Cell Genomics. Stockholm, Sweden (Sept 2014).
  • Chromatin accessibility at the HIV-1 LTR promoter sets a threshold for NF-κB mediated viral gene expression.
         Henry Wheeler Center for Emerging and Neglected Diseases – 2012 Bay Area Symposium on Viruses.
    Berkeley, CA, USA (Jun 2012).
         youtube link
  • Chromatin environment at the HIV-1 promoter sets a threshold for reactivation from latency.
         Biomedical Engineering Society (BMES) Annual Meeting. Hartford, CT, USA (Oct 2011).
  • Mutual information analysis reveals functionally important coevolving residues in HIV-1 Tat with implications for viral latency.
         Computational Biology Student Seminar. University of California, Berkeley, CA, USA (Mar 2010).
  • Using mutual information to identify TAR-Tat coevolution in HIV-1 and its implications for viral latency.
         American Institute of Chemical Engineers (AICHE) Annual Meeting. Nashville, TN, USA (Nov 2009).
  • Insights into the the application of near supercritical CO2 expanded solvents.
         Indian Institute of Chemical Engineers (IICHE), Prodigy Technical Event. Mumbai, India (Jan 2005).

 

Poster Presentations

  • Integrated 5hmC and mRNA sequencing of the same cell enables lineage reconstruction during early mouse embryogenesis.
        Single Cell Genomics. Cambridge, UK (Sept 2016).
  • Single-cell 5-hydroxymethylcytosine sequencing reveals extensive chromosome-wide epigenetic heterogeneity among individual cells.
        Single Cell Genomics. Utrecht, The Netherlands (Sept 2015).
  • Chromatin accessibility at the HIV-1 promoter in different genomic environments sets a threshold forNF-κB mediated gene expression.
         Keystone Symposia – Chromatin Dynamics. Keystone, CO, USA (Jan 2012).
  • Mutual information analysis reveals coevolving residues that compensate for two unique functions of HIV-1 Tat.
         Keystone Symposia – HIV Evolution, Genomics and Pathogenesis. Whistler, Canada (Mar 2011).
  • Mutual information analysis reveals functionally important coevolving residues in HIV-1 Tat with implications for viral latency
         Keystone Symposia – HIV Biology and Pathogenesis. Santa Fe, NM, USA (Jan 2010).