add contact to address book

Al-Hashimi Hashim

Visiting Professor

  • About

    Our laboratory applies solution state NMR spectroscopy to investigate the molecular basis of RNA function in processes ranging from gene expression (e.g. transcriptional activation and translation) to virion functioning (e.g. genome packaging and reverse transcription). We make extensive use of new NMR techniques involving measurements of residual dipolar couplings in determining global aspects of RNA structure, dynamics and interaction.

    Although much of our understanding about RNA function comes from analyses of ground-state conformations, structurally distinct excited states accessible through molecular dynamics are frequently the ones carrying out catalysis and undergoing recognition. A central goal of our laboratory is to develop and apply NMR techniques for determining high-resolution RNA structures as a function of time and other reaction coordinates. Research involves biochemical preparation/purification of isotopically labeled RNA samples, design of NMR experiments, and development of theoretical frameworks for analyzing data. Specific areas of interests include the Mg2+ induced folding trajectory of the 56-nucleotide P5abc subdomain of the Tetrahymena group I ribozyme important for catalysis, and symmetrical dimerization of homologous genomic RNA strands important for HIV-1 viral replication. In another area, and as part of a multi-institutional RNA structural genomics program, we are developing approaches for high throughput RNA structure determination. These advances will enable large-scale systematic studies of RNA structure-function relationship in areas ranging from evolution to structure assisted design of therapeutics. We are principal users of 600 MHz and 800 MHz spectrometers, soon to be equipped with cryogenic probes, and have access to the Michigan Life Sciences Corridor 900 MHz NMR facility. The lab is well equipped to carry out biochemical, biophysical and computational investigations.

    Representative Publications

    Bailor, M., Sun, X., and Al-Hashimi, H. M., Topology Links RNA Secondary Structure with Global Conformation, Dynamics, and Adaptation Science 327(5962):202-6 2010

    Hansen, A. L., Nikolova, E. N., Casiano-Negroni, A., Al-Hashimi, H. M. Characterizing ┬Ás-ms Exchange in Labeled and Unlabeled Nucleic Acids by Carbon R1? NMR. J. Am. Chem. Soc. 25;131(11):3818-9 2009

    Nikolova, E. N., Casiano-Negroni, A. and Al-Hashimi, H. M. Preparation, Resonance Assignment, and Preliminary Dynamics Characterization of Residue Specific 13C/15N-labeled Elongated DNA for the Study of Sequence-directed Dynamics by NMR. J. Biomol. NMR 45(1- 2):9-16 2009

    Zhang, Q., and Al-Hashimi, H. M., Extending the NMR Spatial Resolution Limit in RNA by Motional Couplings. Nat. Methods 5(3):243-5 2008

    Zhang, Q., Stelzer, A., Fisher. C. K., and Al-Hashimi, H. M., Visualizing Spatially Correlated Dynamics that Directs RNA Conformational Transitions. Nature, 450:1263-7 2007

    Zhang, Q., Sun, X., Watt, E. W., and Al-Hashimi, H. M., Resolving the Motional Modes that Code for RNA Adaptation, Science, 311: 653-6 2006

  • Education
    • Ph.D., Yale University
  • Awards
    • Agilent Thought Leader Award, 2013
    • Vilcek Prize for Creative Promise in Biomedical Science, 2013
    • LSA Excellence in Education Award, 2009
    • National Science Foundation Career Award, 2007
    • Ralph E. Power Junior Faculty Enhancement Award, 2004
  • Research Areas of Interest
    • Biophysical Chemistry
      Chemical Biology
      Physical Chemistry
      RNA BioChemistry
      Structure and dynamics of nucleic acids and ribonucleoproteins using NMR spectroscopy