- Ruxandra Dima (07-2012). "Computational modeling of the force response in large protein complexes" Technical University Munich, Munich, Germany.
- R. I. Dima (03/17/2011). Exploration of the role of protein-protein binding interactions in synaptic fusion Colloquium, Ball State University.
- J. Y. Lee, T. M. Iverson and R. I. Dima (06/16/2010). Molecular simulations of actin flexibility The the 42nd Central Regional Meeting of the ACS, Dayton, OH.
- R.I. Dima (10/09/2008). Exploring the micromechanics of microtubules by molecular simulations PChem seminar, Indiana University, Bloomington, IN.
- R. I. Dima and H. Joshi (06-2008). Exploring the mechanics of microtubules bymolecular simulations 2008 CERMACS meeting, Columbus, OH.
- R. I. Dima and H. Joshi (04-2008). Forced unfolding of proteins: the role ofchain dynamics 2008 March Meeting of the American Chemical Society, New Orleans.
- R. I. Dima, C. Hyeon and D. Thirumalai (06-2007). Probing pathways and kinetic barriers in the mechanical unfolding and refolding of proteins SUNY at Albany.
- (2006). Probing the low-resolution dynamics of biopolymers under force American Physical Society, Baltimore, MD.
- (03/31/2005). University of Texas at Austin Sources of instability in prion proteins: Glancing at early.
- (03-2005). Glancing at the early-steps of conformational transition in prion proteins through MD simulations March Meeting of the American Chemical Society, San Diego.
- (02/09/2005). Potentials of mean force for structure prediction in RNA; Glancing at early steps in the conformational transition in prions University of Massachusetts Lowell.
- (01/20/2005). Sources of instability in prion proteins: Glancing at early steps in the conformational transition North Carolina State University.
- (12/09/2004). Boston University Sources of instability in prion proteins: Glancing at early steps in the conformational transition.
- (10/18/2004). Conformational conversion in prions: A Molecular dynamics perspective IPST, University of Maryland.
- (02/19/2004). Surprising instabilities in prion proteins: Evidence from computational methods applied to sequences and NMR structures University of North Carolina, Chapel Hill.
- (02/13/2004). Surprising instabilities in prion proteins: Evidence from computational methods applied to sequences and NMR structures University of Pittsburgh, Center for Computational Biology and Bioinformatics.
- (03/10/2003). Surprising instabilities in proteins related to Mad Cow disease: Evidence from NMR structures and sequence alignments Albert Einstein College of Medicine.
- (09-2002). Surprising instabilities in prions: Evidence from NMR structures and sequence alignments Computational Biophysics: Integrating Theoretical Physics and Biology, San Feliu de Gixols, Spain.
- (04/25/2002). Surprising conformational instabilities in prions Computational Biophysics Section, Laboratory of Biophysical Chemistry, NHLBI, NIH.
- (04/23/2002). Surprising instabilities in proteins related to Mad Cow disease Statistical Physics Seminar, IPST.
- R. I. Dima, D. Thirumalai (04-2002). Exploring Protein Aggregation using simple models: Phase diagram and KineticsAmerican Chemical Society, Orlando, FL.
- Ruxandra Dima (04/17/2013). Multiscale modeling of dynamics in mechanical proteins Ohio State University, Columbus, OH.