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  1. 1.   Use of human peripheral blood mononuclear cells to define immunological properties of nucleic acid nanoparticles
  2. Dobrovolskaia,Marina; Afonin, Kirill A
  3. Nature protocols. 2020, Oct 23; 15(11): 3678-3698.
  1. 2.   Fluorous Phase-Directed Peptide Assembly Affords Nano-Peptisomes Capable of Ultrasound-Triggered Cellular Delivery
  2. Medina, Scott H; Michie, Megan S; Miller, Stephen; Schnermann, Martin; Schneider, Joel
  3. Angewandte Chemie (International ed. in English). 2017, Sep 11; 56(38): 11404-11408.
  1. 3.   A Protocol for the Design of Protein and Peptide Nanostructure Self-Assemblies Exploiting Synthetic Amino Acids.
  2. Haspel, Nurit; Zheng, Jie; Aleman, Carlos; Zanuy, David; Nussinov, Ruth
  3. Methods in molecular biology (Clifton, N.J.). 2017 1529: 323-352.
  1. 4.   Design and self-assembly of siRNA-functionalized RNA nanoparticles for use in automated nanomedicine
  2. Afonin, K. A.; Grabow, W. W.; Walker, F. M.; Bindewald, E.; Dobrovolskaia, M. A.; Shapiro, B. A.; Jaeger, L.
  3. Nature Protocols. 2011, Dec; 6(12): 2022-2034.
  1. 5.   Materials from peptide assembly: towards the treatment of cancer and transmittable disease
  2. Branco, M. C.; Sigano, D. M.; Schneider, J. P.
  3. Current Opinion in Chemical Biology. 2011, Jun; 15(3): 427-434.
  1. 6.   Symmetry-Based Self-assembled Nanotubes Constructed Using Native Protein Structures: The Key Role of Flexible Linkers
  2. Buch, I.; Tsai, C. J.; Wolfson, H. J.; Nussinov, R.
  3. Protein and Peptide Letters. 2011, Apr; 18(4): 362-372.
  1. 7.   Self-Assembling RNA Nanorings Based on RNAI/II Inverse Kissing Complexes
  2. Grabow, W. W.; Zakrevsky, P.; Afonin, K. A.; Chworos, A.; Shapiro, B. A.; Jaeger, L.
  3. Nano Letters. 2011, Feb; 11(2): 878-887.
  1. 8.   In vitro assembly of cubic RNA-based scaffolds designed in silico
  2. Afonin, K. A.; Bindewald, E.; Yaghoubian, A. J.; Voss, N.; Jacovetty, E.; Shapiro, B. A.; Jaeger, L.
  3. Nature Nanotechnology. 2010, Sep; 5(9): 676-682.
  1. 9.   Lipid-Modulated Pharmacophore Nanorods Assembled at the Air/Water Interface
  2. Philosof-Mazor, L.; Volinsky, R.; Jopp, J.; Blumberg, P.; Rapaport, H.; Marquez, V. E.; Jelinek, R.
  3. Chemphyschem. 2009 10(15): 2615-2619.
  1. 10.   Stability of tubular structures based on beta-helical proteins: Self-assembled versus polymerized nanoconstructs and wild-type versus mutated sequences
  2. Zanuy, D.; Rodriguez-Ropero, F.; Haspel, N.; Zheng, J.; Nussinov, R.; Aleman, C.
  3. Biomacromolecules. 2007, Oct; 8(10): 3135-3146.
  1. 11.   Computational design of an RNA hexagonal nanoring and an RNA nanotube
  2. Yingling, Y. G.; Shapiro, B. A.
  3. Nano Letters. 2007, Aug; 7(8): 2328-2334.
  1. 12.   Designing a nanotube using naturally occurring protein building blocks
  2. Tsai, C. J.; Zheng, J.; Nussinov, R.
  3. Plos Computational Biology. 2006, Apr; 2(4): 311-319.
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