Computational design, fabrication and evaluation of rubber protein models
暂无分享,去创建一个
Daniela Giorgi | Paolo Cignoni | Luigi Malomo | Monica Zoppè | Thomas Alderighi | Paolo Cignoni | D. Giorgi | M. Zoppè | T. Alderighi | L. Malomo
[1] J. Kendrew,et al. A Three-Dimensional Model of the Myoglobin Molecule Obtained by X-Ray Analysis , 1958, Nature.
[2] Andrew J. Capel,et al. 3D printing for chemical, pharmaceutical and biological applications , 2018, Nature Reviews Chemistry.
[3] Structural basis for high-affinity actin binding revealed by a β-III-spectrin SCA5 missense mutation , 2017, Nature Communications.
[4] Michael M. Kazhdan,et al. Screened poisson surface reconstruction , 2013, TOGS.
[5] Ivan Viola,et al. Multiscale Molecular Visualization. , 2019, Journal of molecular biology.
[6] M. Paoli,et al. Crystal structure of T state haemoglobin with oxygen bound at all four haems. , 1996, Journal of molecular biology.
[7] T. Richmond,et al. Solvent mediated interactions in the structure of the nucleosome core particle at 1.9 a resolution. , 2002, Journal of molecular biology.
[8] Tim Minshall,et al. Invited review article: Where and how 3D printing is used in teaching and education , 2019, Additive Manufacturing.
[9] V. Ananikov,et al. Widely accessible 3D printing technologies in chemistry, biochemistry and pharmaceutics: applications, materials and prospects , 2020, Russian Chemical Reviews.
[10] T. N. Bhat,et al. The Protein Data Bank , 2000, Nucleic Acids Res..
[11] Ken Museth,et al. VDB: High-resolution sparse volumes with dynamic topology , 2013, TOGS.
[12] F CoakleyMeghan,et al. The NIH 3D Print Exchange: A Public Resource for Bioscientific and Biomedical 3D Prints. , 2014 .
[13] P. Emsley,et al. Features and development of Coot , 2010, Acta crystallographica. Section D, Biological crystallography.
[14] M. Zoppè. Towards a perceptive understanding of size in cellular biology , 2017, Nature Methods.
[15] Bernd Bickel,et al. Volume-aware design of composite molds , 2019, ACM Trans. Graph..
[16] Randy J. Read,et al. Overview of the CCP4 suite and current developments , 2011, Acta crystallographica. Section D, Biological crystallography.
[17] Tamal K. Dey,et al. An efficient computation of handle and tunnel loops via Reeb graphs , 2013, ACM Trans. Graph..
[18] Marc Baaden,et al. Molecular simulations and visualization: introduction and overview. , 2014, Faraday discussions.
[19] Hans-Peter Seidel,et al. An efficient construction of reduced deformable objects , 2013, ACM Trans. Graph..
[20] Keir H. Fogarty,et al. Do-It-Yourself: 3D Models of Hydrogenic Orbitals through 3D Printing , 2016 .
[21] Brian K. Niece,et al. Custom-Printed 3D Models for Teaching Molecular Symmetry , 2019, Journal of Chemical Education.
[22] Linus Pauling,et al. Molecular Models of Amino Acids, Peptides, and Proteins , 1953 .
[23] Eitan Grinspun,et al. Mesh arrangements for solid geometry , 2016, ACM Trans. Graph..
[24] Margaret A Franzen,et al. Tactile teaching: Exploring protein structure/function using physical models * , 2006, Biochemistry and molecular biology education : a bimonthly publication of the International Union of Biochemistry and Molecular Biology.
[25] M. L. Connolly. Analytical molecular surface calculation , 1983 .
[26] Masaru Kawakami. A soft and transparent handleable protein model. , 2012, The Review of scientific instruments.
[27] M. Hegarty,et al. Representational Translation With Concrete Models in Organic Chemistry , 2012 .
[28] B. Szulc,et al. Three-Dimensional Printing of a Scalable Molecular Model and Orbital Kit for Organic Chemistry Teaching and Learning , 2017 .
[29] Abdullah Karaksha,et al. A pilot study assessing the value of 3D printed molecular modelling tools for pharmacy student education. , 2017, Currents in pharmacy teaching & learning.
[30] Somlak Wannarumon. Reviews of Computer-Aided Technologies for Jewelry Design and Casting , 2011 .
[31] M. L. Connolly. Solvent-accessible surfaces of proteins and nucleic acids. , 1983, Science.
[32] S. Meyer. 3D Printing of Protein Models in an Undergraduate Laboratory: Leucine Zippers , 2015 .
[33] Ronald A. Kohser,et al. DeGarmo's Materials and Processes in Manufacturing , 2020 .
[34] Metamolds , 2018, ACM Transactions on Graphics.
[35] Arthur J Olson. Self-assembly gets physical. , 2015, Nature nanotechnology.