Biomoléculas en nanotecnología
Contenido principal del artículo
Resumen
Las propiedades de reconocimiento molecular y autoensamble intrínseco de las biomoléculas han fascinado a la nanotecnología. Su incursión está revolucionando la forma de fabricar nanomateriales. En este trabajo revisa- mos un número de publicaciones que emplean biomoléculas en la fabricación de Nanomateriales.
Palabras Clave
nanotecnología, biomoléculas, nanomateriales
Citas
Aldaye, Faisal A., Alison L. Palmer, Hanadi F. S. 2008.
Assembling Materials with DNA as the Guide. Science. 321, 1795-1799.
Buehler M. J. y Yung Y. C. 2009. Deformation and failure of protein materials in physiologically extreme conditions and disease. Nature Materials. 8, 175-188.
Evans, D.J. 2008. The bionanoscience of plant viruses:Templates and synthons for new materials. Journal of Materials Chemistry. 18 (32), 3746-3754.
Fung, S. Y., Hong, Y., Dhadwar, S. S., Zhao, X., Chen, P. 2004. Handbook of Nanostructured Biomaterials and Their Applications en Nanobiotechnology. Nalwa, H. S., Ed.; American Scienti c Publishers: Stevenson Ranch, CA USA.
Goodman,R.P.,Schaap,I.A.T.,Tardin,C.F.2005. Rapid Chiral Assembly of Rigid DNA Building Blocks for Molecular Nanofabrication. Science. 310, 1661-1664.
Lina, C., Rinkera, S., Xing Wangb,Yan Liua, Nadrian C. Seeman, y Hao Y. 2008. In vivo cloning of arti cial DNA nanostructures. PNAS. 105 (46),17626–17631.
Lindquist, S. 2003. Presentation at the Third Multidisciplinary Workshop: Self-assembly of Peptides, Proteins in Biology Engineering and Medicine, Crete, Greece,August, 1–5.
Masaki Uchida, Michael T. Klem, Mark Allen, Peter Suci, Michelle Flenniken,Eric Gillitzer,ZacharyVarpness, Lars O. Liepold, Mark Young, y Trevor D. 2007. Biological Containers: Protein Cages as Multifunctional Nanoplatforms. Adv. Mater. 19, 1025–1042.
McMillan, R. A., Paavola, C. D., Howard, J., Chan, S. L., Zaluzec, N.J., Trent, J. D. 2002. Ordered nanoparticle arrays formed on engineered chaperonin protein templates. Nature Materials. 1 (4), 247-252.
McMillan, R.A., Howard, J., Zaluzec, N.J., Kagawa, H.K., Mogul, R., Li, Y.-F., Paavola, C.D., Trent, J. D. A. 2005. self-assembling protein template for constrained synthesis and patterning of nanoparticle arrays. J. Am. Chem. Soc. 127 (9), 2800-2801.
Nam, K.T., Kim, D.-W.,Yoo, P.J., Chiang, C.-Y., Meethong, N., Hammond, P.T., Chiang,Y.-M., Belcher,A.M. 2006. Virus-enabled synthesis and assembly of nanowires for lithium ion battery electrodes. Science. 312 (5775), 885-888.
Nam, K.T., Lee,Y.J., Krauland, E.M., Kottmann, S.T., Belcher, A.M. 2008. Peptide-mediated reduction of silver ions on engineered biological scaffolds. ACS Nano. 2 (7), 1480-1486.
Rodríguez-Galván A., Heredia, A., Plascencia-Villa, G., Ramírez, O. T., Palomares, L.A. y Basiuk, V. A. 2008. Scanning Tunneling Microscopy of VP6 Viral Protein Self-Assembly into Nanotubes and Nanospheres. J. Scann. Probe. Microsc. 3, 25–31.
Samson, J., Alessandro Varotto, Patrick C. Nahirney, Alfredo Toschi, Irene Piscopo, y Charles Michael Drain. 2009. Fabrication of Metal Nanoparticles Using Toroidal Plasmid DNA as a Sacri cial Mold. ACS Nano. 3 (2), 339-344.
Seeman N. C. 2003. DNA in a material world. Nature. 421,427-431.
Tseng,R.J.,Tsai,C.,Ma,L.,Ouyang,J.,Ozkan,C.,S.,yYang Y. 2006. Digital memory device based on tobaco mosaic virus conjugated with nanoparticles. Nature nanotechnology. 1, 72-77.
Yoo, P.J., Nam, K.T., Qi, J., Lee, S.-K., Park, J., Belcher,A.M., Hammond, P.T. 2006. Spontaneous assembly of viruses on multilayered polymer surfaces. Nature Materials. 5 (3), 234-240.
Zhang S. 2005. Designing novel materials and molecular machines, eJOURNAL USA, Economic Perspectives. 22-26.
Zhang S. 2003. Fabrication of novel biomaterials through molecular self-assembly. Nature Biotechnology. 21,1171-1178.
Zhao X. y Zhang S. 2006. Molecular designer selfassembling peptides. Chem. Soc. Rev. 35, 1105–1110.
Assembling Materials with DNA as the Guide. Science. 321, 1795-1799.
Buehler M. J. y Yung Y. C. 2009. Deformation and failure of protein materials in physiologically extreme conditions and disease. Nature Materials. 8, 175-188.
Evans, D.J. 2008. The bionanoscience of plant viruses:Templates and synthons for new materials. Journal of Materials Chemistry. 18 (32), 3746-3754.
Fung, S. Y., Hong, Y., Dhadwar, S. S., Zhao, X., Chen, P. 2004. Handbook of Nanostructured Biomaterials and Their Applications en Nanobiotechnology. Nalwa, H. S., Ed.; American Scienti c Publishers: Stevenson Ranch, CA USA.
Goodman,R.P.,Schaap,I.A.T.,Tardin,C.F.2005. Rapid Chiral Assembly of Rigid DNA Building Blocks for Molecular Nanofabrication. Science. 310, 1661-1664.
Lina, C., Rinkera, S., Xing Wangb,Yan Liua, Nadrian C. Seeman, y Hao Y. 2008. In vivo cloning of arti cial DNA nanostructures. PNAS. 105 (46),17626–17631.
Lindquist, S. 2003. Presentation at the Third Multidisciplinary Workshop: Self-assembly of Peptides, Proteins in Biology Engineering and Medicine, Crete, Greece,August, 1–5.
Masaki Uchida, Michael T. Klem, Mark Allen, Peter Suci, Michelle Flenniken,Eric Gillitzer,ZacharyVarpness, Lars O. Liepold, Mark Young, y Trevor D. 2007. Biological Containers: Protein Cages as Multifunctional Nanoplatforms. Adv. Mater. 19, 1025–1042.
McMillan, R. A., Paavola, C. D., Howard, J., Chan, S. L., Zaluzec, N.J., Trent, J. D. 2002. Ordered nanoparticle arrays formed on engineered chaperonin protein templates. Nature Materials. 1 (4), 247-252.
McMillan, R.A., Howard, J., Zaluzec, N.J., Kagawa, H.K., Mogul, R., Li, Y.-F., Paavola, C.D., Trent, J. D. A. 2005. self-assembling protein template for constrained synthesis and patterning of nanoparticle arrays. J. Am. Chem. Soc. 127 (9), 2800-2801.
Nam, K.T., Kim, D.-W.,Yoo, P.J., Chiang, C.-Y., Meethong, N., Hammond, P.T., Chiang,Y.-M., Belcher,A.M. 2006. Virus-enabled synthesis and assembly of nanowires for lithium ion battery electrodes. Science. 312 (5775), 885-888.
Nam, K.T., Lee,Y.J., Krauland, E.M., Kottmann, S.T., Belcher, A.M. 2008. Peptide-mediated reduction of silver ions on engineered biological scaffolds. ACS Nano. 2 (7), 1480-1486.
Rodríguez-Galván A., Heredia, A., Plascencia-Villa, G., Ramírez, O. T., Palomares, L.A. y Basiuk, V. A. 2008. Scanning Tunneling Microscopy of VP6 Viral Protein Self-Assembly into Nanotubes and Nanospheres. J. Scann. Probe. Microsc. 3, 25–31.
Samson, J., Alessandro Varotto, Patrick C. Nahirney, Alfredo Toschi, Irene Piscopo, y Charles Michael Drain. 2009. Fabrication of Metal Nanoparticles Using Toroidal Plasmid DNA as a Sacri cial Mold. ACS Nano. 3 (2), 339-344.
Seeman N. C. 2003. DNA in a material world. Nature. 421,427-431.
Tseng,R.J.,Tsai,C.,Ma,L.,Ouyang,J.,Ozkan,C.,S.,yYang Y. 2006. Digital memory device based on tobaco mosaic virus conjugated with nanoparticles. Nature nanotechnology. 1, 72-77.
Yoo, P.J., Nam, K.T., Qi, J., Lee, S.-K., Park, J., Belcher,A.M., Hammond, P.T. 2006. Spontaneous assembly of viruses on multilayered polymer surfaces. Nature Materials. 5 (3), 234-240.
Zhang S. 2005. Designing novel materials and molecular machines, eJOURNAL USA, Economic Perspectives. 22-26.
Zhang S. 2003. Fabrication of novel biomaterials through molecular self-assembly. Nature Biotechnology. 21,1171-1178.
Zhao X. y Zhang S. 2006. Molecular designer selfassembling peptides. Chem. Soc. Rev. 35, 1105–1110.