Functionalized gold nanoparticles for ultrasensitive DNA detection (125 visite)
Anal Bioanal Chem (ISSN: 1618-2642), 2012 Feb; 402(5): 1759-1771.
Tipo di articolo: Journal Article,
Impact factor: 3.659, Impact factor a 5 anni: 3.756
Url: http://www.scopus.com/inward/record.url?eid=2-s2.0-84858709248&partnerID=40&md5=d93930cdc7d9d9347ed207b9ac2b8f7a
Parole chiave: Dna Detection, Electrochemical Detection, Gold Nanoparticles, Optical Detection, Pcr-Free, Qcm, Scanometric Detection, Metal Nanoparticles, Polymerase Chain Reaction, Biotin, Silver, Chemistry, Colorimetry, Electrochemistry, Genetic Procedures, Methodology, Quartz Crystal Microbalance, Review, Sensitivity And Specificity, Surface Plasmon Resonance, Biosensing Techniques, Quartz Crystal Microbalance Techniques,
Affiliazioni:
*** IBB - CNR ***
Scuola Superiore di Catania, C/o Dipartimento di Scienze Chimiche, Università di Catania, Viale Andrea Doria 6, 95125 Catania, Italy
Istituto Biostrutture e Bioimmagini, CNR, Viale A. Doria 6, 95125 Catania, Italy
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Ghosh, S.K., Pal, T., (2007) Chem Rev, 107, pp. 4797-4862
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Zhao, W., Brook, M.A., Li, Y.F., (2008) ChemBioChem, 9, pp. 2363-2371
Sassolas, A., Leca-Bouvier, B.D., Blum, L.J., (2008) Chem Rev, 108, pp. 109-139
Cosnier, S., Mailley, P., (2008) Analyst, 133, pp. 984-991
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Teles, F.R.R., Fonseca, L.R., (2008) Talanta, 77, pp. 606-623
Wang, Z., Ma, L., (2009) Coord Chem Rev, 253, pp. 1607-1618
Daniel, M.C., Astruc, D., (2004) Chem Rev, 104, pp. 293-346
Grzelczak, M., Pérez-Juste, J., Mulvaney, P., Liz-Marzán, L.M., (2008) Chem Soc Rev, 37, pp. 1783-1791
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D'agata, R., Corradini, R., Grasso, G., Marchelli, R., Spoto, G., (2008) ChemBioChem, 9, pp. 2067-2070
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Ganesh, K.N., Nielsen, P.E., (2000) Curr Org Chem, 4, pp. 941-943
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Kanjanawarut, R., Su, X., (2009) Anal Chem, 81, pp. 6122-6129
Su, X., Kanjanawarut, R., (2009) ACS Nano, 3, pp. 2751-2759
Tyagi, S., Kramer, F.R., (1996) Nat Biotechnol, 14, pp. 303-308
Dubertret, B., Calame, M., Libchaber, A.J., (2001) Nat Biotechnol, 19, pp. 365-370
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Ghosh, S. K., Pal, T., (2007) Chem Rev, 107, pp. 4797-4862
Rosi, N. L., Mirkin, C. A., (2005) Chem Rev, 105, pp. 1547-1562
Niemeyer, C. M., (2001) Angew Chem Int Ed, 40, pp. 4128-4185
Zhang, D. Y., Seelig, G., (2011) Nat Chem, 3, pp. 103-113
Metzker, M. L., (2010) Nature Rev Genet, 11, pp. 31-46
Merko i, A., (2010) Biosens Bioelectron, 26, pp. 1164-1177
P rez-L pez, B., Merko i, A., (2011) Anal Bioanal Chem, 399, pp. 1577-1590
Zhao, W., Brook, M. A., Li, Y. F., (2008) ChemBioChem, 9, pp. 2363-2371
Song, S. P., Qin, Y., He, Y., Huang, Q., Fan, C. H., Chen, H. Y., (2010) Chem Soc Rev, 39, pp. 4234-4243
Teles, F. R. R., Fonseca, L. R., (2008) Talanta, 77, pp. 606-623
Daniel, M. C., Astruc, D., (2004) Chem Rev, 104, pp. 293-346
Grzelczak, M., P rez-Juste, J., Mulvaney, P., Liz-Marz n, L. M., (2008) Chem Soc Rev, 37, pp. 1783-1791
Mirkin, C. A., Letsinger, R. L., Mucic, R. C., Storhoff, J. J., (1996) Nature, 382, pp. 607-609
Reynolds, R. A., Mirkin, C. A., Letsinger, R. L., (2000) J Am Chem Soc, 122, pp. 3795-3796
Storhoff, J. J., Elghanian, R., Mucic, R. C., Mirkin, C. A., Letsinger, R. L., (1998) J Am Chem Soc, 120, pp. 1959-1964
Hurst, S. J., Lytton-Jean, A. K. R., Mirkin, C. A., (2006) Anal Chem, 78, pp. 8313-8318
Demers, L. M., Mirkin, C. A., Mucic, R. C., Reynolds, R. A., Letsinger, R. L., Enghanian, R., Viswanadham, G., (2000) Anal Chem, 72, pp. 5535-5541
Sperling, R. A., Gil, P. R., Zhang, F., Zanella, M., Parak, W. J., (2008) Chem Soc Rev, 37, pp. 1896-1908
Alivisatos, A. P., Johnsson, K. P., Peng, X., Wilson, T. E., Loweth, C. J., Bruchez, M. P., Schultz, P. G., (1996) Nature, 382, pp. 609-611
Nielsen, P. E., (1999) Acc Chem Res, 32, pp. 624-630
Ganesh, K. N., Nielsen, P. E., (2000) Curr Org Chem, 4, pp. 941-943
Maxwell, D. J., Taylor, J. R., Nie, S., (2002) J Am Chem Soc, 124, pp. 9606-9612
Breaker, R. R., (1997) Nat Biotechnol, 15, pp. 427-431
Thaxton, C. S., Mirkin, C. A., (2005) Nat Biotechnol, 23, pp. 681-682
Stierhof, Y. D., Humbel, B. M., Schwarz, H. J., (1991) J Electron Microsc Technol, 17, pp. 336-343
Taton, T. A., Lu, G., Mirkin, C. A., (2001) J Am Chem Soc, 123, pp. 5164-5165
Storhoff, J. J., Marla, S. S., Bao, P., Hagenow, S., Mehta, H., Lucas, A., Garimella, V., Muller, U. R., (2004) Biosens Bioelectron, 19, pp. 875-883
Huber, M., Wei, T. F., Muller, U. R., Lefebvre, P. A., Marla, S. S., Bao, Y. P., (2004) Nucleic Acids Res, 32, pp. e137
Bao, Y. P., Huber, M., Wei, T. F., Marla, S. S., Storhoff, J. J., Muller, U. R., (2005) Nucleic Acids Res, 33, pp. e15
Storhoff, J. J., Lucas, A. D., Garimella, V., Bao, Y. P., Muller, U. R., (2004) Nat Biotechnol, 22, pp. 883-887
Taton, T. A., Mirkin, C. A., Letsinger, R. L., (2000) Science, 289, pp. 1757-1760
Sliem, M. A., Ebeid, E. M., Harith, M., (2007) J Biomed Nanotech, 3, pp. 360-366
Kim, S. K., Cho, H., Jeong, J., Kwon, J. N., Jung, Y., Chung, B. H., (2010) Chem Commun, 46, pp. 3315-3317
Nam, J. M., Stoeva, S. I., Mirkin, C. A., (2004) J Am Chem Soc, 126, pp. 5932-5933
Ding, C. F., Zhong, H., Zhang, S. S., (2008) Biosen Bioelectron, 23, pp. 1314-1318
Richter, M. M., (2004) Chem Rev, 104, pp. 3003-3036
Shan, Y., Xu, J. J., Chen, H. Y., (2009) Chem Commun, pp. 905-907
Shiddiky, M. J. A., Aminur, R., Aminur, R. M. D., Shim, Y., (2007) Anal Chem, 79, pp. 6886-6890
Zh, M., Wei, X. L., (2006) Anal Bioanal Chem, 386, pp. 2219-2223
Fang, S., Lee, H. J., Wark, A. W., Corn, R. M., (2006) J Am Chem Soc, 128, pp. 14044-14046
Wark, A. W., Lee, H. J., Qavi, A. J., Corn, R. M., (2007) Anal Chem, 79, pp. 6697-6701
Anal Bioanal Chem (ISSN: 1618-2642), 2012 Feb; 402(5): 1759-1771.
Tipo di articolo: Journal Article,
Impact factor: 3.659, Impact factor a 5 anni: 3.756
Url: http://www.scopus.com/inward/record.url?eid=2-s2.0-84858709248&partnerID=40&md5=d93930cdc7d9d9347ed207b9ac2b8f7a
Parole chiave: Dna Detection, Electrochemical Detection, Gold Nanoparticles, Optical Detection, Pcr-Free, Qcm, Scanometric Detection, Metal Nanoparticles, Polymerase Chain Reaction, Biotin, Silver, Chemistry, Colorimetry, Electrochemistry, Genetic Procedures, Methodology, Quartz Crystal Microbalance, Review, Sensitivity And Specificity, Surface Plasmon Resonance, Biosensing Techniques, Quartz Crystal Microbalance Techniques,
Affiliazioni:
*** IBB - CNR ***
Scuola Superiore di Catania, C/o Dipartimento di Scienze Chimiche, Università di Catania, Viale Andrea Doria 6, 95125 Catania, Italy
Istituto Biostrutture e Bioimmagini, CNR, Viale A. Doria 6, 95125 Catania, Italy
Riferimenti:
Faraday, M., (1857) Philos Trans R Soc London, 147, pp. 145-18
Mie, G., (1908) Ann Phys, 25, pp. 377-445
Ghosh, S.K., Pal, T., (2007) Chem Rev, 107, pp. 4797-4862
Rosi, N.L., Mirkin, C.A., (2005) Chem Rev, 105, pp. 1547-1562
Mrinmoy, D., Ghosh, P.S., Rotello, V.M., (2008) Adv Mater, 20, pp. 4225-4241
Baptista, P., Pereira, E., Eaton, P., Doria, G., Miranda, A., Gomes, I., Quaresma, P., Franco, R., (2008) Anal Bioanal Chem, 391, pp. 943-950
Niemeyer, C.M., (2001) Angew Chem Int Ed, 40, pp. 4128-4185
Zhang, D.Y., Seelig, G., (2011) Nat Chem, 3, pp. 103-113
Krishnan, Y., Simmel, F.C., (2011) Angew Chem Int Ed, 50, pp. 3124-3156
Metzker, M.L., (2010) Nature Rev Genet, 11, pp. 31-46
Shi, L., Perkins, R.G., Fang, H., Tong, W., (2008) Curr Opin Biotechnol, 19, pp. 10-18
Merkoçi, A., (2010) Biosens Bioelectron, 26, pp. 1164-1177
Pérez-López, B., Merkoçi, A., (2011) Anal Bioanal Chem, 399, pp. 1577-1590
Zhao, W., Brook, M.A., Li, Y.F., (2008) ChemBioChem, 9, pp. 2363-2371
Sassolas, A., Leca-Bouvier, B.D., Blum, L.J., (2008) Chem Rev, 108, pp. 109-139
Cosnier, S., Mailley, P., (2008) Analyst, 133, pp. 984-991
Song, S.P., Qin, Y., He, Y., Huang, Q., Fan, C.H., Chen, H.Y., (2010) Chem Soc Rev, 39, pp. 4234-4243
Teles, F.R.R., Fonseca, L.R., (2008) Talanta, 77, pp. 606-623
Wang, Z., Ma, L., (2009) Coord Chem Rev, 253, pp. 1607-1618
Daniel, M.C., Astruc, D., (2004) Chem Rev, 104, pp. 293-346
Grzelczak, M., Pérez-Juste, J., Mulvaney, P., Liz-Marzán, L.M., (2008) Chem Soc Rev, 37, pp. 1783-1791
Turkevich, J., Stevenson, P.C., Hillier, J., (1951) Discuss Faraday Soc, 11, pp. 55-75
Frens, G., (1973) Nature, 241, pp. 20-22
Wilson, R., (2008) Chem Soc Rev, 37, pp. 2028-2045
Li, H., Rothberg, L., (2004) Proc Natl Acad Sci USA, 101, pp. 14036-14039
Yang-Wei, L., Chi-Wei, L., Huan-Tsung, C., (2009) Anal Methods, 1, pp. 14-24
Cioffi, N., Colaianni, L., Ieva, E., Pilolli, R., Ditaranto, N., Angione, M.D., Cotrone, S., Torsi, L., (2011) Electrochim Acta, 56, pp. 3713-3720
Mirkin, C.A., Letsinger, R.L., Mucic, R.C., Storhoff, J.J., (1996) Nature, 382, pp. 607-609
Reynolds, R.A., Mirkin, C.A., Letsinger, R.L., (2000) J Am Chem Soc, 122, pp. 3795-3796
Jin, R., Wu, G., Li, Z., Mirkin, C.A., Schatz, G.C., (2003) J Am Chem Soc, 125, pp. 1643-1654
Storhoff, J.J., Elghanian, R., Mucic, R.C., Mirkin, C.A., Letsinger, R.L., (1998) J Am Chem Soc, 120, pp. 1959-1964
Pellegrino, T., Kudera, S., Liedl, T., Javier, A.M., Manna, L., Parak, W.J., (2005) Small, 1, pp. 48-63
Srn, P., Raina, S., Goodrich, G.P., Fedoroff, N.V., Keating, C.D., (2002) J Am Chem Soc, 124, pp. 7314-7323
Hurst, S.J., Lytton-Jean, A.K.R., Mirkin, C.A., (2006) Anal Chem, 78, pp. 8313-8318
Demers, L.M., Mirkin, C.A., Mucic, R.C., Reynolds, R.A., Letsinger, R.L., Enghanian, R., Viswanadham, G., (2000) Anal Chem, 72, pp. 5535-5541
Sperling, R.A., Gil, P.R., Zhang, F., Zanella, M., Parak, W.J., (2008) Chem Soc Rev, 37, pp. 1896-1908
Alivisatos, A.P., Johnsson, K.P., Peng, X., Wilson, T.E., Loweth, C.J., Bruchez, M.P., Schultz, P.G., (1996) Nature, 382, pp. 609-611
D'agata, R., Corradini, R., Grasso, G., Marchelli, R., Spoto, G., (2008) ChemBioChem, 9, pp. 2067-2070
Nielsen, P.E., (1999) Acc Chem Res, 32, pp. 624-630
Zanoli, L., D'agata, R., Spoto, G., (2008) Minerva Biotecnol, 20, pp. 165-174
Chakrabarti, R., Klibanov, A.M., (2003) J Am Chem Soc, 125, pp. 12531-12540
Ganesh, K.N., Nielsen, P.E., (2000) Curr Org Chem, 4, pp. 941-943
Sforza, S., Corradini, R., Tedeschi, T., Marchelli, R., (2001) Chem Soc Rev, 40, pp. 221-232
Kanjanawarut, R., Su, X., (2009) Anal Chem, 81, pp. 6122-6129
Su, X., Kanjanawarut, R., (2009) ACS Nano, 3, pp. 2751-2759
Tyagi, S., Kramer, F.R., (1996) Nat Biotechnol, 14, pp. 303-308
Dubertret, B., Calame, M., Libchaber, A.J., (2001) Nat Biotechnol, 19, pp. 365-370
Maxwell, D.J., Taylor, J.R., Nie, S., (2002) J Am Chem Soc, 124, pp. 9606-9612
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A major challenge in the area of DNA detection is the development of rapid methods that do not require polymerase chain reaction (PCR) amplification of the genetic sample. The PCR amplification step increases the cost of the assay, the complexity of the detection, and the quantity of DNA required for the assay. In this context, methods that are able to perform DNA analyses with ultrasensitivity have recently been investigated with the aim of developing new PCR-free detection protocols. Functionalized gold nanoparticles have played a central role in the development of such methods. Here, possibilities offered by functionalized gold nanoparticle in the ultrasensitive detection of DNA are discussed. The different functionalization protocols available for gold nanoparticles and the principal DNA detection methods that are able to detect DNA at the femtomolar to attomolar level are presented.
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Impact factor totale: 73.66 (71.846 escludendo Abstract e Conferenze).
Impact factor a 5 anni totale: 78.931 (77.112 escludendo Abstract e Conferenze).
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