Functionalized gold nanoparticles for ultrasensitive DNA detection
CNR Ibb | back to homepage
▲NavBar
Ricerca avanzata▼
Contiene: [X]      Estesa     Autori: [X]  Tipo di lavoro: [X]   Data iniziale: Data finale: [X]      Sede: Affiliazione IBB     
    
[Pulisci modulo]


Functionalized gold nanoparticles for ultrasensitive DNA detection (107 visite)

Zanoli LM, D'Agata R, Spoto G

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

He, Y., Zeng, K., Gurung, A.S., Baloda, M., Xu, H., Zhang, X., Liu, G., (2010) Anal Chem, 82, pp. 7169-7177

Breaker, R.R., (1997) Nat Biotechnol, 15, pp. 427-431

Niazov, T., Pavlov, V., Xiao, Y., Gill, R., Willner, I., (2004) Nano Lett, 4, pp. 1683-1687

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

Yguerabide, J., Yguerabide, E.E., (1998) Anal Biochem, 262, pp. 157-176

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

Fang, Z., Soleymani, L., Pampalakis, G., Yoshimoto, M., Squire, J.A., Sargent, E.H., Kelley, S.O., (2009) ACS Nano, 3, pp. 3207-3213

Zhu, X., Liu, Y., Yang, J., Liang, Z., Li, G., (2010) Biosens Bioelectron, 25, pp. 2135-2139

Li, J., Chu, X., Liu, Y., Jiang, J.H., He, Z., Zhang, Z., Shen, G., Yu, R.Q., (2005) Nucleic Acids Res, 33, pp. e168

Taton, T.A., Mirkin, C.A., Letsinger, R.L., (2000) Science, 289, pp. 1757-1760

Elghanian, R., Storhoff, J.J., Mucic, R.C., Letsinger, R.L., Mirkin, C.A., (1997) Science, 111, pp. 1078-1081

Lee, J., Lytton-Jean, A.K.R., Hurst, S.J., Mirkin, C.A., (2007) Nano Lett, 7, pp. 2112-2115

Sato, K., Hosokawa, K., Maeda, M., (2005) Nucleic Acids Res, 33, pp. e4

Xia, F., Zuo, X., Yang, R., Xiao, Y., Kang, D., Vallee-Belisle, A., Gong, X., Plaxco, K.W., (2010) Proc Natl Acad Sci USA, 107, pp. 10837-10841

Zhou, X., Xia, S., Lu, Z., Tian, Y., Yan, Y., Zhu, J., (2010) J Am Chem Soc, 132, pp. 6932-6934

Baeissa, A., Dave, N., Smith, B.D., Liu, J., (2010) ACS Appl Mater Interfaces, 2, pp. 3594-3600

Sliem, M.A., Ebeid, E.M., Harith, M., (2007) J Biomed Nanotech, 3, pp. 360-366

Xu, W., Xue, X., Li, T., Zeng, H., Liu, X., (2009) Angew Chem Int Ed, 48, pp. 6849-6852

Mao, X., Ma, Y., Zhang, A., Zhang, L., Zeng, L., Liu, G., (2009) Anal Chem, 81, pp. 1660-1668

Mao, X., Xu, H., Zeng, Q., Zeng, L., Liu, G., (2009) Chem Commun, 21, pp. 3065-3067

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

Ding, C., Wang, Z., Zhong, H., Zhang, S., (2010) Biosens Bioelectron, 25, pp. 1082-1087

Richter, M.M., (2004) Chem Rev, 104, pp. 3003-3036

Shan, Y., Xu, J.J., Chen, H.Y., (2009) Chem Commun, pp. 905-907

Chai, Y., Dwangw, T., Cui, H., (2010) Chem Commun, 46, pp. 7560-7562

Zhu, D., Tang, Y., Xing, D., Chen, W.R., (2008) Anal Chem, 80, pp. 3566-3571

Das, J., Yang, H., (2009) J Phys Chem C, 113, pp. 6093-6099

Selvaraju, T., Das, J., Jo, K., Kwon, K., Huh, C.H., Kim, T.K., Yang, H., (2008) Langmuir, 24, pp. 9883-9888

Shiddiky, M.J.A., Aminur, R., Aminur, R.M.D., Shim, Y., (2007) Anal Chem, 79, pp. 6886-6890

Rochelet-Dequaire, M., Limoges, B., Brossier, P., (2006) Analyst, 131, pp. 923-929

Hu, K., Lan, D., Li, X., Zhang, S., (2008) Anal Chem, 80, pp. 9124-9130

Weizmann, Y., Patolsky, F., Willner, I., (2001) Analyst, 126, pp. 1502-1504

Liu, T., Tang, J., Jiang, L., (2002) Biochem Biophys Res Commun, 295, pp. 14-16

Zh, M., Wei, X.L., (2006) Anal Bioanal Chem, 386, pp. 2219-2223

Homola, J., (2006) Surface Plasmon Resonance Based Sensors, , Springer, Berlin

Scarano, S., Mascini, M., Turner, A.P.F., Minunni, M., (2009) Biosens Bioelectron, 25, pp. 957-966

Grasso, G., Rizzarelli, E., Spoto, G., (2008) BBA Proteins Proteom, 1784, pp. 1122-1126

Ciaccio, C., Tundo, G.R., Grasso, G., Spoto, G., Marasco, D., Ruvo, M., Gioia, M., Coletta, M., (2009) J Mol Biol, 385, pp. 1556-1567

Grasso, G., Bush, A.I., D'Agata, R., Rizzarelli, E., Spoto, G., (2009) Eur Biophys J Biophy, 38, pp. 407-414

Arena, G., Contino, A., Longo, E., Sgarlata, C., Spoto, G., Zito, V., (2004) Chem Commun, 16, pp. 1812-1813

Grasso, G., D'Agata, R., Zanoli, L., Spoto, G., (2009) Microchem J, 93, pp. 82-86

D'agata, R., Grasso, G., Iacono, G., Spoto, G., Vecchio, G., (2006) Org Biomol Chem, 4, pp. 610-612

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

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



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.
Nessun risultato.
Nessun risultato.

Ricerca avanzata▼
Contiene: [X]      Estesa     Autori: [X]  Tipo di lavoro: [X]   Data iniziale: Data finale: [X]      Sede: Affiliazione IBB     
    
[Pulisci modulo]
Vai a fine pagina   Versione per copia e incolla facile   Esporta tutto in BibTeX   Esporta tutto in EndNote


Zambrano G, Ruggiero E, Malafronte A, Chino M, Maglio O, Pavone V, Nastri F, Lombardi A
* Artificial Heme Enzymes for the Construction of Gold-Based Biomaterials (42 visite)
Int J Mol Sc (ISSN: 1422-0067electronic, 1422-0067linking, 1661-6596), 2018 Sep 24; 19(10): N/D-N/D.
Impact Factor: 3.687
Dettagli    Esporta in BibTeX    Esporta in EndNote

Satriano C, Munzone A, Cucci LM, Giacomelli C, Trincavelli ML, Martini C, Rizzarelli E, La Mendola D
* Angiogenin-mimetic peptide functionalised gold nanoparticles for cancer therapy applications (15 visite)
Microchemical Journal (ISSN: 0026-265x), 2018; 136: 157-163.
Impact Factor: 2.579
Dettagli    Esporta in BibTeX    Esporta in EndNote

Oliveri V, Bellia F, Vecchio G
* Cyclodextrin Nanoparticles Bearing 8-Hydroxyquinoline Ligands as Multifunctional Biomaterials (143 visite)
Chemistry (ISSN: 0947-6539, 1521-3765, 1521-3765electronic), 2017; 23(18): 4442-4449.
Impact Factor: 5.16
Dettagli    Esporta in BibTeX    Esporta in EndNote

Merlino A, Caterino M, Russo Krauss I, Vergara A
* Missing gold atoms in lysozyme crystals used to grow gold nanoparticles (126 visite)
Nat Nanotechnol (ISSN: 1748-3387), 2015; 10(4): 285-285.
Impact Factor: 35.267
Dettagli    Esporta in BibTeX    Esporta in EndNote

Bellia F, Oliveri V, Rizzarelli E, Vecchio G
* New derivative of carnosine for nanoparticle assemblies (135 visite)
Eur J Med Chem (ISSN: 1768-3254, 0223-5234, 1768-3254electronic), 2013 Dec; 70: 225-232.
Impact Factor: 3.432
Dettagli    Esporta in BibTeX    Esporta in EndNote

Zanoli LM, Licciardello M, D'Agata R, Lantano C, Calabretta A, Corradini R, Marchelli R, Spoto G
* Peptide nucleic acid molecular beacons for the detection of PCR amplicons in droplet-based microfluidic devices (104 visite)
Anal Bioanal Chem (ISSN: 1618-2642), 2013 Jan; 405(2-3): 615-624.
Impact Factor: 3.578
Dettagli    Esporta in BibTeX    Esporta in EndNote

D'Agata R, Spoto G
* Surface plasmon resonance imaging for nucleic acid detection (150 visite)
Anal Bioanal Chem (ISSN: 1618-2642), 2013 Jan; 405(2-3): 573-584.
Impact Factor: 3.578
Dettagli    Esporta in BibTeX    Esporta in EndNote

Scarí G, Porta F, Fascio U, Avvakumova S, Dal Santo V, De Simone M, Saviano M, Leone M, Del Gatto A, Pedone C, Zaccaro L
* Gold nanoparticles capped by a GC-containing peptide functionalized with an RGD motif for integrin targeting (196 visite)
Bioconjug Chem (ISSN: 1520-4812, 1043-1802, 1520-4812electronic), 2012 Mar 21; 23(3): 340-349.
Impact Factor: 4.58
Dettagli    Esporta in BibTeX    Esporta in EndNote

D'Agata R, Corradini R, Ferretti C, Zanoli L, Gatti M, Marchelli R, Spoto G
* Ultrasensitive detection of non-amplified genomic DNA (192 visite)
Lect Notes Electr Eng, 2010 May 15; 91LNEE: 485-488.
Impact Factor: 0
Dettagli    Esporta in BibTeX    Esporta in EndNote

D'Agata R, Corradini R, Ferretti C, Zanoli L, Gatti M, Marchelli R, Spoto G
* Ultrasensitive detection of non-amplified genomic DNA by nanoparticle-enhanced surface plasmon resonance imaging (121 visite)
Biosens Bioelectron (ISSN: 0956-5663, 1873-4235electronic), 2010 May 15; 25(9): 2095-2100.
Impact Factor: 5.361
Dettagli    Esporta in BibTeX    Esporta in EndNote

D'Urso L, Grasso G, Messina E, Bongiorno C, Scuderi V, Scalese S, Puglisi O, Spoto G, Compagnini G
* The Role of Linear Carbon Chains in the Aggregation of Copper, Silver, and Gold Nanoparticles (188 visite)
J Phys Chem C (ISSN: 1932-7447), 2010 Jan 21; 114(2): 907-915.
Impact Factor: 4.524
Dettagli    Esporta in BibTeX    Esporta in EndNote

D'Agata R, Breveglieri G, Zanoli L, Borgatti M, Spoto G, Gambari R
* Surface Plasmon Resonance Imaging (SPR-I), peptide nucleic acid (PNA) probes and nanoparticle-enhancement for PCR-free ultrasensitive detection of beta-thalassemia mutations in human genomic DNA (118 visite)
International Journal Of Molecular Medicine (ISSN: 1107-3756), 2010; 26: N/D-N/D.
Impact Factor: 1.814
Dettagli    Esporta in BibTeX    Esporta in EndNote

Zanoli L, Dagata R, Spoto G
* Surface plasmon-based optical detection of DNA peptide nucleic acids (129 visite)
Minerva Biotecnol (ISSN: 1120-4826), 2008; 20(4): 165-174.
Impact Factor: 0.1
Dettagli    Esporta in BibTeX    Esporta in EndNote



13 Records (12 escludendo Abstract e Conferenze).
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).







    Esporta in BibTeX    Esporta in EndNote