2010
  1. Nicolini C., Nanogenomics in Medicine, WIREs Nanomedicine & Nanobiotechnology 2, 59-76, 2010.
  2. Nicolini C., LaBaer J., Nanotechnology applications of Nucleic Acid Programmable Protein Arrays, in Functional Proteomics and Nanotechnology-based Microarrays, (Eds. Nicolini C., LaBaer J.) Pan Stanford Series on Nanobiotechnology, Singapore, Volume 2, Chapter 1, pp. 1-29, 2010.
  3. Sivozhelezov V., Spera R., Giacomelli L., Hainsworth E., LaBaer J., Bragazzi N.L., Nicolini C., Bioinformatics and Fluorescence DNASER for NAPPA studies on cell transformation and cell cycle, in Functional Proteomics and Nanotechnology-based Microarrays, (Eds. Nicolini C., LaBaer J.) Pan Stanford Series on Nanobiotechnology, Singapore, Volume 2, Chapter 2, pp. 31-59, 2010.
  4. Spera R., Badino F., Hainsworth E., Fuentes M., Srivastava, S., LaBaer J., Nicolini C., Label-free detection of NAPPA via mass spectrometry, in Functional Proteomics and Nanotechnology-based Microarrays, (Eds. Nicolini C., LaBaer J.) Pan Stanford Series on Nanobiotechnology, Singapore, Volume 2, Chapter 3, pp. 61-78, 2010.
  5. Adami M., Sallam S., Eggenhoffner R., Sartore M., Hainsworth E., LaBaer J., Nicolini C., Label-free NAPPA via nanogravimetry, in Functional Proteomics and Nanotechnology-based Microarrays, (Eds. Nicolini C., LaBaer J.) Pan Stanford Series on Nanobiotechnology, Singapore, Volume 2, Chapter 4, pp. 95-108, 2010.
  6. Stura E., Larosa C., Bezerra Correia Terencio T., Hainsworth E., Ramachandran N., LaBaer J., Nicolini C., Label-free NAPPA: Anodic Porous Alumina, in Functional Proteomics and Nanotechnology-based Microarrays, (Eds. Nicolini C., LaBaer J.) Pan Stanford Series on Nanobiotechnology, Singapore, Volume 2, Chapter 5, pp. 95-108, 2010.
  7. Sartore M., Eggenhoffner R., Bezerra Correia Terencio T., Stura E., Hainsworth, LaBaer J., Nicolini C., Label-free detection of NAPPA via atomic force microscopy, in Functional Proteomics and Nanotechnology-based Microarrays, (Eds. Nicolini C., LaBaer J.) Pan Stanford Series on Nanobiotechnology, Singapore, Volume 2, Chapter 6, pp. 109-120, 2010.
  8. Pechkova E., Chong S., Tripathi S., Nicolini C., Cell free expression and APA for NAPPA and protein crystallography, in Functional Proteomics and Nanotechnology-based Microarrays, (Eds. Nicolini C., LaBaer J.) Pan Stanford Series on Nanobiotechnology, London - New York - Singapore, Volume 2, Chapter 7, pp. 121-147, 2010.
  9. Spera R., Nicolini C., Overall proteome alterations during reverse transformaton of growing CHO-K1 cells, in Functional Proteomics and Nanotechnology-based Microarrays, (Eds. Nicolini C., LaBaer J.) Pan Stanford Series on Nanobiotechnology, Singapore, Volume 2, Chapter 9, pp. 183-228, 2010.
  10. Danger R., Soulillou J.P: Brouard S., Nicolini C., Organ transplants and gene microarrays, in Functional Proteomics and Nanotechnology-based Microarrays, (Eds. Nicolini C., LaBaer J.) Pan Stanford Series on Nanobiotechnology, Singapore, Volume 2, Chapter 10, pp. 229-256, 2010.
  11. Nicolini C., Pechkova E., An overview of nanotechnology-based functional proteomics fro cancer and cell cycle progression, Anticancer Research 30, 2073-2080, 2010.
  12. Nicolini C., Pechkova E., Nanoproteomics for nanomedicine, Nanomedicine 5, 677-682, 2010.
  13. Pechkova E., Nicolini C., Domain organization and properties of LB lysozyme crystals down to submicron size, Anticancer Research 30, 2745-2748, 2010.
  14. Pechkova E., Gebhardt R., Riekel C., Nicolini C., In situ microGISAXS: I. Experimental setup for submicron study of protein nucleation and growth, Biophysical Journal 99, 1256-1261, 2010.
  15. Gebhardt R., Pechkova E., Riekel C., Nicolini C., In situ microGISAXS: II. Thaumatin crystal growth kinetic, Biophysical Journal 99, 1262-1267, 2010.
  16. Jovanovic V., Giacomelli L., Sivozhelezov V., Degauque N., Lair D., Soulillou J.P., Pechkova E., Nicolini C., Brouard S., AKT1 leader gene and downstream targets are involved in a rat model of kidney allograft tolerance, Journal of Cellular Biochemistry 111, 709-719, 2010.
  17. Sivozhelezov V.S. Electrostatic fields around biological macromolecules as factors in molecular recognition. Dissertation for Degree of Doctor of Science in Biology/Biophysics. Pushchino, Russia, 2010 (in Russian).
  18. Apryshko, VP, Yakovenko, SA, Sivozhelezov, VS, Yutkin, EV, Rutman, BK, Troshina, MN, Simonenko, EY. IMSI based on Hoffman modulation contrast: 5 years experience. Reproductive BioMedicine Online vol.20, p. S25, 2010
 Laboratori di Biofisica e di Nanotecnologie - Dipartimento di Medicina Sperimentale - Universita' di Genova fax +39010-35338215 tel.+39 010-35338217