Cite
Metal Loading Capacity of Aβ N-Terminus: a Combined Potentiometric and Spectroscopic Study of Zinc(ll) Complexes with Aβ(1—16), Its Short or Mutated Peptide Fragments and Its Polyethylene Glycol—ylated Analogue.
MLA
Damante, Chiara A., et al. “Metal Loading Capacity of Aβ N-Terminus: A Combined Potentiometric and Spectroscopic Study of Zinc(Ll) Complexes with Aβ(1—16), Its Short or Mutated Peptide Fragments and Its Polyethylene Glycol—ylated Analogue.” Inorganic Chemistry, vol. 48, no. 21, Nov. 2009, pp. 10405–15. EBSCOhost, https://doi.org/10.1021/ic9012334.
APA
Damante, C. A., Ősz, K., Nagy, Z., Pappalardo, G., Grasso, G., Impellizzeri, G., Rizzarelli, E., & Sóvágó, lmre. (2009). Metal Loading Capacity of Aβ N-Terminus: a Combined Potentiometric and Spectroscopic Study of Zinc(ll) Complexes with Aβ(1—16), Its Short or Mutated Peptide Fragments and Its Polyethylene Glycol—ylated Analogue. Inorganic Chemistry, 48(21), 10405–10415. https://doi.org/10.1021/ic9012334
Chicago
Damante, Chiara A., Katalin Ősz, Zoltán Nagy, Giuseppe Pappalardo, Giulia Grasso, Giuseppe Impellizzeri, Enrico Rizzarelli, and lmre Sóvágó. 2009. “Metal Loading Capacity of Aβ N-Terminus: A Combined Potentiometric and Spectroscopic Study of Zinc(Ll) Complexes with Aβ(1—16), Its Short or Mutated Peptide Fragments and Its Polyethylene Glycol—ylated Analogue.” Inorganic Chemistry 48 (21): 10405–15. doi:10.1021/ic9012334.