Publications (co-)authored by Mihaela Necula while in the Biophysics program

[1] 

Erin E Congdon, Mihaela Necula, Robert D Blackstone, and Jeff Kuret
"Potency of a tau fibrillization inhibitor is influenced by its aggregation state."
Arch. Biochem. Biophys. 465, 127-35 (2007).

[2] 

Mihaela Necula, Carmen N Chirita, and Jeff Kuret
"Cyanine dye N744 inhibits tau fibrillization by blocking filament extension implications for the treatment of tauopathic neurodegenerative diseases."
Biochemistry 44, 10227-37 (2005).

[3] 

Mihaela Necula and Jeff Kuret
"Site-specific pseudophosphorylation modulates the rate of tau filament dissociation."
FEBS Lett. 579, 1453-7 (2005).

[4] 

Jeff Kuret, Carmen N Chirita, Erin E Congdon, Theresa Kannanayakal, Guibin Li, Mihaela Necula, Haishan Yin, and Qi Zhong
"Pathways of tau fibrillization."
Biochim. Biophys. Acta 1739, 167-78 (2005).

[5] 

Mihaela Necula and Jeff Kuret
"Pseudophosphorylation and glycation of tau protein enhance but do not trigger fibrillization in vitro."
J. Biol. Chem. 279, 49694-703 (2004).

[6] 

Mihaela Necula and Jeff Kuret
"A static laser light scattering assay for surfactant-induced tau fibrillization."
Anal. Biochem. 333, 205-15 (2004).

[7] 

Mihaela Necula and Jeff Kuret
"Electron microscopy as a quantitative method for investigating tau fibrillization."
Anal. Biochem. 329, 238-46 (2004).

[8] 

Carmen Chirita, Mihaela Necula, and Jeff Kuret
"Ligand-dependent inhibition and reversal of tau filament formation."
Biochemistry 43, 2879-87 (2004).

[9] 

Mihaela Necula, Carmen N Chirita, and Jeff Kuret
"Rapid anionic micelle-mediated alpha-synuclein fibrillization in vitro."
J. Biol. Chem. 278, 46674-80 (2003).

[10] 

Carmen N Chirita, Mihaela Necula, and Jeff Kuret
"Anionic micelles and vesicles induce tau fibrillization in vitro."
J. Biol. Chem. 278, 25644-50 (2003).