Synaptosomes as a Platform for Loading Nanoparticles into Synaptic Vesicles | Zendy

Kristi L. Budzinski | Zendy; Allyson E. Sgro | Zendy; Bryant S. Fujimoto | Zendy; Jennifer C. Gadd | Zendy; Noah Gregory Shuart | Zendy; Tamir Gonen | Zendy; Sandra M. Bajjaleih | Zendy; Daniel T. Chiu | Zendy

AI Assistant Blog Pricing

Home ZAIA Blog

Open Access

Synaptosomes as a Platform for Loading Nanoparticles into Synaptic Vesicles

Author(s) -

Kristi L. Budzinski,

Allyson E. Sgro,

Bryant S. Fujimoto,

Jennifer C. Gadd,

Noah Gregory Shuart,

Tamir Gonen,

Sandra M. Bajjaleih,

Daniel T. Chiu

Publication year - 2011

Publication title -

acs chemical neuroscience

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.158

H-Index - 69

ISSN - 1948-7193

DOI - 10.1021/cn200009n

Subject(s) - synaptic vesicle , vesicle , chemistry , synaptosome , nanoparticle , neuroscience , biophysics , nanotechnology , microbiology and biotechnology , biology , materials science , biochemistry , membrane

Synaptosomes are intact, isolated nerve terminals that contain the necessary machinery to recycle synaptic vesicles via endocytosis and exocytosis upon stimulation. Here we use this property of synaptosomes to load quantum dots into synaptic vesicles. Vesicles are then isolated from the synaptosomes, providing a method to probe isolated, individual synaptic vesicles where each vesicle contains a single, encapsulated nanoparticle. This technique provided an encapsulation efficiency of ~16%, that is, ~16% of the vesicles contained a single quantum dot while the remaining vesicles were empty. The ability to load single nanoparticles into synaptic vesicles opens new opportunity for employing various nanoparticle-based sensors to study the dynamics of vesicular transporters.

The content you want is available to Zendy users.

Already have an account? Click here to sign in.

Having issues? You can contact us here

Accelerating Research