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Bar-Ilan Institute of Nanotechnologies and Advanced Materials

3 ARTICLES PUBLISHED IN JoVE

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Biology

Localized RNAi and Ectopic Gene Expression in the Medicinal Leech
Orit Shefi 1, Claire Simonnet 2, Alex Groisman 2, Eduardo R Macagno 1
1Division of Biological Sciences, University of California San Diego - UCSD, 2Department of Physics, University of California San Diego - UCSD

In this video, we show a procedure for an accurate biolistic delivery of reagents into live tissue with a novel miniature gene gun. We are knocking down the expression of the axon guidance molecule Netrin in leech embryos by delivering molecules of dsRNA into the ventral body wall and ganglia of single segments.

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Bioengineering

Designing Porous Silicon Films as Carriers of Nerve Growth Factor
Michal Rosenberg 1, Neta Zilony 2,3, Orit Shefi 2,3, Ester Segal 1,4
1Department of Biotechnology and Food Engineering, Technion - Israel Institute of Technology, 2Faculty of Engineering, Bar-Ilan University, 3Bar-Ilan Institute of Nanotechnologies and Advanced Materials, 4Russell Berrie Nanotechnology Institute, Technion - Israel Institute of Technology

Here, we present a protocol to design and fabricate nanostructured porous silicon (PSi) films as degradable carriers for the nerve growth factor (NGF). Neuronal differentiation and outgrowth of PC12 cells and mice dorsal root ganglion (DRG) neurons are characterized upon treatment with the NGF-loaded PSi carriers.

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Bioengineering

Fabrication of Magnetic Platforms for Micron-Scale Organization of Interconnected Neurons
Ganit Indech 1,4, Reut Plen 2,4, Dafna Levenberg 2,4, Naor Vardi 1,4, Michal Marcus 2,4, Alejandra Smith 2,4, Shlomo Margel 3,4, Orit Shefi 2,4, Amos Sharoni 1,4
1Department of Physics, Bar-Ilan University, 2Faculty of Engineering, Bar-Ilan University, 3Department of chemistry, Bar-Ilan University, 4The Institutes of Nanotechnology & Advanced Materials, Bar-Ilan University

This work presents a bottom-up approach to the engineering of local magnetic forces for control of neuronal organization. Neuron-like cells loaded with magnetic nanoparticles (MNPs) are plated atop and controlled by a micro-patterned platform with perpendicular magnetization. Also described are magnetic characterization, MNP cellular uptake, cell viability, and statistical analysis.

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