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Esben Kjær Unmack Larsen
Personal Information:
Position: PhD student Esben Kjær Unmack Larsen
Email: This e-mail address is being protected from spambots. You need JavaScript enabled to view it
Research Area: Drug Delivery Lab
Description:

 

 

Tel: +45 2231 5212
Email:  ekul@mb.au.dk 
Office:  bldg. 1131  room 626

Mail address

Bygning 1520
Ny Munkegade 120
DK - 8000 Århus C
Denmark

 

Research areas

Health and Illness

Organs and Functions of the Body  Molecular medicine 
Prophylaxis  Heart and circulation 
Research and Examination Methods  Scanning and similar forms of examination 
Treatment of Illness  Cancer 

Nature and Mathematics

Chemistry  Organic chemistry 
Chemistry  Pharmaceuticals 
Molecular Biology and Biotechnology  Antisense and siRNA 
Molecular Biology and Biotechnology  Cancer 
Molecular Biology and Biotechnology  Development of new drugs 
Nanotechnology and Nanoscience  Biocompatibility 
Nanotechnology and Nanoscience  Drug delivery from nanoparticles 
Nanotechnology and Nanoscience  Functional nanomaterials 
Nanotechnology and Nanoscience  Nanobiotechnology 
Nanotechnology and Nanoscience  Nanocrystalline materials 
Nanotechnology and Nanoscience  Nanomaterials 
Nanotechnology and Nanoscience  Nanomedicine 
Nanotechnology and Nanoscience  Surface coatings 

 
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RNAi highlights

The DNA 'origami' method was extended into 3D to create an addressable DNA box on the nanometre scale that can be opened by externally supplied DNA 'keys'. The study appeared online in Nature, May 6, 2009:

News

New single molecule study of hnRNP A1 interaction with telomere DNA G-quadruplex structures

Read more...
 

The DNA 'origami' method was extended into 3D to create an addressable DNA box on the nanometre scale that can be opened by externally supplied DNA 'keys'. The study appeared online at Nature, May 6, 2009: [Paper] [Podcast]
 

Kasper Jahn has won the EliteForsk travel award amounting to 250.000 DKK for his research on the application of DNA self-assembly chemistry for bringing together proteins and metal particles at the nano-scale.
Read the news here (in danish)
 
The SARSE - DNA origami package version 1.0 was released on the CDNA website (see intro page). The package makes it really easy to design complex DNA nanostructures. The package has a nice tutorial that goes through the steps involved in creating the logo of the University of Aarhus in DNA (see tutorial).
 

Ebbe S Andersen and colleagues introduce their ACS nano paper about a software program for designing DNA origami structures and the characterization of DNA dolphins with flexible tails. The full article may be found at this DOI.

 


 

 
 
 
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