Biomedical Engineering Reference
In-Depth Information
Lin DC, Yurke B, Langrana NA. 2004b. Mechanical properties of a reversible, DNA-
crosslinked polyacrylamide hydrogel.
J Biomech Eng
126: 104-10
Liu D, Wang M, Deng Z, Walulu R, Mao C. 2004. Tensegrity: construction of rigid DNA
triangles with flexible four-arm DNA junctions.
J Am Chem Soc
126: 2324-5
Liu XD, Yamada M, Matsunaga M, Nishi N. 2007. Functional Materials Derived from DNA
In
Functional Materials and Biomaterials
, pp. 149-78
Lu Y, Liu J. 2006. Functional DNA nanotechnology: emerging applications of DNAzymes
and aptamers.
Curr Opin Biotechnol
17: 580-8
Lu Y, Liu J. 2007. Smart nanomaterials inspired by biology: dynamic assembly of error-free
nanomaterials in response to multiple chemical and biological stimuli.
Acc Chem
Res
40: 315-23
Luo D. 2003. The road from biology to materials.
Materials Today
6: 38-43
Mangalam AP, Simonsen J, Benight AS. 2009. Cellulose/DNA Hybrid Nanomaterials.
Biomacromolecules
Mao C, Sun W, Seeman NC. 1997. Assembly of Borromean rings from DNA.
Nature
386: 137-
8
Marquez JP, Genin GM, Pryse KM, Elson EL. 2006. Cellular and matrix contributions to
tissue construct stiffness increase with cellular concentration.
Ann Biomed Eng
34:
1475-82
Mason TG, Dhople A, Wirtz D. 1998. Linear Viscoelastic Moduli of Concentrated DNA
Solutions.
Macromolecules
31: 3600-03
Mirkin CA, Letsinger RL, Mucic RC, Storhoff JJ. 1996. A DNA-based method for rationally
assembling nanoparticles into macroscopic materials.
Nature
382: 607-9
Moran MC, Miguel MG, Lindman B. 2007. DNA gel particles: particle preparation and
release characteristics.
Langmuir
23: 6478-81
Mrksich M. 2005. Dynamic Substrates for Cell Biology.
MRS Bulletin
30: 180-84
Murakami Y, Maeda M. 2005. DNA-responsive hydrogels that can shrink or swell.
Biomacromolecules
6: 2927-9
Nagahara S, Matsuda T. 1996. Hydrogel formation via hybridization of oligonucleotides
derivatized in water-soluble vinyl polymers.
Polym Gels Networks
4: 111-27
Neher RA, Gerland U. 2005. DNA as a programmable viscoelastic nanoelement.
Biophys J
89:
3846-55
Nemir S, West JL. 2009. Synthetic Materials in the Study of Cell Response to Substrate
Rigidity.
Ann Biomed Eng
Niemeyer CM. 2000. Self-assembled nanostructures based on DNA: towards the
development of nanobiotechnology.
Curr Opin Chem Biol
4: 609-18
Novikova LN, Novikov LN, Kellerth JO. 2003. Biopolymers and biodegradable smart
implants for tissue regeneration after spinal cord injury.
Curr Opin Neurol
16: 711-5
Ogura Y, Nishimura T, Tanida J. 2009. Self-Contained Photonically-Controlled DNA
Tweezers.
Applied Physics Express
2: 025004
Orakdogen N, Erman B, Okay O. 2010. Evidence of Strain Hardening in DNA Gels.
Macromolecules
43: 1530-38
Park N, Um SH, Funabashi H, Xu J, Luo D. 2009. A cell-free protein-producing gel.
Nat
Mater
8: 432-7
Patil SD, Rhodes DG, Burgess DJ. 2005. DNA-based therapeutics and DNA delivery
systems: a comprehensive review.
The AAPS Journal
7: 61-77
Previtera ML, Trout K, Chippada U, Schloss R, Langrana NA. 2011.
Fibroblast behavior on
tunable gels with decreasing elasticity.
Presented at ASME 2011 Summer
Bioengineering Conference.
