Biomedical Engineering Reference
In-Depth Information
[12] Lee De, Koo h, Sun iC, ryu Jh, Kim K, Kwon iC. Multifunctional nanoparticles
for multimodal imaging and theragnosis. Chem Soc rev 2012;
41
:2656-2672.
[13] Wagner V, Dullaart A, Bock AK, Zweck A. The emerging nanomedicine landscape.
Nat Biotechnol 2006;
24
:1211-1217.
[14] peek LJ, Middaugh Cr, Berkland C. Nanotechnology in vaccine delivery. Adv Drug
Deliv rev 2008;
60
:915-928.
[15] Yildiz i, Shukla S, Steinmetz NF. Applications of viral nanoparticles in medicine. Curr
opin Biotechnol 2011;
22
:901-908.
[16] Xu Zp, Zeng Qh, Lu GQ, Yu AB. inorganic nanoparticles as carriers for efficient cellular
delivery. Chem eng Sci 2006;
61
:1027-1040.
[17] Lee SC, huh KM, Lee J, Cho YW, Galinsky re, park K. hydrotropic polymeric micelles
for enhanced paclitaxel solubility: in vitro and
in vivo
characterization. Biomacromolecules
2007;
8
:202-208.
[18] Steinmetz NF. Viral nanoparticles as platforms for next-generation therapeutics and
imaging devices. Nanomedicine 2010;
6
:634-641.
[19] Schneemann A, Young MJ. Viral assembly using heterologous expression systems and
cell extracts. Adv protein Chem 2003;
64
:1-36.
[20] pokorski JK, Steinmetz NF. The art of engineering viral nanoparticles. Mol pharm
2011;
8
:29-43.
[21] Doan DN, Lee KC, Laurinmaki p, Butcher S, Wong SM, Dokland T. Three-dimensional
reconstruction of hibiscus chlorotic ringspot virus. J Struct Biol 2003;
144
:253-261.
[22] Ge p, Zhou Zh. hydrogen-bonding networks and rNA bases revealed by cryo electron
microscopy suggest a triggering mechanism for calcium switches. proc Natl Acad Sci U
S A 2011;
108
:9637-9642.
[23] Khalil AS, Ferrer JM, Brau rr, Kottmann ST, Noren CJ, Lang MJ, Belcher AM.
Single M13 bacteriophage tethering and stretching. proc Natl Acad Sci U S A
2007;
104
:4892-4897.
[24] Mäkelä Ar, ernst W, Grabherr r, oker-Blom C. Baculovirus-based display and gene
delivery systems. Cold Spring harb protoc 2010;
2010
:pdb.top72.
[25] Mok h, park JW, park TG. enhanced intracellular delivery of quantum dot and adeno-
virus nanoparticles triggered by acidic ph via surface charge reversal. Bioconjug Chem
2008;
19
:797-801.
[26] Loo L, Guenther rh, Lommel SA, Franzen S. infusion of dye molecules into red clover
necrotic mosaic virus. Chem. Commun. (Camb) 2008;
1
:88-90.
[27] Basu G, Allen M, Willits D, Young M, Douglas T. Metal binding to cowpea chlorotic
mottle virus using terbium(iii) fluorescence. J Biol inorg Chem 2003;
8
:721-725.
[28] Speir JA, Munshi S, Wang G, Baker TS, Johnson Je. Structures of the native and swollen
forms of cowpea chlorotic mottle virus determined by X-ray crystallography and cryo-
electron microscopy. Structure 1995;
3
:63-78.
[29] Douglas T, Young M. host-guest encapsulation of materials by assembled virus protein
cages. Nature 1998;
393
:152-155.
[30] Dragnea B, Chen C, Kwak eS, Stein B, Kao CC. Gold nanoparticles as spectroscopic
enhancers for in vitro studies on single viruses. J Am Chem Soc 2003;
125
:6374-6375.
[31] hu Y, Zandi r, Anavitarte A, Knobler CM, Gelbart WM. packaging of a polymer by
a viral capsid: the interplay between polymer length and capsid size. Biophys
J 2008;
94
:1428-1436.
Search WWH ::
Custom Search