Biology Reference
In-Depth Information
148. King WJ, Toepke MW, Murphy WL. Facile formation of dynamic hydrogel microspheres for triggered growth
factor delivery. Acta Biomater . 2011;7(3):975
985.
149. Congreve M, Langmead C, Marshall FH. The use of GPCR structures in drug design. Adv Pharmacol .
2011;62:1
36.
150. Life Technologies Inc. Tango
t
http://www.
invitrogen.com/site/us/en/home/Products-and-Services/Applications/Drug-Discovery/Target-and-Lead-
Identification-and-Validation/g-protein_coupled_html/GPCR-Cell-Based-Assays/Tango.html
GPCR Assay System. Accessible at the following website:
,
Date Accessed
.
30.01.12.
151. Gonzalez-Nicolini V, Fux C, Fussenegger M. A novel mammalian cell-based approach for the discovery of
anticancer drugs with reduced cytotoxicity on nondividing cells. Invest New Drugs . 2004;22(3):253
262.
152. Aubel D, Morris R, Lennon B, et al. Design of a novel mammalian screening system for the detection of
bioavailable, noncytotoxic streptogramin antibiotics. J Antibiot (Tokyo) . 2001;54(1):44
55.
153. Weber W, Schoenmakers R, Keller B, et al. A synthetic mammalian gene circuit reveals antituberculosis
compounds. Proc Natl Acad Sci USA . 2008;105(29):9994 9998.
154. Fraaije MW, Kamerbeek NM, Heidekamp AJ, Fortin R, Janssen DB. The prodrug activator EtaA from
Mycobacterium tuberculosis is a Baeyer-Villiger monooxygenase. J Biol Chem . 2004;279(5):3354 3360.
155. Loose C, Jensen K, Rigoutsos I, Stephanopoulos G. A linguistic model for the rational design of antimicrobial
peptides. Nature . 2006;443(7113):867 869.
156. Ebben JD, Zorniak M, Clark PA, Kuo JS. Introduction to induced pluripotent stem cells: advancing the
potential for personalized medicine. World Neurosurg . 2011;76(3 4):270 275.
157. Takahashi K, Tanabe K, Ohnuki M, et al. Induction of pluripotent stem cells from adult human fibroblasts by
defined factors. Cell . 2007;131(5):861
872.
158. Lindgren M, Hällbrink M, Prochiantz A, Langel U. Cell-penetrating peptides. Trends Pharmacol Sci . 2000;21
(3):99
103.
159. Joliot A. Transduction peptides within naturally occurring proteins. Sci STKE . 2005;2005(313):pe54.
160. van den Berg A, Dowdy SF. Protein transduction domain delivery of therapeutic macromolecules. Curr Opin
Biotechnol . 2011;22(6):888
893.
161. Kim D, Kim CH, Moon JI, et al. Generation of human induced pluripotent stem cells by direct delivery of
reprogramming proteins. Cell Stem Cell . 2009;4(6):472
476.
180
162.
Jiao X, Xiang S, Oh C, Martin CE, Tong L, Kiledjian M. Identification of a quality-control mechanism for
mRNA 5'-end capping. Nature . 2010;467(7315):608
611.
163. Yisraeli JK, Melton DA. Synthesis of long, capped transcripts in vitro by SP6 and T7 RNA polymerases.
Methods Enzymol . 1989;180:42
50.
164. Kariko K, Muramatsu H, Welsh FA, et al. Incorporation of pseudouridine into mRNA yields superior
nonimmunogenic vector with increased translational capacity and biological stability. Mol Ther .
2008;16:1833 1840.
165. Kormann MS, Hasenpusch G, Aneja MK, et al. Expression of therapeutic proteins after delivery of chemically
modified mRNA in mice. Nat Biotechnol . 2011;29(2):154 157.
166. Symons JA, Alcamí A, Smith GL. Vaccinia virus encodes a soluble type I interferon receptor of novel structure
and broad species specificity. Cell . 1995;81(4):551 560.
167. Heng BC, Cao T. Could the transit-amplifying stage of stem cell differentiation be the most suited for
transplantation purposes? Med Hypotheses . 2005;65(2):412 413.
168. Heng BC, Richards M, Ge Z, Shu Y. Induced adult stem (iAS) cells and induced transit amplifying progenitor
(iTAP) cells a possible alternative to induced pluripotent stem (iPS) cells? J Tissue Eng Regen Med 2010;4
(2):159 162.
169.
Ieda M, Fu JD, Delgado-Olguin P, et al. Direct reprogramming of fibroblasts into functional cardiomyocytes
by defined factors. Cell . 2010;142(3):375
386.
170. Vierbuchen T, Ostermeier A, Pang ZP, Kokubu Y, Südhof TC, Wernig M. Direct conversion of fibroblasts to
functional neurons by defined factors. Nature . 2010;463:1035
1041.
171. Caiazzo M, Dell'Anno MT, Dvoretskova E, et al. Direct generation of functional dopaminergic neurons from
mouse and human fibroblasts. Nature . 2011;476(7359):224
227.
172. Huang P, He Z, Ji S, et al. Induction of functional hepatocyte-like cells from mouse fibroblasts by defined
factors. Nature . 2011;475(7356):386
389.
173. Sekiya S, Suzuki A. Direct conversion of mouse fibroblasts to hepatocyte-like cells by defined factors. Nature .
2011;475:390
393.
174. Pang ZP, Yang N, Vierbuchen T, et al. Induction of human neuronal cells by defined transcription factors.
Nature . 2011;476(7359):220
223.
Search WWH ::




Custom Search