Biomedical Engineering Reference
In-Depth Information
87. Wu, G.Y. and Wu, C.H. (1988) Evidence for targeted gene delivery to Hep G2 hepatoma cells
in vitro
.
Biochemistry
,
27
(3), 887-892.
88. Nishikawa, M., Yamauchi, M., Morimoto, K.
et al
. (2000) Hepatocyte-targeted
in vivo
gene
expression by intravenous injection of plasmid DNA complexed with synthetic multi-functional
gene delivery system.
Gene Therapy
,
7
(7), 548-555.
89. Collins, L., Sawyer, G.J., Zhang, X.H.
et al
. (2000)
In vitro
investigation of factors important
for the delivery of an integrin-targeted nonviral DNA vector in organ transplantation.
Transplan-
tation
,
69
(6), 1168-1176.
90. Patel, S., Zhang, X., Collins, L. and Fabre, J.W. (2001) A small, synthetic peptide for gene
delivery via the serpin-enzyme complex receptor.
Journal of Gene Medicine
,
3
(3), 271-279.
91. Shewring, L., Collins, L., Lightman, S.L.
et al
. (1997) A nonviral vector system for efficient gene
transfer to corneal endothelial cells via membrane integrins.
Transplantation
,
64
(5), 763-769.
92. Schachtschabel, U., Pavlinkova, G., Lou, D. and Kohler, H. (1996) Antibody-mediated gene
delivery for B-cell lymphoma
in vitro
.
Cancer Gene Therapy
,
3
(6), 365-372.
93. Gill, T.J. III, Papermaster, D.S., Kunz, H.W. and Marfey, P.S. (1968) Studies on synthetic
polypeptide antigens. XIX. Immunogenicity and antigenic site structure of intramolecularly
cross-linked polypeptides.
Journal of Biological Chemistry
,
243
(2), 287-300.
94. Wilson, J.M., Grossman, M., Wu, C.H.
et al
. (1992) Hepatocyte-directed gene transfer
in
vivo
leads to transient improvement of hypercholesterolemia in low density lipoprotein
receptor-deficient rabbits.
Journal of Biological Chemistry
,
267
(2), 963-967.
95. Tietz, P.S., Yamazaki, K. and LaRusso, N.F. (1990) Time-dependent effects of chloroquine on
pH of hepatocyte lysosomes.
Biochemical Pharmacology
,
40
(6), 1419-1421.
96. Carr, C.M. and Kim, P.S. (1993) A spring-loaded mechanism for the conformational change of
influenza hemagglutinin.
Cell
,
73
(4), 823-832.
97. Collins, L. and Fabre, J.W. (2004) A synthetic peptide vector system for optimal gene delivery
to corneal endothelium.
Journal of Gene Medicine
,
6
(2), 185-194.
98. Boussif, O., Lezoualc'h, F., Zanta, M.A.
et al
. (1995) A versatile vector for gene and oligonu-
cleotide transfer into cells in culture and
in vivo
: polyethylenimine.
Proceedings of the National
Academy of Sciences of the United States of America
,
92
(16), 7297-7301.
99. Kircheis, R., Wightman, L. and Wagner, E. (2001) Design and gene delivery activity of
modified polyethylenimines.
Advanced Drug Delivery Reviews
,
53
(3), 341-358. Review of
polyethyleneimine as a DNA vector.
100. Lungwitz, U., Breunig, M., Blunk, T. and Gopferich, A. (2005) Polyethylenimine-based
non-viral gene delivery systems.
European Journal of Pharmaceutics and Biopharmaceutics
,
60
(2), 247-266.
101. Ogris, M., Brunner, S., Schuller, S.
et al
. (1999) PEGylated DNA/transferring-PEI complexes:
reduced interaction with blood components, extended circulation in blood and potential for
systemic gene delivery.
Gene Therapy
,
6
(4), 595-605.
102. Erbacher, P., Remy, J.S. and Behr, J.P. (1999) Gene transfer with synthetic virus-like particles
via the integrin-mediated endocytosis pathway.
Gene Therapy
,
6
(1), 138-145.
103. Kircheis, R., Kichler, A., Wallner, G.
et al
. (1997) Coupling of cell-binding ligands to
polyethylenimine for targeted gene delivery.
Gene Therapy
,
4
(5), 409-418.
