| P50 | author | Abraham Domb | Q24038323 |
| P2093 | author name string | A Joseph | |
| | Y Barenholz | |
| | A Zlotkin | |
| | T Azzam | |
| | D Gazit | |
| | H Eliyahu | |
| | A Makovitzki | |
| P2860 | cites work | Synthetic DNA delivery systems | Q28142096 |
| | A versatile vector for gene and oligonucleotide transfer into cells in culture and in vivo: polyethylenimine | Q29616154 |
| | Hydrophobized dextran-spermine conjugate as potential vector for in vitro gene transfection | Q30921053 |
| | The challenge of vector development in gene therapy | Q33646622 |
| | Taking polycation gene delivery systems from in vitro to in vivo. | Q33724293 |
| | Endosomes, lysosomes: their implication in gene transfer | Q33852999 |
| | Development of biomaterials for gene therapy | Q34053984 |
| | Key issues in non-viral gene delivery. | Q34190351 |
| | Nonviral vectors in the new millennium: delivery barriers in gene transfer | Q34270234 |
| | The future of human gene therapy | Q34317814 |
| | Non-viral gene delivery systems | Q34598031 |
| | RNAi: gene-silencing in therapeutic intervention | Q35053153 |
| | Liposomal delivery of nucleic acids in vivo | Q35062247 |
| | DOTAP (and other cationic lipids): chemistry, biophysics, and transfection | Q36002642 |
| | Tracking the intracellular path of poly(ethylenimine)/DNA complexes for gene delivery | Q36339428 |
| | A serum-resistant cytofectin for cellular delivery of antisense oligodeoxynucleotides and plasmid DNA | Q37643556 |
| | Fluidity parameters of lipid regions determined by fluorescence polarization | Q39781931 |
| | Different behavior of branched and linear polyethylenimine for gene delivery in vitro and in vivo | Q40688861 |
| | Polysaccharide-oligoamine based conjugates for gene delivery | Q40737365 |
| | pH-sensitive cationic polymer gene delivery vehicle: N-Ac-poly(L-histidine)-graft-poly(L-lysine) comb shaped polymer | Q40854271 |
| | Application of membrane-based dendrimer/DNA complexes for solid phase transfection in vitro and in vivo | Q40891208 |
| | Polyamine analogue regulation of NMDA MK-801 binding: a structure-activity study | Q40916473 |
| | Lipophilic polylysines mediate efficient DNA transfection in mammalian cells | Q41683372 |
| | Lamellarity of cationic liposomes and mode of preparation of lipoplexes affect transfection efficiency | Q42813275 |
| | Overcoming the nuclear barrier: cell cycle independent nonviral gene transfer with linear polyethylenimine or electroporation | Q43850887 |
| | Lipoplex-induced hemagglutination: potential involvement in intravenous gene delivery | Q44038921 |
| | The role of organ vascularization and lipoplex-serum initial contact in intravenous murine lipofection | Q44517522 |
| | Imaging transgene expression in live animals | Q45198958 |
| | Targeted gene correction: a new strategy for molecular medicine | Q45889735 |
| | Dextran-spermine conjugate: an efficient vector for gene delivery | Q57922274 |
| | Cationic Polysaccharides for Gene Delivery | Q57922396 |
| | Mechanism of DNA release from cationic liposome/DNA complexes used in cell transfection | Q71099227 |
| P433 | issue | 6 | |
| P304 | page(s) | 494-503 | |
| P577 | publication date | 2005-03-01 | |
| P1433 | published in | Gene Therapy | Q15763095 |
| P1476 | title | Novel dextran-spermine conjugates as transfecting agents: comparing water-soluble and micellar polymers | |
| P478 | volume | 12 | |