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Review

Intracellular trafficking of nucleic acids

Rui Zhou Northwestern University, Division of Pulmonary and Critical Care Medicine, Feinberg School of Medicine, 240 E. Huron Avenue, McGaw 2336, Chicago, IL 60611, USA
,
R Christopher Geiger Northwestern University, Department of Microbiology-Immunology, Feinberg School of Medicine, 240 E. Huron Avenue, McGaw 2336, Chicago, IL 60611, USA
&
David A Dean Northwestern University, Division of Pulmonary and Critical Care Medicine, Feinberg School of Medicine, 240 E. Huron Avenue, McGaw 2336, Chicago, IL 60611, USA. [email protected]
Pages 127-140 | Published online: 23 Feb 2005

Bibliography

  • GUY J, DRABEK D, ANTONIOU M:Delivery of DNA into mammalian cells by receptor-mediated endocytosis and gene therapy. MM. Biotechnol (1995) 3(3):237–248.
  • BALLY MB, HARVIE P, WONG FM et al.: Biological barriers to cellular delivery of lipid-based DNA carriers. Adv. Drug Deify. Rev (1999) 38(3):291–315.
  • WEAVER JC, CHIZMADZHEV YA: Theory of electroporation: a review. Bioelectrochemistry and Bioenergetics (1996) 41(2):135–160.
  • NIIDOME T, HUANG L: Gene therapy progress and prospects: nonviral vectors. Gene Ther: (2002) 9(24):1647–1652.
  • LECHARDEUR D, LUKACS GL: Intracellular barriers to non-viral gene transfer. Carr. Gene Ther. (2002) 2(2):183–194.
  • WIETHOFF CM, MIDDAUGH CR: Barriers to nonviral gene delivery. Pharm. Sci. (2003) 92(2):203–217.
  • VANDEN BERGHE P, HENNIG GW, SMITH TK: Characteristics of intermittent mitochondrial transport in guinea pig enteric nerve fibers. Am. Physiol Gastrointest Liver Physiol (2004) 286(4):671–682.
  • Moulton FR (Ed.), Science Press, Washington, DC, USA (1940):20–30.
  • GOODSELL DS: The machinery of life. Springer-Verlag, New York (1993):140.
  • ••This book effectively illustrates the 3-dimensional complexity of cellular proteins and their interactions with one another.
  • HOU L, LANNI F, LUBY-PHELPS K: Tracer diffusion in F-actin and Ficoll mixtures. Toward a model for cytoplasm. Biophys. (1990) 58(1):31–43.
  • LUBY-PHELPS K: Cytoarchitecture and physical properties of cytoplasm: volume, viscosity, diffusion, intracellular surface area. Int. Rev Cytol. (2000) 192:189–221.
  • ••This is a comprehensive review of therheological properties of the cytoplasm that discusses the classical assumptions made about the cytoplasm and experimental results from several authors in this field.
  • FUSHIMI K, VERKMAN AS: Low viscosity in the aqueous domain of cell cytoplasm measured by picosecond polarization microfluorimetry. I Cell Biol. (1991) 112(4):719–725.
  • LUBY-PHELPS K, MUJUMDAR S, MUJUMDAR RB et al.: A novel fluorescence ratiometric method confirms the low solvent viscosity of the cytoplasm. Biophys. (1993) 65(1):236–242.
  • •A novel technique using two indocyanine dyes to determine solute viscosity that is insensitive to other parameters such as temperature, hydrogen bonds, and most importantly large macromolecules. These experiments showed that the solvent viscosity of the cytoplasm is not radically different from water.
  • LUKACS GL, HAGGIE P, SEKSEK O et al.: Size-dependent DNA mobility in cytoplasm and nucleus.' Biol. Chem. (2000) 275(3):1625–1609.
  • •A rigorous examination of DNA mobility through the cytoplasm, indicating that larger DNA fragments are unable to diffuse through the cytoplasm passively.
  • SEKSEK O, BIWERSI J, VERKMAN AS:Translational diffusion of macromolecule-sized solutes in cytoplasm and nucleus. Cell Biol. (1997) 138(1):131–412.
  • LUBY-PHELPS K, CASTLE PE, TAYLOR DL, LANNI F: Hindered diffusion of inert tracer particles in the cytoplasm of mouse 3T3 cells. Proc. Natl. Acad. ScL USA (1987) 84(14):4910–4913.
  • POPOV S, POO MM: Diffusional transport of macromolecules in developing nerve processes. Neurosci. (1992) 12(1):77–85.
  • •This article indicates that, at least in the case of neurons, the cytoskeleton, specifically actin, can affect diffusion of large macromolecules.
  • PROVANCE DW Jr, MCDOWALL A, MARKO M, LUBY-PHELPS K: Cytoarchitecture of size-excluding compartments in living cells. Cell Sci. (1993) 106(2):565–577.
  • RIVELINE D, WIGGINS CH, GOLDSTEIN RE, OTT A: Elastohydrodynamic study of actin filaments using fluorescence microscopy. Physical Review E (1997) 56(2):1330–1333.
  • ISAMBERT H, MAGGS AC: Dynamics and rheology of actin solutions. Macromolecules (1996) 29(3):1036–1040.
  • BOAL DH: Mechanics of the cell. Cambridge University Press, Cambridge, UK (2002):406.
  • PORTER KR: The cytomatrix: a short history of its study. Cell Biol. (1984) 99(1,2):3s–12s.
  • LECHARDEUR D, SOHN KJ, HAARDT M et al.: Metabolic instability of plasmid DNA in the cytosol: a potential barrier to gene transfer. Gene Ther: (1999) 6:482–497.
  • HOPE MJ, MUI B, ANSELL S, AHKONG QF: Cationic lipids, phosphatidylethanolamine and the intracellular delivery of polymeric, nucleic acid-based drugs (review). Mol. Membr: Biol. (1998) 15(1):1–14.
  • XU Y, SZOKA FCJ: Mechanism of DNA release from cationic liposome/DNA complexes used in cell transfection. Biochemistry (1996) 35:5616–5623.
  • COONROD A, LI FQ, HORWITZ M: On the mechanism of DNA transfection: efficient gene transfer without viruses. Gene The]: (1997) 4(12):1313–1321.
  • ••A novel finding with evidence that genedelivery through the endosomal-lysosomal pathway may actually travel through the lysosome, offering an alterative pathway for plasmid trafficking through the cytoplasm.
  • ZABNER J, FASBENDER AJ, MONINGER T, POELLINGER KA, WELSH MJ: Cellular and molecular barriers to gene transfer by a cationic lipid. Biol. Chem. (1995) 270:18997–19007.
  • ••This is an outstanding article that was oneof the first to dissect the gene transfer process of lipid-mediated gene transfer in cultured cells. A variety of techniques were employed to identify and partially characterise the rate-limiting steps in the gene transfer process.
  • ZHOU X, HUANG L: DNA transfection mediated by cationic liposomes containing lipopolylysine: characterization and mechanism of action. Biochim. Biophys. Acta (1994) 1189(2):195–203.
  • EL OUAHABI A, THIRY M, PECTOR V et al.: The role of endosome destabilizing activity in the gene transfer process mediated by cationic lipids. FEBS Lett. (1997) 414(2):187–192.
  • ZAUNER W, KICHLER A, SCHMIDT W, MECHTLER K, WAGNER E: Glycerol and polylysine synergize in their ability to rupture vesicular membranes: a mechanism for increased transferrin-polylysine-mediated gene transfer. Exp. Cell Res. (1997) 232(1):137–145.
  • WHITTAKER GR: Virus nuclear import. Adv. Drug Deify. Rev. (2003) 55(6):733–747.
  • CAMPBELL EM, HOPE TJ: Role of the cytoskeleton in nuclear import. Adv. Drug Deliv. Rev. (2003) 55(6):761–771.
  • •An excellent review on the cytoskeleton and its role in nuclear import of viral genomes.
  • STID WILL RP, GREBER UF: Intracellularvirus trafficking reveals physiological characteristics of the cytoskeleton. News Physiol. ScL (2000) 15:67–71.
  • MCDONALD D, VODICKA MA, LUCERO G et al.: Visualization of the intracellular behavior of HIV in living cells. Cell Biol. (2002) 159(3):441–452.
  • •An excellent article demonstrating the intracellular trafficking of HIV through cells. These experiments showed the dependence of HIV on the retrograde motor dynein for translocation through the cytoplasm to the nucleus.
  • SUOMALAINEN M, NAKANO MY, KELLER S et al.: Microtubule-dependent plus- and minus end-directed motilities are competing processes for nuclear targeting of adenovirus. Cell Biol. (1999) 144(4):657–672.
  • LEOPOLD PL, KREITZER G, MIYAZAWA N et al.: Dynein- and microtubule-mediated translocation of adenovirus serotype 5 occurs after endosomal lysis. Hum. Gene The]: (2000) 11(1):151–165.
  • •An excellent examination of microtubule motor dynamics and how various cytoskeletal inhibitors and stabilising agents affect adenoviral movement through the cytoplasm of A549 cells.
  • SUIKKANEN S, AALTONEN T, NEVALAINEN M et al.: Exploitation of microtubule cytoskeleton and dynein during parvoviral traffic toward the nucleus. Virol (2003) 77(19):10270–10279.
  • SODEIK B, EBERSOLD MW, HELENIUS A: Microtubule-mediated transport of incoming herpes simplex virus 1 capsids to the nucleus. .I. Cell Biol. (1997) 136(5):1007–1021.
  • VAN LOO ND, FORTUNATI E, EHLERT E et al.: Baculovirus infection of nondividing mammalian cells: mechanisms of entry and nuclear transport of capsids. Virol (2001) 75(2):961–970.
  • GLOTZER JB, MICHOU Al, BAKER A, SALTIK M, COTTEN M: Microtubule-independent motility and nuclear targeting of adenoviruses with fluorescently labeled genomes. Virol (2001) 75:2421–2434.
  • DEAN DA: Import of plasmid DNA into the nucleus is sequence specific. Exp. Cell Res. (1997) 230:293–302.
  • •This was the first paper to demonstrate that the nuclear import of plasmids is a sequence-specific process.
  • DEAN DA, DEAN BS, MULLER S, SMITH LC: Sequence requirements for plasmid nuclear entry. Exp. Cell Res. (1999) 253:713–722.
  • ••This work characterised the DNAsequence elements that are required for plasmid nuclear import in non-dividing cells, and showed that whereas transcription factor binding sites within the SV40 enhancer are needed for nuclear import, not all promoters or enhancers containing binding sites for transcription factors can function to target plasmids to the nucleus.
  • WILSON GL, DEAN BS, WANG G, DEAN DA: Nuclear import of plasmid DNA in digitonin-permeabilized cells requires both cytoplasmic factors and specific DNA sequences.j Biol. Chem. (1999) 274:22025–22032.
  • VACIK J, DEAN BS, ZIMMER WE, DEAN DA: Cell-specific nuclear import of plasmid DNA. Gene The]: (1999) 6:1006–1014.
  • •This was the first paper to identify and characterise a cell-specific DNA nuclear import sequence that functions uniquely in one cell type.
  • MESIKA A, GRIGOREVA I, ZOHAR M, REICH Z: A regulated, NFkappaB-assisted import of plasmid DNA into mammalian cell nuclei. MM. The]: (2001) 3(5):653–657.
  • LANGLE-ROUAULT F, PATZEL V, BENAVENTE A et al.: Up to 100-fold increase of apparent gene expression in the presence of Epstein-Barr virus oriP sequences and EBNAl: implications of the nuclear import of plasmids. Vim/. (1998) 72(7):6181–6185.
  • BRISSON M, TSENG WC, ALMONTE C, WATKINS S, HUANG L: Subcellular trafficking of the cytoplasmic expression system. Hum. Gene Ther. (1999) 10(16):2601–2613.
  • BRISSON M, HE Y, LI S, YANG JP, HUANG L: A novel T7 RNA polymerase autogene for efficient cytoplasmic expression of target genes. Gene Tiler: (1999) 6(2):263–270.
  • CHEN X, LI Y, XIONG K, WAGNER TE: A self-initiating eukaryotic transient gene expression system based on contransfection of bacteriophage T7 RNA polymerase and DNA vectors containing a T7 autogene. Nucleic Acids Res. (1994) 22(11):2114–2120.
  • CAPECCHI MR: High efficiency transformation by direct microinjection of DNA into cultured mammalian cells. Cell (1980) 22(2 Pt 2):479–488.
  • •This seminal work demonstrated that plasmids injected into the nuclei of cells express robustly, whereas the same plasmids injected into the cytoplasm of non-dividing cells fail to express their gene product. This was the first paper to demonstrate truly that transport of plasmids into the nucleus is perhaps the rate limiting step in gene delivery.
  • GRAESSMAN M, MENNE J, LIEBLER M, GRAEBER I, GRAESSMAN A: Helper activity for gene expression, a novel function of the 5V40 enhancer. Nucleic Acids Res. (1989) 17:6603–6612.
  • MIRZAYANS R, REMY AA, MALCOM PC: Differential expression and stability of foreign genes introduced into human fibroblasts by nuclear versus cytoplasmic microinjection. Mutation Res. (1992) 281:115–122.
  • THORNBURN AM, ALBERTS AS: Efficient expression of miniprep plasmid DNA after needle micro-injection into somatic cells. Biotechniques (1993) 1 4:356–358.
  • GRAESSMAN M, GRAESSMAN A: Regulation of 5V40 gene expression. Adv. Cancer Res. (1981) 35:111–149.
  • KOPCHICK JJ, JU G, SKALKA AM, STACEY DW: Biological activity of cloned retroviral DNA in microinjected cells. Proc. Nati Acad. Sci. USA (1981) 78(7):4383–4387.
  • NAKANISHI A, CLEVER J, YAMADA M, LI PL, KASAMATSU H: Association with capsid proteins promotes nuclear targeting of simian virus 40. Proc. Nati Acad. Sci. USA (1996) 93:96–100.
  • FASBENDER A, ZABNER J, ZEIHER BG, WELSH MJ: A low rate of cell proliferation and reduced DNA uptake limit cationic lipid-mediated gene transfer to primary cultures of ciliated human airway epithelia. Gene Ther. (1997) 4:1173–1180.
  • BRUNNER S, SAUER T, CAROTTA S et al.: Cell cycle dependence of gene transfer by lipoplex, polyplex and recombinant adenovirus. Gene The]: (2000) 7:401–407.
  • •This paper demonstrates the cell cycle dependence of gene transfer.
  • JAMES MB, GIORGIO TD: Nuclear-associated plasmid, but not cell-associated plasmid, is correlated with transgene expression in cultured mammalian cells. MM. Ther. (2000) 1(4):339–346.
  • •This paper takes a quantitative approach to define the relative cellular and nuclear uptake of plasmids to begin to develop quantitative models for gene delivery.
  • CLEVER JL, DEAN DA, KASAMATSU H: Identification of a DNA-binding domain within the simian virus 40 capsid proteins Vp2 and Vp3. J. Biol. Chem. (1993) 268:20877–20883.
  • KASAMATSU H, NAKANISHI A: How do animal DNA viruses get to the nucleus? Ann. Rev Microbial. (1998) 52:627–686.
  • WHITTAKER GR, HELENIUS A: Nuclear import and export of viruses and virus genomes. Virology (1998) 246(1):1–23.
  • CULLEN BR: Journey to the center of the cell. Cell (2001) 105: 697–700.
  • ZUPAN J, MUTH TR, DRAPER O, ZAMBRYSKI P: The transfer of DNA from agrobacterium tumefaciens into plants: a feast of fundamental insights. Plant J. (2000) 23(1):11–28.
  • DOWTY ME, WILLIAMS P, ZHANG G, HAGSTROM JE, WOLFF JA: Plasmid DNA entry into postmitotic nuclei of primary rat myotubes. Proc. Natl. Acad. Sci. USA (1995) 92:4572–4576.
  • ••This was the first paper to demonstratethat plasmids can enter the nuclei of non-dividing cells by way of the nuclear pore complex.
  • DEAN BS, BYRD JN Jr, DEAN DA: Nuclear targeting of plasmid DNA in human corneal cells. Cur. Eye Res. (1999) 19:66–75.
  • LI S, MACLAUGHLIN FC, FEWELL JG et al.: Muscle-specific enhancement of gene expression by incorporation of the SV40 enhancer in the expression plasmid. Gene Ther. (2001) 8:494–497.
  • BLOMBERG P, ESKANDARPOUR M, XIA S, SYLVEN C, ISLAM KB: Electroporation in combination with a plasmid vector containing 5V40 enhancer elements results in increased and persistent gene expression in mouse muscle. Biochem. Biophys. Res. Commun. (2002) 298(4):505–510.
  • YOUNG JL, DEAN DA: Non-viral gene transfer strategies for the vasculature. Microcirculation Res (2002) 9:35–50.
  • MARTIN JB, YOUNG JL, BENOIT JN, DEAN DA: Gene transfer to intact mesenteric arteries by electroporation. J. Vase. Res. (2000) 37(5):372–380.
  • YOUNG JL, BENOIT JN, DEAN DA: Effect of a DNA nuclear targeting sequence on gene transfer and expression of plasmids in the intact vasculature. Gene The]: (2003) 10(17):1465–1470.
  • •This paper showed that sequence-specific DNA nuclear import occurs in living animals, not just in cultured cells.
  • WOLFF JA, MALONE RW, WILLIAMS P et al.: Direct gene transfer into mouse muscle M vivo. Science (1990) 247:1465–1468.
  • ••This work was the first to show that naked,uncomplexed plasmids could be injected into mouse skeletal muscle to drive robust gene expression. This finding and paper provided the basis for all subsequent studies on the use of naked DNA injection into muscle for DNA vaccines and other uses.
  • WOLFF JA, LUDTKE JJ, ACSADI G, WILLIAMS P, JANI A: Long-term persistence of plasmid DNA and foreign gene expression in mouse muscle. Hum. MM. Genetics (1992) 1:363–369.
  • •This paper demonstrated that once in the nuclei of skeletal muscle cells, plasmids are retained in an episomal form and continue to express for up to 19 months in mice following direct DNA injection into muscle.
  • WOLFF JA, DOWTY ME, _RAO S et al.: Expression of naked plasmids by cultured myotubes and entry into T tubules and caveolae of mammalian skeletal muscle. .1. Cell Sci. (1992) 103:1249–1253.
  • UTVIK JK, NJA A, GUNDERSEN K: DNA injection into single cells of intact mice. Hum. Gene The]: (1999) 10(2):291–300.
  • DYNAN WS, CHERVITZ SA: Characterization of a minimal simian virus 40 late promoter: enhancer elements in the 72-base-pair repeat not required. .1. Virol (1989) 63:1420–1427.
  • DYNAN WS, TJIAN R: The promoter-specific transcription factor Spl binds to upstream sequences in the SV40 early promoter. Cell (1983) 35:79–87.
  • WILDEMAN AG: Regulation of SV40 early gene expression. Biochem. Cell Biol. (1988) 66(6):567–577.
  • Mahato RI (Ed.), Harwood Academic Publishers, London, UK (2002):229–260.
  • BROWNING CL, CULBERSON DE, ARAGON IV et al.: The developmentally regulated expression of serum response factor plays a key role in the control of smooth muscle-specific genes. Dev. Bid. (1998) 194(1):18–37.
  • CARSON JA, FILLMORE RA, SCHWARTZ RJ, ZIMMER WE: The smooth muscle gamma-actin gene promoter is a molecular target for the mouse bagpipe homologue, mNkx3-1, and serum response factor. Biol. Chem. (2000) 275(50):39061–39072.
  • KOVACS AM, ZIMMER WE: Cell specific transcription of the smooth muscle y-actin gene requires both positive and negative acting cis-elements. Gene Exp. (1998) 7:115–129.
  • HAGSTROM JE, LUDTKE JJ, BASSIK MC et al.: Nuclear import of DNA in digitonin-permeabilized cells. .1. Cell Sci. (1997) 110:2323–2331.
  • SEBESTYEN MG, LUDTKE JL, BASSIK MC et al.: DNA vector chemistry: the covalent attachment of signal peptides to plasmid DNA. Nature Biotech. (1998) 16:80–85.
  • ADAM SA, MARR RS, GERACE L: Nuclear protein import in permeabilized mammalian cells requires soluble cytoplasmic factors. Cell Biol. (1990) 111:807–816.
  • •This paper established the permeabilised cell system for studying signal-mediated protein, RNA and DNA nuclear import and export.
  • COLIN M, MORITZ S, FONTANGES P et al.: The nuclear pore complex is involved in nuclear transfer of plasmid DNA condensed with an oligolysine-RGD peptide containing nuclear localisation properties. Gene Ther. (2001) 8(21):1643–1653.
  • HEBERT E: Improvement of exogenous DNA nuclear importation by nuclear localization signal-bearing vectors: a promising way for non-viral gene therapy? Biol. Cell (2003) 95(2):59–68.
  • ESCRIOU V, CARRIERE M, SCHERMAN D, WILS P: NLS bioconjugates for targeting therapeutic genes to the nucleus. Adv. Drug Deify. Rev. (2003) 55(2):295–306.
  • BOTTGER M, ZAITSEV SV, OTTO A, HABERLAND A, VOROB'EV VI: Acid nuclear extracts as mediators of gene transfer and expression. Biochim. Biophys. Acta (1998) 1395(1):78–87.
  • FRITZ JD, HERWEIJER H, ZHANG G, WOLFF JA: Gene transfer into mammalian cells using histone-condensed plasmid DNA. Hum. Gene Ther. (1996) 7(12):1395–1404.
  • HAGSTROM JE, SEBESTYEN MG, BUDKER V et al.: Complexes of non-cationic liposomes and histone H1 mediate efficient transfection of DNA without encapsulation. Biochim. Biophys. Acta (1996) 1284(1):47–55.
  • COLLAS P, ALESTROM P: Nuclear localization signal of 5V40 T antigen directs import of plasmid DNA into sea urchin male pronuclei M vitro. Md. Reprod. Dev. (1996) 45(4):431–438.
  • COLLAS P, HUSEBYE H, ALESTROM P: The nuclear localization sequence of the 5V40 T antigen promotes transgene uptake and expression in zebrafish embryo nuclei. Transgenic Res. (1996) 5(6):451–458.
  • COLLAS P, ALESTROM P: Nuclear localization signals: a driving force for nuclear transport of plasmid DNA in zebrafish. Biochem. Cell Bid. (1997) 75(5):633–640.
  • COLLAS P, ALESTROM P: Rapid targeting of plasmid DNA to zebrafish embryo nuclei by the nuclear localization signal of SV40 T antigen. Mol Mar. Biol. Biotechnol (1997) 6(1):48–58.
  • ARONSOHN Al, HUGHES JA: Nuclear localization signal peptides enhance cationic liposome-mediated gene therapy. Drug Target. (1998) 5(3):163–169.
  • LUDTKE JJ, ZHANG G, SEBESTYEN MG, WOLFF JA: A nuclear localization signal can enhance both the nuclear transport and expression of 1 kb DNA.' Cell ScL (1999) 112(Pt 12):2033–2041.
  • ZANTA MA, BELGUISE-VALLADIER P, BEHR JP: Gene delivery: a single nuclear localization signal peptide is sufficient to carry DNA to the cell nucleus. Proc. Natl. Acad. Sd. USA (1999) 96(1):91–96.
  • SUBRAMANIAN A, RANGANATHAN P, DIAMOND SL: Nuclear targeting peptide scaffolds for lipofection of nondividing mammalian cells. Nat. Biotechnol (1999) 17(9):873–877.
  • CHAN CK, JANS DA: Enhancement of polylysine-mediated transferrinfection by nuclear localization sequences: polylysine does not function as a nuclear localization sequence. Hum. Gene The,: (1999) 10(10):1695–1702.
  • CIOLINA C, BYK G, BLANCHE F et al: Coupling of nuclear localization signals to plasmid DNA and specific interaction of the conjugates with importin alpha. Bioconjug. Chem. (1999) 10(1):49–55.
  • NEVES C, BYK G, SCHERMAN D, WILS P: Coupling of a targeting peptide to plasmid DNA by covalent triple helix formation. FEBS Lett. (1999) 453(1-2):41–45.
  • DEAN DA: Peptide nucleic acids: versatile tools for gene therapy strategies. Adv. Drug Deify. Rev (2000) 44(2-3):81–95.
  • KOPPELHUS U, NIELSEN PE: Cellular delivery of peptide nucleic acid (PNA). Adv. Drug Deify. Rev (2003) 55(2):267–280.
  • ZELPHATI O, LIANG X, NGUYEN C et al.: PNA-dependent gene chemistry: stable coupling of peptides and oligonucleotides to plasmid DNA. Biotechniques (2000) 28:304–316.
  • •This paper demonstrated that peptides and other molecules could be efficiently attached to plasmids using PNA clamps to increase gene transfer or aid in the study of DNA trafficking.
  • ZELPHATI O, LIANG X, HOBART P, FELGNER PL: Gene chemistry: functionally and conformationally intact fluorescent plasmid DNA. Hum. Gene Tiler. (1999) 10(1):15–24.
  • •This was the first paper to demonstrate that PNA clamps could be used to fluorescently tag plasmids without altering their structure, function or transcriptional activity. This was a major accomplishment and provided an excellent set of reagents for the study of DNA trafficking in cells.
  • BRANDEN LJ, MOHAMED AJ, SMITH CI: A peptide nucleic acid-nuclear localization signal fusion that mediates nuclear transport of DNA. Nat. Biotechnol (1999) 17(8):784–787.
  • BRANDEN LJ, CHRISTENSSON B, SMITH CI: In vivo nuclear delivery of oligonucleotides via hybridizing bifunctional peptides. Gene The]: (2001) 8(1):84–87.
  • LIANG KW, HOFFMAN EP, HUANG L: Targeted delivery of plasmid DNA to myogenic cells via transferrin-conjugated peptide nucleic acid. Mol The]: (2000) 1(3):236–243.
  • MORRIS MC, CHALOIN L, CHOOB M et al.: Combination of a new generation of PNAs with a peptide-based carrier enables efficient targeting of cell cycle progression. Gene The,: (2004) 11(9):757–764.
  • WIETHOFF CM, SMITH JG, KOE GS, MIDDAUGH CR: The potential role of proteoglycans in cationic lipid-mediated gene delivery. Studies of the interaction of cationic lipid-DNA complexes with model glycosaminoglycans. Biol. Chem. (2001) 276(35):32806–32813.
  • POLLARD H, REMY JS, LOUSSOUARN G et al.: Polyethyleniminebut not cationic lipids promotes transgenedelivery to the nucleus in mammalian cells.Biol. Chem. (1998) 273(13):7507–7511.
  • GODBEY WT, WU KK, MIKOS AG: Tracking the intracellular path of poly(ethylenimine)/DNA complexes for gene delivery. Proc. Nati Acad. Sci. USA (1999) 96(9):5177–5181.
  • THOMAS M, KLIBANOV AM: Conjugation to gold nanoparticles enhances polyethylenimine's transfer of plasmid DNA into mammalian cells. Proc. Nati Acad. Sci. USA (2003) 100(16):9138–9143.
  • OH YK, SUH D, KIM JM et al: Polyethylenimine-mediated cellular uptake, nucleus trafficking and expression of cytokine plasmid DNA. Gene The]: (2002) 9(23):1627–1632.
  • HARTIG R, SHOEMAN RL, JANETZKO A, GRUB S, TRAUB P: Active nuclear import of single-stranded oligonucleotides and their complexes with non-karyophilic macromolecules [In Process Citation]. Biol. Cell (1998) 90(5):407–426.
  • HARTIG R, SHOEMAN RL, JANETZKO A, TOLSTONOG G, TRAUB P: DNA-mediated transport of the intermediate filament protein vimentin into the nucleus of cultured cells. Cell Sci. (1998) 111(Pt 24):3573–3584.
  • FRIEND DS, PAPAHADJOPOULOS D, DEBS RJ: Endocytosis and intracellular processing accompanying transfection mediated by cationic liposomes. Biochim. Biophys. Acta (1996) 1278(1):41–50.
  • KARTENBECK J, STUKENBROK H, HELENIUS A: Endocytosis of simian virus 40 into the endoplasmic reticulum. I Cell Biol. (1989) 109:2721–2729.
  • DAHLGREN U, KEPNER WA: Principles of animal histology Macmillan Company, New York (1908):515.

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