Christoffersen et al. "Ribozymes as human therapeutic agents" J. Med. Chem. 38(12): 2023-2037, Jun. 1995. |
Ghosh et al. "Use of Maledimide-thiol coupling chemistry for efficient synthesis of oligonucleotide-enzyme conjugate hybridization probes" Bioconjugate Chem. 1(1): 71-77, Jan. 1990. |
Gura. "Antisense has growing pains" Science 270: 575-577, Oct. 1995. |
Stull et al. "Antigene, ribozyme and aptamer nucleic acid drug design: Progress and prospects" Pharm. Res. 12(4): 465-483, Apr. 1995. |
Ballantyne et al., "Nucleotide Sequence of the cDNA for Murine Intercellular Adhesion Molecule-1 (ICAM-1)," Nucleic Acids Research 17:5853 (1989). |
Bainaga, "Ribozymes: Killing the Messenger," Science 262:1512:1514 (1993). |
Cech, "Ribozymes and Their Medical Implications" JAMA 260:3030-3034 (1988). |
Cotten, "The in vivo Application of Ribozymes," TIBTECH 8;174-178 (1990). |
Collins et al., "Reaction Conditions and Kinetics of Self-Cleavage of a Riboyme Derived From Neurospora VS RNA," Biochemistry 32:2795-2799 (1993). |
Edington, "Ribozymes: Stop Making Sense," Biotechnology 10:256-262 (1992). |
Guerrier-Takada et al., " The RNA Moiety of Ribonuclease P Is the Catalytic Subunit of the Enzyme," Cell 35:849-857 (1983). |
Hampel et al., "Hairpin' Catalytic RNA Model: Evidence for Helices and Sequence Requirement for Substrate RNA", Nucleic Acids Research 18:299-304 (1990). |
Hampel et al., "RNA Catalytic Properties of the Minimum (-)sTRSV Sequence," Biochemistry 28:4929-4933 (1989). |
Haralambidis et al., "The Solid Phase Synthesis of Oligonucleotides Containig a 3'- Peptide Moiety," Tetrahedon Lett. 28:5199-5202 (1987). |
Haseloff et al., "Simple RNA Enzymes with New and Highly Specific Endoribonuclease Activities," Nature 334-585-591 (1988). |
Jeffries et al., "A Catalytic 13-mer Ribozyme," Nucleic Acids Research 17:1371-1377 (1989). |
Kim et al., "Three-dimensional Model of the Active Site of the Self-Splicing rRNA Precursor of Tetrahymena," Proc. Natl. Acad. Sci. USA 84:8788-8792 (1987). |
Kita et al., "Sequence and Expression of Rat ICAM-1," Biochem. Biophys. Acta 1131:108-110 (1992). |
Mag et al., "Synthesis and Selective Cleavage of Oligodeoxyribonucleotides Containing Non-Chiral Internucleotide Phosphormidate Linkages," Nucleic Acids Research 17:5973-5989 (1989). |
Perreault et al., "Mixed Deoxyribo- and Ribo-Oligonucleotides with Catalytic Activity," Nature 344:565-567 (1990). |
Perrotta et al., "Cleavage of Oligoribonucleotides by a Ribozyme Derived from the Hepatitis .delta. Virus RNA Sequence," Biochemistry 31:16-21 (1992). |
Pieken et al., "Kinetic Characterization of Ribonuclease-Resistant 2'-Modified Hammerhead Ribozymes," Science 253:314-317 (1991). |
Rossi et al., "Ribozymes as Anti-HIV-1 Therapeutic Agents: Principles, Applictions, and Problems," Aids Research and Human Retroviruses 8:183 (1992). |
Saville et al., "A Site-Specific Self-Cleavage Reaction Performed by a Novel RNA In Nuerospora Mitochondria," Cell 61:685-696 (1990). |
Saville et al., "RNA-Mediated Ligation of Self-Cleavage Products of a Neurospora Mitochondrial Plasmid Transcript," Proc. Natl. Acad. Sci. USA 88:8826-8830 (1991). |
Scaromge et al., "Chemical Synthesis of Biologically Active Oligoribonucleotides using .beta.-cyanoethyl Protected Ribonucleoside Phosphoramidites," Nucl Acids Res. 18:5433-5441 (1990). |
Simons et al., "ICAM, an Adhesion Ligand of LFA-1, is Homologour to the Neutral Cell Adhesion Molecule NCAM," Nature 331:624-627 (1989). |
Uhlenbeck, "A Small Catalytic Oligoribonucleotide," Nature 328:596-600 (1987). |
Uhlmann et al., "Antisense Oligonucleotides: A New Therapeutic Principle," Chem. Rev. 90:542-585 (1990). |
Usman et al., "Automated Chemical Synthesis of Long Oligoribonucleotides Using 2'-O-Silylated Ribonucleoside 3'-O-Phosphoramidites on a Controlled-Pore Glass Support: Synthesis of a 43-Nucleotide Sequence Similar to the 3'-Half Molecule of an Escherichia coli Formulmethoionine tRNA," J. Am. Chem. Soc. 109:7845-7854 (1987). |
Usman et al., "Exploiting the Chemical Synthesis of RNA," TIBS 17:334-339 (1992). |