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63. Das SR, Piccirilli JA. General acid catalysis by the hepatitis delta virus ribozyme. Nat
Chem Biol . 2005;1:45-52.
64. Thompson JE, Raines RT. Value of general acid-base catalysis to Ribonuclease A.
J Am Chem Soc . 1994;116:5467-5468.
65. Wilson TJ, Li N-S, Lu J, Frederiksen JK, Piccirilli JA, Lilley DMJ. Nucleobase-
mediated general acid-base catalysis in the Varkud satellite ribozyme. Proc Natl Acad
Sci USA . 2010;107:11751-11756.
66. delCardayr´ SB, Raines RT. Structural determinants of enzymatic processivity. Bio-
chemistry . 1994;33:6031-6037.
67. Murray JB, Seyhan AA, Walter NG, Burke JM, Scott WG. The hammerhead, hairpin
and VS ribozymes are catalytically proficient in monovalent cations alone. Chem Biol .
1998;5:587-595.
68. Lebruska LL, Kuzmine I, Fedor MJ. Rescue of an abasic hairpin ribozyme by cationic
nucleobases. Evidence for a novel mechanism of RNA catalysis. Chem Biol .
2002;9:465-473.
69. Klostermeier D, Millar DP. Tertiary structure stability of the hairpin ribozyme in its
natural and minimal forms: different energetic contributions from a ribose zipper motif.
Biochemistry . 2001;40:11211-11218.
70. Pljevaljcic G, Millar DP, Deniz AA. Freely diffusing single hairpin ribozymes provide
insights into the role of secondary structure and partially folded states in RNA folding.
Biophys J . 2004;87:457-467.
71. Zhao Z-Y, Wilson TJ, Maxwell K, Lilley DMJ. The folding of the hairpin ribozyme:
dependence on the loops and the junction. RNA . 2000;6:1833-1846.
72. Fedor MJ. Tertiary structure stabilization promotes hairpin ribozyme ligation. Biochem-
istry . 1999;38:11040-11050.
73. Nahas MK, Wilson TJ, Hohng S, Jarvie K, Lilley DMJ, Ha T. Observation of internal
cleavage and ligation reactions of a ribozyme. Nat Struct Mol Biol . 2004;11:1107-1113.
74. Liu S, Bokinsky G, Walter NG, Zhuang X. Dissecting the multistep reaction pathway
of an RNA enzyme by single-molecule kinetic “fingerprinting” Proc Natl Acad Sci
USA . 2007;104:12634-12639.
75. Hampel A, Cowan JA. A unique mechanism for RNA catalysis: the role of metal
cofactors in hairpin ribozyme cleavage. Chem Biol . 1997;4:513-517.
76. Nesbitt S, Hegg LA, Fedor MJ. An unusual pH-independent and metal-ion-
independent mechanism for hairpin ribozyme catalysis. Chem Biol . 1997;4:619-630.
77. Young KJ, Gill F, Grasby JA. Metal ions play a passive role in the hairpin ribozyme
catalysed reaction. Nucleic Acids Res . 1997;25:3760-3766.
78. Earnshaw DJ, Gait MJ. Hairpin ribozyme cleavage catalyzed by aminoglycoside
antibiotics and the polyamine spermine in the absence of metal ions. Nucleic Acids
Res . 1998;26:5551-5561.
79. Grasby JA, Mersmann K, Singh M, Gait MJ. Purine functional groups in essential
residues of the hairpin ribozyme required for catalytic cleavage of RNA. Biochemistry
1995;34:4068-4076.
80. Pinard R, Hampel KJ, Heckman JE, et al. Functional involvement of G8 in the hairpin
ribozyme cleavage mechanism. EMBO J . 2001;20:6434-6442.
81. Shippy R, Siwkowski A, Hampel A. Mutational analysis of loops 1 and 5 of the hairpin
ribozyme. Biochemistry . 1998;37:564-570.
82. Wilson TJ, Zhao Z-Y, Maxwell K, Kontogiannis L, Lilley DMJ. Importance of specific
nucleotides in the folding of the natural form of the hairpin ribozyme. Biochemistry .
2001;40:2291-2302.
83. Kuzmin YI, Da Costa CP, Fedor MJ. Role of an active site guanine in hairpin ribozyme
catalysis probed by exogenous nucleobase rescue. J Mol Biol . 2004;340:233-251.
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