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Rational optimization of the DSL ligase ribozyme with GNRA/receptor interacting modules.


ABSTRACT: The DSL ribozyme is a class of artificial ligase ribozymes with a highly modular architecture, which catalyzes template-directed RNA ligation on a helical substrate module that can be either covalently connected (cis-DSL) or physically separated (trans-DSL) from the catalytic module. Substrate recognition by the catalytic module is promoted by one or two sets of GNRA/receptor interactions acting as clamps in the cis or trans configurations, respectively. In this study, we have rationally designed and analyzed the catalytic and self-assembly properties of several trans-DSL ribozymes with different sets of natural and artificial GNRA-receptor clamps. Two variants newly designed in this study showed significantly enhanced catalytic properties with respect of the original trans-DSL construct. While this work allows dissection of the turnover and catalytic properties of the trans-DSL ribozyme, it also emphasizes the remarkable modularity of RNA tertiary structure for nano-construction of complex functions.

SUBMITTER: Ishikawa J 

PROVIDER: S-EPMC2826975 | biostudies-literature | 2009 Oct

REPOSITORIES: biostudies-literature

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Rational optimization of the DSL ligase ribozyme with GNRA/receptor interacting modules.

Ishikawa Junya J   Matsumura Shigeyoshi S   Jaeger Luc L   Inoue Tan T   Furuta Hiroyuki H   Ikawa Yoshiya Y  

Archives of biochemistry and biophysics 20090901 2


The DSL ribozyme is a class of artificial ligase ribozymes with a highly modular architecture, which catalyzes template-directed RNA ligation on a helical substrate module that can be either covalently connected (cis-DSL) or physically separated (trans-DSL) from the catalytic module. Substrate recognition by the catalytic module is promoted by one or two sets of GNRA/receptor interactions acting as clamps in the cis or trans configurations, respectively. In this study, we have rationally designe  ...[more]

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