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Abstract
Cleavage of two types of secondary structure-forming substrates by their cognate hammerhead ribozymes were studied by measuring their kinetic parameters. A substrate with a self-complementary structure (GGUCCUAGGA, CL-3) was slowly cleaved by a two-stranded ribozyme. An isomer having no complementary sequence (GGUCGUAGCA, CL-3N) was cleaved more than 10 times faster than the self-complementary substrate. A newly designed ribozyme which contained a stable loop and stem cleaved the self-complementary decamer 40 times faster than the two-stranded ribozyme. A 15 mer which derived from a ras mRNA was found to have an intermolecular base pairs and was used to design more efficient ribozymes. Gel mobility shift assay was employed to investigate the binding properties of substrates to ribozymes. Investigations of the thermodynamic stability of the ribozyme-substrate complex are essential in the design of ribozymes that efficiently cleave RNA.
#This paper is dedicated to Professor Y. Mizuno on the occasion of his 75th birthday.
Notes
#This paper is dedicated to Professor Y. Mizuno on the occasion of his 75th birthday.