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Literature DB >> 11058787

Allosterically controllable maxizymes cleave mRNA with high efficiency and specificity.

Abstract

Ribozymes are small and versatile nucleic acids that can cleave RNA molecules at specific sites. However, because of the limited number of cleavable sequences on the target mRNA, in some cases conventional ribozymes do not have precise cleavage specificity. To overcome this problem, an allosteric version (a maxizyme) was developed that displayed activity and specificity in vivo. More than five custom-designed maxizymes have demonstrated sensor functions, which indicates that the technology might be broadly applicable in molecular biology and possibly in the clinic.

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Year: 2000 PMID： 11058787 DOI： 10.1016/s0167-7799(00)01498-0

Source DB: PubMed Journal: Trends Biotechnol ISSN： 0167-7799 Impact factor: 19.536

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Cited

5 in total

1. Significantly higher activity of a cytoplasmic hammerhead ribozyme than a corresponding nuclear counterpart: engineered tRNAs with an extended 3' end can be exported efficiently and specifically to the cytoplasm in mammalian cells.

Authors: T Kuwabara; M Warashina; S Koseki; M Sano; J Ohkawa; K Nakayama; K Taira
Journal: Nucleic Acids Res Date: 2001-07-01 Impact factor: 16.971

2. Measurements of weak interactions between truncated substrates and a hammerhead ribozyme by competitive kinetic analyses: implications for the design of new and efficient ribozymes with high sequence specificity.

Authors: Yasuhiro Kasai; Hideki Shizuku; Yasuomi Takagi; Masaki Warashina; Kazunari Taira
Journal: Nucleic Acids Res Date: 2002-06-01 Impact factor: 16.971

Allosterically controllable maxizymes cleave mRNA with high efficiency and specificity.

1. Significantly higher activity of a cytoplasmic hammerhead ribozyme than a corresponding nuclear counterpart: engineered tRNAs with an extended 3' end can be exported efficiently and specifically to the cytoplasm in mammalian cells.

2. Measurements of weak interactions between truncated substrates and a hammerhead ribozyme by competitive kinetic analyses: implications for the design of new and efficient ribozymes with high sequence specificity.

3. Maxizyme-mediated specific inhibition on mutant-type p53 in vitro.

4. Sensing complex regulatory networks by conformationally controlled hairpin ribozymes.

5. Zeptomole detection of a viral nucleic acid using a target-activated ribozyme.