Journal article
Deriving a 67-nucleotide trans-cleaving ribozyme from the hepatitis delta virus antigenomic RNA
Antisense research and development, v 2(4)
01 Jan 1992
PMID: 1292776
Abstract
RNAs derived from the genomic and antigenomic hepatitis delta virus are capable of self-cleavage, and thus have the potential for serving as ribozymes in a trans-cleaving reaction. Because the catalytic core of such an enzymatic RNA was not evident from phylogenetic data, we took a step-wise approach to identifying the core, reducing the RNA in size, and characterizing various properties for each size class. Thus, a 186-nucleotide antigenomic RNA (termed Ag180) was found to be capable of cleaving well in 20 M formamide, and this unusual stability in formamide was lost by reducing the 3' end of the molecule, leaving a 140-nucleotide RNA (Ag 140). Both RNAs showed only intramolecular cleavage at a wide range of concentrations, and a number of conformers could be seen in the Ag140 RNA, some of which were resistant to cleavage at 37 degree C. Since Ag140 could not cleave in 20 M formamide, the 5' and 3' termini of Ag180 were truncated and produced Ag5-84, which cleaved to 100% at 37 degree C in less than 0.25 min. Internal deletions of the Stem IV region resulted in Ag5-73, still capable of efficient cleavage, although with a lessened stability in formamide. A trans-cleaving enzyme-substrate pair was finally derived from this RNA, and it consisted of a 67-nucleotide enzyme that cleaved a 13-nucleotide RNA substrate.
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Details
- Title
- Deriving a 67-nucleotide trans-cleaving ribozyme from the hepatitis delta virus antigenomic RNA
- Creators
- Y Prasad - Drexel UniversityJ SmithP GottliebJ BentzG Dinter-Gottlieb
- Publication Details
- Antisense research and development, v 2(4)
- Publisher
- Mary Ann Liebert
- Resource Type
- Journal article
- Language
- English
- Academic Unit
- Biology
- Scopus ID
- 2-s2.0-0027031992
- Other Identifier
- 991019173797604721