RNase footprinting demonstrates antigenomic hepatitis delta virus ribozyme structural rearrangement as a result of self-cleavage reaction.

Background: Hepatitis delta virus (HDV) is a satellite virus of hepatitis B. During viral replication the 1700-nucleotide-long genomic RNA and its complement, the antigenomic RNA, undergo self-cleavage catalyzed by internal ribozyme motifs that are essential for propagation of the virus in vivo. These self-cleavage activities are provided by 85-nucleotide-long sequence elements, the genomic and antigenomic forms of HDV ribozyme.

[Interaction between RNA molecules of a two-componet trans-analog of antigenomic HDV-ribozyme].

Association of RNA molecules forming a two-component B:LS trans-analog of antigenomic HDV ribozyme was studied. From previously synthesized trans-ribozymes the B:LS ribozyme differs by length and sequence of its RNA molecules (33 and 34 bp, respectively), topology of functional parts and the absence of very short reaction product. The ribozyme displays a biphasic kinetics of self-cleavage similar to that of cis-ribozyme.

[Properties of antigenomic HDV ribozyme consisting of two RNA chains].

B : LS ribozyme, a trans-variant of naturally occurring HDV ribozyme, has been constructed. The ribozyme consists of a substrate-containing LS chain and an enzyme B chain and differs from previously constructed trans-ribozymes in the length and nucleotide sequence of its oligonucleotide chains (34 and 33 bp, respectively). The chains readily associate with each other at a room temperature while the LS cleavage reaction at this temperature is negligible slow, which allowed us to investigate the association of the intact chains.

Properties of antigenomic hepatitis delta virus ribozyme cis- and trans- analogs.

A series of permuted variants of antigenomic HDV ribozyme and trans-acting variants were constructed. The catalytic activity study of the ribozymes has shown that all the variants were capable of self-cleaving with equally biphasic kinetics. Ribonuclease and Fe(II)-EDTA cleavage have provided evidence that all designed ribozymes fold according to the pseudoknot model and the conformations of the initial and cleaved ribozyme are different.

Properties of antigenomic hepatitis delta virus ribozyme that consists of three RNA oligomer strands.

A three-strand ribozyme, a derivative of antigenomic hepatitis delta virus (HDV) ribozyme, which consists of subfragments of 16 (L), 17 (S), and 33 nucleotides (B), has been constructed. The ternary B-L-S complex formed by the subfragments in stoichiometric ratio was able to catalyze a self-cleavage reaction. Kinetics of this reaction exhibited biphasic behavior and the same parameters as in the case of natural cis-ribozyme.