Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.7.48 (transcriptase)
 9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

RNA silencing is a sequence-specific RNA degradation mechanism found in most eukaryotes, where small cleavage products (siRNAs) of double stranded RNA (dsRNA) mediate silencing of genes with sequence identity to the dsRNA inducer. In several systems, silencing has been found to spread from the dsRNA inducer sequence into upstream or downstream regions of the target RNA, a phenomenon termed transitive silencing. In nematodes, silencing spreads only in the 3'-5' direction along the target mRNA by siRNAs serving as primers for cRNA synthesis by RNA-dependent RNA polymerase. In plants, transitive silencing is seen in both directions suggesting that at least some cRNA synthesis occurs by un-primed initiation at the 3' end of mRNAs. Replicating plant viruses trigger an RNA silencing defence response that degrades the viral RNA, thus tempering the virus infection. Likewise, fragments of plant genes inserted into a virus will become targets for degradation, leading to virus-induced gene silencing (VIGS) of the homologous plant mRNAs. We have analyzed the spreading of gene silencing in VIGS experiments using a transgene and two endogenous genes as targets. In Nicotiana benthamiana plants expressing a beta-glucuronidase (GUS) transgene, a Potato virus X vector carrying a 5' fragment of the GUS gene induced silencing which spread to downstream regions of the transgene mRNA including the 3'-untranslated region. Conversely, silencing induced by a 3' fragment spread only for a limited distance in the 3'-5' direction. Silencing induced by a central GUS gene fragment spread only into downstream regions. Similar analyses using the endogenous plant genes, magnesium chelatase subunit I (ChlI) and an RNase L inhibitor homologue (RLIh), revealed no spreading along target sequences. This implies that transitive silencing in plants occurs by un-primed cRNA synthesis from the 3' end of targeted (transgene) transcripts, and not by siRNA-primed cRNA synthesis.
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PMID:Evidence implying only unprimed RdRP activity during transitive gene silencing in plants. 1602 40

Recombinant plant viruses have the propensity to remove foreign inserts during replication. This process is virus-specific and occurs in a host-dependent manner. In the present study, we investigated the integrity of foreign inserts in recombinant plant viruses using a model system consisting of Tomato bushy stunt virus (TBSV) and its defective interfering RNA (DI). These were tested in Nicotiana benthamiana plants that were either wild type or transgenic for the green fluorescent protein (GFP) gene. GFP-derived inserts were retained in the recombinant TBSV and DI population that were inoculated onto GFP-transgenic N. benthamiana plants in which silencing of the GFP transgene was initiated, but they were removed from the virus and DIs that were maintained on wild-type plants. A foreign insert derived from an endogenous N. benthamiana gene encoding the H subunit of the magnesium chelatase (NbChlH) was deleted, whereas the fragment of an RNA-dependent RNA polymerase gene (NbRdRP1m) was retained in the recombinant TBSV population. These results demonstrate that the recombination of TBSV to remove nonviral fragments is influenced by silencing and the type of inserts.
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PMID:Integrity of nonviral fragments in recombinant Tomato bushy stunt virus and defective interfering RNA is influenced by silencing and the type of inserts. 1613 92

Previously we described Tomato bushy stunt virus (TBSV) vectors, which retained their capsid protein gene and were engineered with magnesium chelatase (ChlH) and phytoene desaturase (PDS) gene sequences from Nicotiana benthamiana. Upon plant infection, these vectors eventually lost the inserted sequences, presumably as a result of recombination. Here, we modified the same vectors to also contain the plant miR171 or miR159 target sequences immediately 3' of the silencing inserts. We inoculated N. benthamiana plants and sequenced recombinant RNAs recovered from noninoculated upper leaves. We found that while some of the recombinant RNAs retained the microRNA (miRNA) target sites, most retained only the 3' 10 and 13 nucleotides of the two original plant miRNA target sequences, indicating in planta miRNA-guided RNA-induced silencing complex cleavage of the recombinant TBSV RNAs. In addition, recovered RNAs also contained various fragments of the original sequence (ChlH and PDS) upstream of the miRNA cleavage site, suggesting that the 3' portion of the miRNA-cleaved TBSV RNAs served as a template for negative-strand RNA synthesis by the TBSV RNA-dependent RNA polymerase (RdRp), followed by template switching by the RdRp and continued RNA synthesis resulting in loss of nonessential nucleotides.
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PMID:Tomato bushy stunt virus recombination guided by introduced microRNA target sequences. 1964 Sep 75