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1 ity of a virus to replicate a rolling circle satellite RNA.
2 aphid vectors; and (d) replication of a BYDV satellite RNA.
3 knot (Psi(2)) previously identified in a TCV satellite RNA.
4 ibution among the recombining TCV-associated satellite RNAs.
5 tests is cucumber mosaic virus (CMV) and its satellite RNAs.
6                However, in this system, some satellite RNAs also intensify viral disease in particula
7                                              Satellite RNAs are the smallest infectious agents whose
8  risk associated with the use of attenuating satellite RNAs as a form of biocontrol of CMV.
9                                      satC, a satellite RNA associated with Turnip crinkle virus (TCV)
10                                 Unlike other satellite RNAs, both the plus and minus strands proved t
11                           Two subviral RNAs, satellite RNA C (satC) and defective interfering RNA G (
12 nds of Turnip Crinkle Virus (TCV)-associated satellite RNA C (satC), is a replication enhancer and re
13                                              Satellite RNAs can have a dramatic effect on the helper
14 in catalytic motif in tobacco ringspot virus satellite RNA consists of two helix-loop-helix elements
15      Plus strands of several of the most fit satellite RNAs contained insertions of CA-rich sequence
16                                     As such, satellite RNAs could be used as biocontrol agents to red
17 ral families of repetitive sequences, in the satellite RNA from the carrot red leaf luteovirus, in pl
18 ammerhead ribozymes previously were found in satellite RNAs from plant viroids and in repetitive DNA
19                                        Plant satellite RNAs generally reduce the level of helper viru
20 y plants, or by the transgenic expression of satellite RNA in transformed plants.
21                                   Support of satellite RNA in whole plants and in protoplasts of zucc
22 t able to support the replication of the WL1 satellite RNA in zucchini squash and that this phenotype
23 less abundant form of tobacco ringspot virus satellite RNA is readily reversible.
24 emonstrate that the inability to support WL1 satellite RNA maps to a single amino acid at residue 978
25        The 110 nt hammerhead ribozyme in the satellite RNA of cereal yellow dwarf virus-RPV (satRPV R
26 erived from a single-stranded 336-nucleotide satellite RNA of CMV were not amplified by either antivi
27                                We passaged a satellite RNA of CMV with its helper virus to determine
28 is delta virus (HDV) is a human pathogen and satellite RNA of the hepatitis B virus.
29                  The hairpin ribozyme in the satellite RNA of Tobacco Ringspot Virus assembles in the
30 ts investigating Cowpea mosaic virus and the satellite RNA of Tobacco ringspot virus.
31 cipates in processing intermediates of viral satellite RNA replication in plants.
32                                              Satellite RNAs (sat-RNAs) are parasites of viruses that
33                                         Many satellite RNAs (sat-RNAs) can attenuate or intensify the
34  including the genomic RNA (4,054 bases) and satellite RNAs (sat-RNAs) such as sat-RNA D (194 bases),
35 RNA conformational switch in an untranslated satellite RNA (satC) of Turnip crinkle virus (TCV) regul
36 as determined in planta by using a parasitic satellite RNA (satRNA) as a reporter.
37 onomously in the absence of HV, a variant of satellite RNA (satRNA) associated with Cucumber mosaic v
38                                            D satellite RNA (satRNA) is a strain of cucumber mosaic vi
39                           Replication of the satellite RNA (satRNA) of Cucumber Mosaic Virus is depen
40                The subviral agents include a satellite RNA (satRNA) that is devoid of a coding region
41                                            D satellite RNA (satRNA) with its helper virus, namely, cu
42                                              Satellite RNAs (satRNAs), parasites of viruses, depend o
43  serotype RPV (CYDV-RPV), the 322-nucleotide satellite RNA (satRPV RNA) accumulates to high levels in
44 NA virus that can support the replication of satellite RNAs, small molecular parasites of the virus.
45  spindle pole formation, Slug expression and satellite RNA suppression.
46                               One such virus/satellite RNA system already under use in field tests is
47 with its helper virus to determine whether a satellite RNA that attenuates CMV-induced disease on tob
48 random bases and then subjecting the pool of satellite RNA to functional selection in plants.
49  and in cells, SUV39H1 associates with alpha-satellite RNA transcripts.
50                                              Satellite RNAs usually lack substantial homology with th
51                                              Satellite RNAs usurp the replication machinery of their
52 re required in the replicative cycles of the satellite RNA viruses from which the hammerhead ribozyme
53 of features with a subset of the small plant satellite RNA viruses, including self-cleaving sequences
54 hammerheads derived from natural viroids and satellite RNAs were constructed with the goal of assessi
55 me is a small catalytic motif found in plant satellite RNAs where it catalyzes a reversible self-clea
56 egative strand of the tobacco ringspot virus satellite RNA, where hairpin ribozyme-mediated self-clea
57  defective interfering (DI) RNAs or chimeric satellite RNAs, which are thought to be generated by tem

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