Pamela J. Cascone scite author profile

RNA recombination has been described for a number of viruses in the plant and animal kingdoms, but the mechanisms of selection of recombination sites are poorly understood. The nonrandom recombination between two subviral RNAs associated with turnip crinkle virus was used to study the requirement for specific sequences and structures in the generation of recombinant molecules. Single-base mutations that disrupted either the stem or the loop of one of the two computer-predicted stem-loop structures eliminated detectable recombinant molecules. However, recombinants were detected if compensatory mutations were generated that re-formed a stable hairpin structure. These results provide evidence for the necessity of specific structures in the formation of recombinant molecules in this system.

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Recombination between satellite RNAs of turnip crinkle virus.

Cascone

et al. 1990

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Turnip crinkle virus (TCV) is associated with satellite (sat) RNAs (sat‐RNA D, sat‐RNA F), defective interfering (DI) RNAs (DI RNA G, DI1 RNA), and one RNA with properties of both sat‐RNAs and DI RNAs (sat‐RNA C). When plants were inoculated with TCV, sat‐RNA D and in vitro sat‐RNA C transcripts containing non‐viable mutations in the 5′ domain, recombinant sat‐RNAs were recovered. These recombinants were composed of sat‐RNA D at the 5′ end and sat‐RNA C sequences at the 3′ end. Analysis of 20 independent recombination junctions revealed that unequal crossing‐over had occurred in planta in a region of sequence similarity between the two sat‐RNAs which resulted in the duplication of 3‐16 nucleotides. Thirty percent of the sat‐RNA recombinants also had one to three additional nucleotides inserted at the crossover junctions which did not correspond to either sat‐RNA C or sat‐RNA D sequence. The right side of the recombination junctions always began with one of three consecutive nucleotides of sat‐RNA C. Based on the similarity between this sequence of sat‐RNA C, the right side junction of DI RNA G and the 5′ end of TCV, as well as the sequence similarity between right side junctions of DI1 RNA and sat‐RNA C and the 5′ end of the sat‐RNAs, a replicase‐driven copy choice mechanism is proposed.(ABSTRACT TRUNCATED AT 250 WORDS)

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Lepidopteran DALP, and its mammalian ortholog HIC-5, function as negative regulators of muscle differentiation

Cascone²,

Cheng³

et al. 1999

Proc. Natl. Acad. Sci. U.S.A.

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During myogenesis, reductions in trophic factor availability signal most myoblasts to fuse, up-regulate the expression of muscle-specific genes, and form myotubes. Those cells failing to differentiate into myotubes initiate apoptosis and rapidly die. At present, the signal-transduction molecules that determine whether myoblasts should differentiate or die are largely unknown. In this report, we describe the cloning and characterization of DALP, a small LIM-only type zinc-finger protein that is induced when the intersegmental muscles (ISMs) of the moth Manduca sexta become committed to die at the end of metamorphosis. Forced expression of death-associated LIM-only protein (DALP) in Drosophila results in skeletal muscle atrophy. Ectopic expression of DALP, or its mammalian ortholog Hic-5, blocks differentiation and induces apoptosis in mouse C 2 C 12 myoblasts. Both of these effects can be overcome by contact with normal myoblasts or by ectopic expression of the muscle-specific transcription factor MyoD. Hic-5 expression is specifically and dramatically induced in normal myoblasts that die after removal of trophic support. Taken together, these data suggest that DALP and Hic-5 act upstream of MyoD and function as phylogenetically conserved ''switches'' to block muscle differentiation and induce death.

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Formation of multimers of linear satellite RNAs

Carpenter¹,

Cascone

Simon

1991

Virology

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Recombination between satellite and genomic RNAs of turnip crinkle virus

1991

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Pamela J. Cascone

Sequences and Structures Required for Recombination Between Virus-Associated RNAs

Recombination between satellite RNAs of turnip crinkle virus.

Lepidopteran DALP, and its mammalian ortholog HIC-5, function as negative regulators of muscle differentiation

Formation of multimers of linear satellite RNAs

Recombination between satellite and genomic RNAs of turnip crinkle virus

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