Your search keyword '"Eamens AL"' showing total 2 results

1. The presence of high-molecular-weight viral RNAs interferes with the detection of viral small RNAs.

Author

Smith NA, Eamens AL, and Wang MB

Subjects

Base Sequence, Cucumber Mosaic Virus Satellite genetics, Cucumber Mosaic Virus Satellite metabolism, Cucumovirus genetics, Cucumovirus metabolism, Electrophoresis, Polyacrylamide Gel, Molecular Sequence Data, Molecular Weight, RNA Interference, RNA Processing, Post-Transcriptional, RNA, Small Interfering genetics, RNA, Small Interfering isolation & purification, RNA, Small Interfering metabolism, RNA, Viral chemistry, RNA, Viral genetics, RNA, Viral metabolism, Cucumber Mosaic Virus Satellite isolation & purification, Cucumovirus isolation & purification, RNA, Viral isolation & purification, Nicotiana virology

Abstract

Viral small interfering RNA (siRNA) accumulation in plants is reported to exhibit a strong strand polarity bias, with plus (+) strand siRNAs dominating over minus (-) strand populations. This is of particular interest, as siRNAs processed from double-stranded RNA would be expected to accumulate equivalent amounts of both species. Here, we show that, as reported, (-) strand viral siRNAs are detected at much lower levels than (+) strand-derived species using standard Northern hybridization approaches. However, when total RNA is spiked with in vitro-transcribed antisense viral genomic RNA, (-) strand viral siRNAs are detected at increased levels equivalent to those of (+) strand siRNA. Our results suggest that (+) and (-) strand viral siRNAs accumulate to equivalent levels; however, a proportion of the (-) strand siRNAs are sequestered from the total detectable small RNA population during gel electrophoresis by hybridizing to the high-molecular-weight sense strand viral genomic RNA. Our findings provide a plausible explanation for the observed strand bias of viral siRNA accumulation, and could have wider implications in the analysis of both viral and nonviral small RNA accumulation.

Published

2010

2. The Arabidopsis thaliana double-stranded RNA binding protein DRB1 directs guide strand selection from microRNA duplexes.

Author

Eamens AL, Smith NA, Curtin SJ, Wang MB, and Waterhouse PM

Subjects

Arabidopsis genetics, Arabidopsis growth & development, Arabidopsis Proteins genetics, Argonaute Proteins, Base Sequence, Computational Biology, Gene Expression Regulation, Plant, MicroRNAs genetics, RNA Stability, RNA, Double-Stranded genetics, RNA-Binding Proteins genetics, Nicotiana genetics, Nicotiana metabolism, Arabidopsis metabolism, Arabidopsis Proteins metabolism, MicroRNAs metabolism, RNA, Double-Stranded metabolism, RNA-Binding Proteins metabolism

Abstract

In Arabidopsis thaliana (Arabidopsis), DICER-LIKE1 (DCL1) functions together with the double-stranded RNA binding protein (dsRBP), DRB1, to process microRNAs (miRNAs) from their precursor transcripts prior to their transfer to the RNA-induced silencing complex (RISC). miRNA-loaded RISC directs RNA silencing of cognate mRNAs via ARGONAUTE1 (AGO1)-catalyzed cleavage. Short interefering RNAs (siRNAs) are processed from viral-derived or transgene-encoded molecules of double-stranded RNA (dsRNA) by the DCL/dsRBP partnership, DCL4/DRB4, and are also loaded to AGO1-catalyzed RISC for cleavage of complementary mRNAs. Here, we use an artificial miRNA (amiRNA) technology, transiently expressed in Nicotiana benthamiana, to produce a series of amiRNA duplexes with differing intermolecular thermostabilities at the 5' end of duplex strands. Analyses of amiRNA duplex strand accumulation and target transcript expression revealed that strand selection (amiRNA and amiRNA*) is directed by asymmetric thermostability of the duplex termini. The duplex strand possessing a lower 5' thermostability was preferentially retained by RISC to guide mRNA cleavage of the corresponding target transgene. In addition, analysis of endogenous miRNA duplex strand accumulation in Arabidopsis drb1 and drb2345 mutant plants revealed that DRB1 dictates strand selection, presumably by directional loading of the miRNA duplex onto RISC for passenger strand degradation. Bioinformatic and Northern blot analyses of DCL4/DRB4-dependent small RNAs (miRNAs and siRNAs) revealed that small RNAs produced by this DCL/dsRBP combination do not conform to the same terminal thermostability rules as those governing DCL1/DRB1-processed miRNAs. This suggests that small RNA processing in the DCL1/DRB1-directed miRNA and DCL4/DRB4-directed sRNA biogenesis pathways operates via different mechanisms.

Published

2009