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Molecular Biology Reports, 1990
We have recently shown that although pre-mRNA splicing in plants shares some features in common with splicing in vertebrates, there are some crucial differences. In plants there is a requirement for a general enrichment for A+U within the intron and there is no requirement for a 3 ' polypyrimidine tract (Goodall and Filipowicz, 1989).
G, Goodall +3 more
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We have recently shown that although pre-mRNA splicing in plants shares some features in common with splicing in vertebrates, there are some crucial differences. In plants there is a requirement for a general enrichment for A+U within the intron and there is no requirement for a 3 ' polypyrimidine tract (Goodall and Filipowicz, 1989).
G, Goodall +3 more
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1991
Publisher Summary The control of gene expression involves several steps at which specific sequences in pre-mRNA transcripts, as well as those in small RNA molecules, are recognized by proteins. RNA-binding proteins can be expected to mediate interactions in a variety of cellular processes, including those occurring in the transcription complex, the ...
J D, Keene, C C, Query
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Publisher Summary The control of gene expression involves several steps at which specific sequences in pre-mRNA transcripts, as well as those in small RNA molecules, are recognized by proteins. RNA-binding proteins can be expected to mediate interactions in a variety of cellular processes, including those occurring in the transcription complex, the ...
J D, Keene, C C, Query
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Drosophila RNA Binding Proteins
2006RNA binding proteins are fundamental mediators of gene expression. The use of the model organism Drosophila has helped to elucidate both tissue-specific and ubiquitous functions of RNA binding proteins. These proteins mediate all aspects of the mRNA lifespan including splicing, nucleocytoplasmic transport, localization, stability, translation, and ...
Chiara, Gamberi +2 more
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RNA binding proteins and selenocysteine
BioFactors, 2001AbstractSelenocysteine is incorporated into protein by a complex co‐translational mechanism that involves both cis and trans acting factors. Among the trans‐acting factors are RNA binding proteins that interact with the selenoprotein 3′ UTRs at a sequence known as the selenocysteine insertion sequence (SECIS). These factors are generally referred to as
P R, Copeland, D M, Driscoll
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RNA-binding proteins and cancer metastasis
Seminars in Cancer Biology, 2022RNA-binding proteins (RBPs) can regulate gene expression through post-transcriptionally influencing all manner of RNA biology, including alternative splicing (AS), polyadenylation, stability, and translation of mRNAs, as well as microRNAs (miRNAs) and circular RNAs (circRNAs) processing.
Shengjie, Wang +3 more
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Purification of RNA-Binding Proteins
2014The majority of regulatory RNA sequences exert their function through interaction with proteins. Therefore, the identification of RNA-binding proteins is the key step in understanding the role of many RNA motifs. Here, we describe a straightforward method to identify RNA-binding proteins.
Birgit, Ritter, Marc R, Reboll
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Nature Structural & Molecular Biology, 1998
Novel RNA-binding proteins with customized specificities can be isolated by genetic selection from combinatorial libraries. Such proteins have great potential as agents for targeted manipulation of gene expression.
Ite A. Laird-Offringa, Joel G. Belasco
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Novel RNA-binding proteins with customized specificities can be isolated by genetic selection from combinatorial libraries. Such proteins have great potential as agents for targeted manipulation of gene expression.
Ite A. Laird-Offringa, Joel G. Belasco
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RNA-binding proteins in cellular senescence
Mechanisms of Ageing and Development, 2023Cellular senescence is a state of irreversible cell cycle arrest that is triggered and controlled by various external and/or internal factors. Among them, the regulation of senescence-associated genes is an important molecular event that plays a role in senescence.
Dahyeon Koh +4 more
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Single stranded RNA binding proteins
Current Opinion in Structural Biology, 2000Our knowledge of protein interactions with RNA molecules has been, so far, largely restricted to cases in which the RNA itself is folded into a secondary and/or tertiary structure stabilised by intramolecular base pairing and stacking. Until recently, only limited structural information has been available about protein interactions with single-stranded
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RNA-binding proteins of bovine rotavirus
Journal of Virology, 1986Two major bovine rotavirus proteins have RNA-binding activity as shown by an RNA overlay-protein blot assay. Of the six proteins in purified virions, only one showed RNA-binding activity. This 92,000-molecular-weight (92K) protein was present in both single- and double-shelled particles.
J F, Boyle, K V, Holmes
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