Rational Drug Design and High-Throughput Techniques for RNA Targets

Hermann, Thomas; Westhof, Éric

doi:10.2174/1386207003331652

Cited by 51 publications

(35 citation statements)

References 102 publications

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“…Although RNAs contain appropriate target structures for the binding of small molecules, [5] a rational design of selective RNA ligands is extremely difficult. [6] Herein we present for the first time a homogenous, fluorescence-based Dicer assay that allows easy screening of libraries of potential pre-miRNA ligands and therefore potential inhibitors of miRNA maturation.…”

mentioning

confidence: 99%

A Homogenous Assay for Micro RNA Maturation

Davies

Arenz

2006

Angew Chem Int Ed

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mentioning

confidence: 99%

A Homogenous Assay for Micro RNA Maturation

Davies

Arenz

2006

Angew Chem Int Ed

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“…Expanding knowledge of several new key biological roles played by RNA molecules, especially in the gene expression processes has fueled the growing interest in exploring RNA as disease intervention targets [67][68][69]. Assays similar to those used for protein targets have been implemented in search for compounds that interfere with the functions of therapeutically relevant RNA targets.…”

Section: Natural Rnas As Screening Toolsmentioning

confidence: 99%

Functional Nucleic Acids in High Throughput Screening and Drug Discovery

Srivatsan¹,

Famulok²

2007

CCHTS

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In vitro selection can be used to generate functional nucleic acids such as aptamers and ribozymes that can recognize a variety of molecules with high affinity and specificity. Most often these recognition events are associated with structural alterations that can be converted into detectable signals. Several signaling aptamers and ribozymes constructed by both design and selection have been successfully utilized as sensitive detection reagents. Here we summarize the development of different types of signaling nucleic acids, and approaches that have been implemented in the screening format.

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“…After the seminal discovery that aminoglycosides recognize directly the 16S RNA of the small ribosomal subunit, 12-14 the paradigm of RNA as a target for small molecule ligands has been firmly established. 10,15,24,28,29 In vitro selection of RNA aptamers for a chemically diverse variety of ligands has since demonstrated the versatility of RNA molecular recognition. 16 These findings, along with the postulated key role of RNA as an enzymatically active species during a prebiotic RNA world, [91][92][93] have fostered the expectation that small molecule-RNA interactions may be more widespread in the regulation of biological RNA functions.…”

Section: Natural Ligands Of 5-untranslated Regions In Mrnamentioning

confidence: 99%

Chemical and functional diversity of small molecule ligands for RNA

Hermann¹

2003

Biopolymers

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Functional RNAs such as ribosomal RNA and structured domains of mRNA are targets for small molecule ligands that can act as modulators of the RNA biological activity. Natural ligands for RNA display a bewildering structural and chemical complexity that has yet to be matched by synthetic RNA binders. Comparison of natural and artificial ligands for RNA may help to direct future approaches to design and synthesize potent novel scaffolds for specific recognition of RNA targets.

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Rational Drug Design and High-Throughput Techniques for RNA Targets

Cited by 51 publications

References 102 publications

A Homogenous Assay for Micro RNA Maturation

A Homogenous Assay for Micro RNA Maturation

Functional Nucleic Acids in High Throughput Screening and Drug Discovery

Chemical and functional diversity of small molecule ligands for RNA

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