RNA self‐processing: Formation of cyclic species and concatemers from a small engineered RNA

Petkovic, Sonja; Müller, Sabine

doi:10.1016/j.febslet.2013.06.013

Cited by 31 publications

(45 citation statements)

References 30 publications

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“…26,27 This protocol has been mostly used with T7-RNA-Polymerase and therefore requires guanosine conjugated via a 5 0 -phosphate with the desired functionality, as initiator nucleotide (the 5 0 -phosphate is necessary for recognition/ acceptance of the modified building block by the polymerase). In our laboratory, we have made use of this strategy for enzymatic preparation of RNAs carrying a biotinylated nucleoside 28 or a monophosphate 29 at the 5 0 -end. 3 0 -terminal functionalization As for 5 0 -terminal modification, 3 0 -end modification can be easily achieved by chemical synthesis provided that a suitable modified building block attached to a solid support is available or alternatively, can be made in the laboratory.…”

Section: Chain Assemblymentioning

confidence: 99%

“…62 We have successfully used T4 Rnl2 to circularize a 104nt linear precursor RNA with donor and acceptor ends positioned in a double stranded region. 29 Recently, circular RNAs ranging in size from 129 to 387 nucleotides were prepared by intramolecular ligation of the respective linear precursor in the presence of a 20nt DNA helper oligonucleotide. 63 In summary, RNA circularization by enzymatic ligation is a valuable option.…”

Section: Enzymatic Strategiesmentioning

confidence: 99%

“…Previously, we have engineered hairpin ribozyme variants that fold into 2 alternative cleavage active conformations, thus cutting off their 5 0 -and 3 0 -terminus, and thereby producing a 5 0 -OH group and a 3 0 -terminal 2 0 ,3 0 -cyclic phosphate. 29,75,76 These characteristic ends are required for ligation, which then can take place in an intramolecular manner as depicted in Fig. 3.…”

Section: Ribozymes For Rna Circularizationmentioning

confidence: 99%

“…We have demonstrated hairpin ribozyme supported RNA circularization for the generation of 83mers. 29,75,76 However, as shown in Fig. 3, the hairpin ribozyme structure may be embedded in RNA sequences of variable length (gray lines), thus paving the way toward preparation of large RNA circles.…”

Section: Ribozymes For Rna Circularizationmentioning

confidence: 99%

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In vitro circularization of RNA

Müller

Appel

2016

RNA Biology

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Over the past 2 decades, different types of circular RNAs have been discovered in all kingdoms of life, and apparently, those circular species are more abundant than previously thought. Apart from circRNAs in viroids and viruses, circular transcripts have been discovered in rodents more than 20 y ago and recently have been reported to be abundant in many organisms including humans. Their exact function remains still unknown, although one may expect extensive functional studies to follow the currently dominant research into identification and discovery of circRNA by sophisticated sequencing techniques and bioinformatics. Functional studies require models and as such methods for preparation of circRNA in vitro. Here, we will review current protocols for RNA circularization and discuss future prospects in the field.Abbreviations: AMP, adenosine monophosphate; AppRNA, 5 0 -adenylated RNA; ATP, adenosine triphosphate; bp, base pair; CEV-A, citrus exocortis viroid strain A; circRNA, circular RNA; ciRNA, circular intronic RNA; CuAAC, cupper catalyzed azide alkyne cycloaddition; EDC, ethyl-3-(3 0 -dimethylaminopropyl)-carbodiimide; HIV, human immunodeficiency virus; IEciRNA, intron-exon circular RNA; nt, nucleotide; PIE, permuted intron exon; T4 Dnl, T4 DNA Ligase; T4 Rnl, T4 RNA Ligase

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Section: Chain Assemblymentioning

confidence: 99%

Section: Enzymatic Strategiesmentioning

confidence: 99%

Section: Ribozymes For Rna Circularizationmentioning

confidence: 99%

Section: Ribozymes For Rna Circularizationmentioning

confidence: 99%

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In vitro circularization of RNA

Müller

Appel

2016

RNA Biology

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“…Using the ribozyme CRZ-2 (Scheme 2), which was developed previously (Pieper et al 2007) and recently analyzed in detail (Petkovic and Müller 2013), as template, we computationally optimized sequences using the program switch.pl (Flamm et al 2001) of the Vienna RNA package (Lorenz et al 2011). Four variants with different behavior according to our scoring functions were selected and analyzed in detail by polyacrylamide gel electrophoresis (PAGE) and atomic force microscopy (AFM).…”

Section: Introductionmentioning

confidence: 99%

Sequence-controlled RNA self-processing: computational design, biochemical analysis, and visualization by AFM

Petkovic

Badelt

Block

et al. 2015

RNA

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Reversible chemistry allowing for assembly and disassembly of molecular entities is important for biological self-organization. Thus, ribozymes that support both cleavage and formation of phosphodiester bonds may have contributed to the emergence of functional diversity and increasing complexity of regulatory RNAs in early life. We have previously engineered a variant of the hairpin ribozyme that shows how ribozymes may have circularized or extended their own length by forming concatemers. Using the Vienna RNA package, we now optimized this hairpin ribozyme variant and selected four different RNA sequences that were expected to circularize more efficiently or form longer concatemers upon transcription. (Two-dimensional) PAGE analysis confirms that (i) all four selected ribozymes are catalytically active and (ii) high yields of cyclic species are obtained. AFM imaging in combination with RNA structure prediction enabled us to calculate the distributions of monomers and selfconcatenated dimers and trimers. Our results show that computationally optimized molecules do form reasonable amounts of trimers, which has not been observed for the original system so far, and we demonstrate that the combination of theoretical prediction, biochemical and physical analysis is a promising approach toward accurate prediction of ribozyme behavior and design of ribozymes with predefined functions.

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