2019
DOI: 10.1016/j.copbio.2018.09.008
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Repurposing enzymatic transferase reactions for targeted labeling and analysis of DNA and RNA

Abstract: Produced as linear biopolymers from four major types of building blocks, DNA and RNA are further furnished with a range of covalent modifications. Despite the impressive specificity of natural enzymes, the transferred groups are often poor reporters and not amenable to further derivatization. Therefore, strategies based on repurposing some of these enzymatic reactions to accept derivatized versions of the transferrable groups have been exploited. By far the most widely used are S-adenosylmethionine-dependent m… Show more

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Cited by 23 publications
(20 citation statements)
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“…A pertinent exemplar of this promiscuity is DNA/RNA MTases which accept analogues of SAM and can be used as a tagging tool for biotechnologybased applications. [19,[25][26][41][42][43] Cofactor promiscuity is also a hallmark of a number of small molecule C-MTases such as NovO and CouO, which accept a variety of S-alkylated SAM analogues prepared separately by chemical synthesis. [44] A distinct limitation of preparing SAM analogues by chemical synthesis is the formation of R/S epimers at the S centre.…”
Section: Enhancing the Scope Of Biocatalytic Alkylation Using Modifiementioning
confidence: 99%
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“…A pertinent exemplar of this promiscuity is DNA/RNA MTases which accept analogues of SAM and can be used as a tagging tool for biotechnologybased applications. [19,[25][26][41][42][43] Cofactor promiscuity is also a hallmark of a number of small molecule C-MTases such as NovO and CouO, which accept a variety of S-alkylated SAM analogues prepared separately by chemical synthesis. [44] A distinct limitation of preparing SAM analogues by chemical synthesis is the formation of R/S epimers at the S centre.…”
Section: Enhancing the Scope Of Biocatalytic Alkylation Using Modifiementioning
confidence: 99%
“…[53][54] The efficiency of (m)ethyl transfer to coumarin substrates in this tandem process ( Figure 6) was far higher using modified cofactors 16-17 a-b generated in situ relative to naturally occurring SAM. It enabled (m)ethylation of high-value coumarin analogues (18)(19)(20) such as the Hsp90 inhibitor (19) and the warfarin metabolite (20). This concept of exploiting modified cofactors generated in situ followed by MTase-mediated alkyl transfer was also recently extended to the MAT enzyme.…”
Section: Enhancing the Scope Of Biocatalytic Alkylation Using Modifiementioning
confidence: 99%
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“…[3] In contrast, MTases catalyze regiospecific Cmethylation of biomolecules using the SAM cofactor as the corresponding methyl donor. [14][15][16][17] The repertoire of C-methylation extends to small molecules, which opens up opportunities to tailor these enzymes as a general platform for biocatalytic C-C bond formation (Figure 1a). A representative example is NovO, which catalyzes the Calkylation of coumarins (e.g.…”
mentioning
confidence: 99%
“…[11][12][13] However,o btaining regiospecificity,p articularly when this is required at alate-stage in asynthetic workflow,is an enduring challenge. [14][15][16][17] Ther epertoire of C-methylation extends to small molecules,which opens up opportunities to tailor these enzymes as ag eneral platform for biocatalytic C À Cb ond formation (Figure 1a). [14][15][16][17] Ther epertoire of C-methylation extends to small molecules,which opens up opportunities to tailor these enzymes as ag eneral platform for biocatalytic C À Cb ond formation (Figure 1a).…”
mentioning
confidence: 99%