Label-assisted mass spectrometry for the acceleration of reaction discovery and optimization

Cabrera‐Pardo, Jaime R.; Chai, David; Liu, Song; Mrksich, Milan; Kozmin, Sergey A.

doi:10.1038/nchem.1612

Cited by 88 publications

(62 citation statements)

References 29 publications

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“…It has been noted previously that analyte detection by MALDI-TOF MS can be greatly enhanced by covalent attachment to a chromophore capable of absorbing the MALDI UV laser energy, which may account for the signal enhancement seen herein upon labeling with 1 . 39,40 …”

Section: Resultsmentioning

confidence: 99%

Targeting Reactive Carbonyls for Identifying Natural Products and Their Biosynthetic Origins

et al. 2016

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Natural products serve important roles as drug candidates and as tools for chemical biology. However, traditional natural product discovery, largely based on bioassay-guided approaches, is biased towards abundant compounds and rediscovery rates are high. Orthogonal methods to facilitate discovery of new natural products are thus needed, and herein we describe an isotope tag-based expansion of reactivity-based natural product screening to address these shortcomings. Reactivity-based screening is a directed discovery approach in which a specific reactive handle on the natural product is targeted by a chemoselective probe to enable its detection by mass spectrometry. In this study, we have developed an aminooxy-containing probe to guide the discovery of aldehyde- and ketone-containing natural products. To facilitate the detection of labeling events, the probe was dibrominated, imparting a unique isotopic signature to distinguish labeled metabolites from spectral noise. As a proof of concept, the probe was then utilized to screen a collection of bacterial extracts, leading to the identification of a new analog of antipain, deimino-antipain. The bacterial producer of deimino-antipain was sequenced and the responsible biosynthetic gene cluster was identified by bioinformatic analysis and heterologous expression. These data reveal the previously undetermined genetic basis for a well-known family of aldehyde-containing, peptidic protease inhibitors, including antipain, chymostatin, leupeptin, elastatinal, and microbial alkaline protease inhibitor (MAPI), which have been widely used for over 40 years.

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Section: Resultsmentioning

confidence: 99%

Targeting Reactive Carbonyls for Identifying Natural Products and Their Biosynthetic Origins

et al. 2016

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“…64 The IEDDA reaction of cyclic azadienes is a useful alternative to access heterocycles and carbocycles. 67 Interestingly, silver salts proved to be effective and could efficiently catalyse the cyclization of various N-alkylpyridinium iodides and N-alkylisoquinolinium iodides 56 with siloxyalkynes 55, which afforded the corresponding phenols and naphthols 57 in 55-98% yields (Scheme 24). 65 Very few examples of IEDDA reactions of cyclic azadienes catalysed by Lewis acids are known.…”

Section: Cycloaddition and Cyclizationmentioning

confidence: 99%

Silver-catalysed reactions of alkynes: recent advances

2015

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Silver is a less expensive noble metal. Superior alkynophilicity due to π-coordination with the carbon-carbon triple bond makes silver salts ideal catalysts for alkyne-based organic reactions. This review highlights the progress in alkyne chemistry via silver catalysis primarily over the past five years (ca. 2010-2014). The discussion is developed in terms of the bond type formed with the acetylenic carbon (i.e., C-C, C-N, C-O, C-Halo, C-P and C-B). Compared with other coinage metals such as Au and Cu, silver catalysis is frequently observed to be unique. This critical review clearly indicates that silver catalysis provides a significant impetus to the rapid evolution of alkyne-based organic reactions, such as alkynylation, hydrofunctionalization, cycloaddition, cycloisomerization, and cascade reactions.

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“…Polyaromatic moieties are most versatile in this regard because they have high molar absorptivity that allows efficient absorption of laser radiation and also for their facile ability to form molecular ions. Kozmin et al in a landmark paper first reported the use of pyrene as a polyaromatic MS tag and established a general and powerful method for reaction optimization and discovery with LALDI‐TOF‐MS . This method is unique due to its very different working principle.…”

Section: Label‐assisted Laser Desorption/ionization Mass Spectrometrymentioning

confidence: 99%

“…Following the work reported, a new LALDI‐MS based metal ion detection technique was reported . It has been demonstrated that the use of a polyaromatic probe with specific affinity toward an analyte allowed detection of the latter with LDI‐MS.…”

Section: Label‐assisted Laser Desorption/ionization Mass Spectrometrymentioning

confidence: 99%

Laser desorption ionization mass spectrometry: Recent progress in matrix‐free and label‐assisted techniques

Mandal

Singha

Addy

et al. 2017

Mass Spectrometry Reviews

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The MALDI-based mass spectrometry, over the last three decades, has become an important analytical tool. It is a gentle ionization technique, usually applicable to detect and characterize analytes with high molecular weights like proteins and other macromolecules. The earlier difficulty of detection of analytes with low molecular weights like small organic molecules and metal ion complexes with this technique arose due to the cluster of peaks in the low molecular weight region generated from the matrix. To detect such molecules and metal ion complexes, a four-prong strategy has been developed. These include use of alternate matrix materials, employment of new surface materials that require no matrix, use of metabolites that directly absorb the laser light, and the laser-absorbing label-assisted LDI-MS (popularly known as LALDI-MS). This review will highlight the developments with all these strategies with a special emphasis on LALDI-MS.

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Label-assisted mass spectrometry for the acceleration of reaction discovery and optimization

Cited by 88 publications

References 29 publications

Targeting Reactive Carbonyls for Identifying Natural Products and Their Biosynthetic Origins

Targeting Reactive Carbonyls for Identifying Natural Products and Their Biosynthetic Origins

Silver-catalysed reactions of alkynes: recent advances

Laser desorption ionization mass spectrometry: Recent progress in matrix‐free and label‐assisted techniques

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