Synthesis of a monolithic, micro-immobilised enzyme reactor via click-chemistry

Çelebі, Bekіr; Bayraktar, Aslıhan; Tuncel, Alï

doi:10.1007/s00216-012-6075-7

Cited by 18 publications

(15 citation statements)

References 39 publications

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“…Compared to other previously published work on IMER columns, the NAS-AAm-Bis column features mild fabrication condition and an open tubular inner structure with higher protein sequence coverage as observed with BSA analysis [28,29]. We further applied IMER digestion to more complex samples followed by LC-ESI-Orbitrap detection to test if IMER digestion can be applied to large-scale proteomics studies.…”

Section: Resultsmentioning

confidence: 99%

A one-step preparation method of monolithic enzyme reactor for highly efficient sample preparation coupled to mass spectrometry-based proteomics studies

Jiang

Zhang

2015

Journal of Chromatography A

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Mass spectrometry (MS) coupled to sample preparation and separation techniques has become a primary tool for proteomics studies. However, due to sample complexity, it is often challenging to achieve fast and efficient sample preparation prior to MS analysis. In recent decades, monolithic materials have been developed not only as chromatographic media, but also as efficient solid supports for immobilizing multiple types of affinity reagents. Herein, the N-acryloxysuccinimide-co-acrylamide-co-N,N'-methylenebisacrylamide (NAS-AAm-Bis) monolith was fabricated within silanized 200 μm i.d. fused-silica capillaries and was used as an immobilized enzyme reactor (IMER). The column was conjugated with trypsin/Lys-C and Lys-N enzymes to allow enzymatic digestions to occur while protein mixture was loaded onto the IMER column followed by MS-based proteomics analysis. Similar MS signal and protein sequence coverage were observed using protein standard bovine serum albumin (BSA) compared to in-solution digestion. Furthermore, mouse serum, yeast, and human cell lysate samples were also subjected to enzymatic digestion by both IMER (in seconds to minutes) and conventional in solution digestion (overnight) for comparison in large-scale proteomics studies. Comparable protein identification results obtained by the two methods highlighted the potential of employing NAS-based IMER column for fast and highly efficient sample preparation for MS analysis in proteomics studies.

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Section: Resultsmentioning

confidence: 99%

A one-step preparation method of monolithic enzyme reactor for highly efficient sample preparation coupled to mass spectrometry-based proteomics studies

Jiang

Zhang

2015

Journal of Chromatography A

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“…The results revealed that the final substrate conversion increased with increasing the feed flow rate and substrate feed concentration due to the increase of the interaction between the substrate and the enzymatic monolith reactor. The preparation of a monolithic-immobilized enzyme reactor by click-chemistry for micro-LC was recently reported [22]. It involved the preparation of a poly(GMA-co-EDMA) monolith via in situ thermal polymerization in capillary format.…”

Section: Ppf Involving Click Coupling Of Monolithsmentioning

confidence: 99%

Various Strategies in Post-Polymerization Functionalization of Organic Polymer-Based Monoliths Used in Liquid Phase Separation Techniques

Alharthi

Rassi

2020

Molecules

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This review article is aimed at summarizing the various strategies that have been developed so far for post-polymerization functionalization (PPF) of organic polymer-based monoliths used in liquid phase separation techniques, namely HPLC at all scales and capillary electrochromatography (CEC). The reader will find the organic reactions performed on monolithic columns for grafting the chromatographic ligands needed for solving the separation problems on hand. This process involves therefore the fabrication of template monoliths that carry reactive functional groups to which chromatographic ligands can be covalently attached in a post-polymerization kind of approach. That is, the template monolith that has been optimized in terms of pore structure and other morphology can be readily modified and tailor made on column to fit a particular separation. The review article will not only cover the various strategies developed so far but also describe their separation applications. To the best of our knowledge, this review article will be the first of its kind.

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“…Soybean trypsin inhibitor was clicked on this support after conjugation through the N ‐hydroxysuccinimide ester of 4‐pentynoic acid to produce an affinity sorbent for trypsin. Porous (GMA‐co‐EDMA) monolithic capillary columns were used to click an alkyne‐carrying enzyme derivative (α‐chemotrypsin) to prepare immobilized enzyme reactors . In both cases, biomolecules have to be derivatized with heterobifunctional reagents carrying the alkyne moiety.…”

Section: “Clicked” Stationary Phases and Their Applications In Varioumentioning

confidence: 99%

“…Such reactions afford high yields and can be carried out in various solvents such as aqueous solutions at room temperature. Due to these numerous benefits, "click reactions" have received more and more interest in many areas such as nanotechnology [2,3], bioconjugation [4,5], DNA functionalization [6,7], surface modification [8][9][10], polymers [11][12][13][14], and others [15][16][17]. Over the last 10 years, click chemistry has also spread to separative sciences and more particularly for the preparation of chromatographic materials [18][19][20][21][22][23].…”

Section: Introductionmentioning

confidence: 99%

“…As described by these authors, it refers to a “set of powerful, virtually 100% reliable, selective reactions for the rapid synthesis of new compounds via heteroatom links (C–X–C).” Such reactions afford high yields and can be carried out in various solvents such as aqueous solutions at room temperature. Due to these numerous benefits, “click reactions” have received more and more interest in many areas such as nanotechnology , bioconjugation , DNA functionalization , surface modification , polymers , and others . Over the last 10 years, click chemistry has also spread to separative sciences and more particularly for the preparation of chromatographic materials .…”

Section: Introductionmentioning

confidence: 99%

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Is click chemistry attractive for separation sciences?

Marechal

El-Debs

Dugas

et al. 2013

J of Separation Science

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Trends in LC focus on dedicated separation developments spanning different fields of applications ranging from sample preparation to miniaturization. Chromatographic performances result from the porous media, its implantation inside the "column," and its surface functionalization. Because molecular interactions govern chromatographic phenomena, surface functionalization is still a hot research topic. Besides standard approaches for surface functionalization, the use of new surface chemistry reactions opens new perspectives. Click chemistry belongs to this new class of chemical reactions, characterized by its specificity, compatibility with aqueous media, and high reaction yields. In this frame, we review the use of click chemistry reactions in chromatographic sciences. In a first part, we present click chemistry with a specific focus on its implementation in stationary phases. The use of these new clicked materials is detailed and discussed with respect to the chromatographic mode.

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Synthesis of a monolithic, micro-immobilised enzyme reactor via click-chemistry

Cited by 18 publications

References 39 publications

A one-step preparation method of monolithic enzyme reactor for highly efficient sample preparation coupled to mass spectrometry-based proteomics studies

A one-step preparation method of monolithic enzyme reactor for highly efficient sample preparation coupled to mass spectrometry-based proteomics studies

Various Strategies in Post-Polymerization Functionalization of Organic Polymer-Based Monoliths Used in Liquid Phase Separation Techniques

Is click chemistry attractive for separation sciences?

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