Nerea Ruiz scite author profile

An effective chemoenzymatic strategy is reported that has allowed the construction, for the first time, of a focused microarray of synthetic N-glycans. Based on modular approaches, a variety of N-glycan core structures have been chemically synthesized and covalently immobilized on a glass surface. The printed structures were then enzymatically diversified by the action of three different glycosyltransferases in nanodroplets placed on top of individual spots of the microarray by a printing robot. Conversion was followed by lectin binding specific for the terminal sugars. This enzymatic extension of surface-bound ligands in nanodroplets reduces the amount of precious glycosyltransferases needed by seven orders of magnitude relative to reactions carried out in the solution phase. Moreover, only those ligands that have been shown to be substrates to a specific glycosyltransferase can be individually chosen for elongation on the array. The methodology described here, combining focused modular synthesis and nanoscale on-chip enzymatic elongation, could open the way for the much needed rapid construction of large synthetic glycan arrays.

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Chemo-Enzymatic Synthesis of ¹³C Labeled Complex N-Glycans As Internal Standards for the Absolute Glycan Quantification by Mass Spectrometry

Echeverría

Etxebarría

Ruiz

et al. 2015

Anal. Chem.

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Methods for the absolute quantification of glycans are needed in glycoproteomics, during development and production of biopharmaceuticals and for the clinical analysis of glycan disease markers. Here we present a strategy for the chemo-enzymatic synthesis of (13)C labeled N-glycan libraries and provide an example for their use as internal standards in the profiling and absolute quantification of mAb glycans by matrix-assisted laser desorption ionization-time-of-flight (MALDI-TOF) mass spectrometry. A synthetic biantennary glycan precursor was (13)C-labeled on all four amino sugar residues and enzymatically derivatized to produce a library of 15 glycan isotopologues with a mass increment of 8 Da over the natural products. Asymmetrically elongated glycans were accessible by performing enzymatic reactions on partially protected UV-absorbing intermediates, subsequent fractionation by preparative HPLC, and final hydrogenation. Using a preformulated mixture of eight internal standards, we quantified the glycans in a monoclonal therapeutic antibody with excellent precision and speed.

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MALDI‐TOF Mass Spectrometric Analysis of Enzyme Activity and Lectin Trapping on an Array of N‐Glycans

et al. 2011

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Active arrays: Complex lipid‐tagged oligosaccharides, including large multiantennary species, can be efficiently immobilized on self‐assembled monolayers of alkyl mercaptans (see picture). These arrays can be used to follow the action of a galactosyltransferase (GalT) and a hydrolase. The utility of the system for the selective trapping and identification of a lectin from a complex mixture was also demonstrated.

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THE ASYMMETRICAZA-MICHAEL REACTION. A REVIEW

Vicario¹,

Badı́a²,

Carrillo³

et al. 2005

Organic Preparations and Procedures International

106

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RIF1 and KAP1 differentially regulate the choice of inactive versus active X chromosomes

et al. 2021

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The onset of random X chromosome inactivation in mouse requires the switch from a symmetric to an asymmetric state, where the identities of the future inactive and active X chromosomes are assigned. This process is known as X chromosome choice. Here, we show that RIF1 and KAP1 are two fundamental factors for the definition of this transcriptional asymmetry. We found that at the onset of differentiation of mouse embryonic stem cells (mESCs), biallelic up-regulation of the long non-coding RNA Tsix weakens the symmetric association of RIF1 with the Xist promoter. The Xist allele maintaining the association with RIF1 goes on to upregulate Xist RNA expression in a RIF1-dependent manner. Conversely, the promoter that loses RIF1 gains binding of KAP1, and KAP1 is required for the increase in Tsix levels preceding the choice. We propose that the mutual exclusion of Tsix and RIF1, and of RIF1 and KAP1, at the Xist promoters establish a self-sustaining loop that transforms an initially stochastic event into a stably inherited asymmetric X-chromosome state.

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Nerea Ruiz

Construction of N‐Glycan Microarrays by Using Modular Synthesis and On‐Chip Nanoscale Enzymatic Glycosylation

Chemo-Enzymatic Synthesis of ¹³C Labeled Complex N-Glycans As Internal Standards for the Absolute Glycan Quantification by Mass Spectrometry

MALDI‐TOF Mass Spectrometric Analysis of Enzyme Activity and Lectin Trapping on an Array of N‐Glycans

THE ASYMMETRICAZA-MICHAEL REACTION. A REVIEW

RIF1 and KAP1 differentially regulate the choice of inactive versus active X chromosomes

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Nerea Ruiz

Construction of N‐Glycan Microarrays by Using Modular Synthesis and On‐Chip Nanoscale Enzymatic Glycosylation

Chemo-Enzymatic Synthesis of 13C Labeled Complex N-Glycans As Internal Standards for the Absolute Glycan Quantification by Mass Spectrometry

MALDI‐TOF Mass Spectrometric Analysis of Enzyme Activity and Lectin Trapping on an Array of N‐Glycans

THE ASYMMETRICAZA-MICHAEL REACTION. A REVIEW

RIF1 and KAP1 differentially regulate the choice of inactive versus active X chromosomes

Contact Info

Product

Resources

About

Chemo-Enzymatic Synthesis of ¹³C Labeled Complex N-Glycans As Internal Standards for the Absolute Glycan Quantification by Mass Spectrometry