Indah Primadona scite author profile

A simple and efficient protocol for the preparative-scale synthesis of various lengths of oligo-N-acetyllactosamine (oligo-LacNAc) and its multi-sialylated extensions is described. The strategy utilizes one thermophilic bacterial thymidylyltransferase (RmlA) coupled with corresponding sugar-1-phosphate kinases to generate two uridine diphosphate sugars, UDP-galactose and UDP-N-acetylglucosamine. By incorporating glycosyltransferases, oligo-LacNAcs and their sialylated analogs were synthesized.

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Recent advances and rational design strategies of carbon dots towards highly efficient solar evaporation

Indriyati

Primadona

Permatasari

et al. 2021

Nanoscale

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Pineapple peel wastes as a potential source of antioxidant compounds

Saraswaty

Risdian

Primadona

et al. 2017

IOP Conf. Ser.: Earth Environ. Sci.

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UV-activated multilayer nanomatrix provides one-step tunable carbohydrate structural characterization in MALDI-MS

et al. 2015

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Development of bacterial cellulose/chitosan films: structural, physicochemical and antimicrobial properties

et al. 2021

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Functionalized HgTe nanoparticles promote laser-induced solid phase ionization/dissociation for comprehensive glycan sequencing

Primadona

Lai

Capangpangan

et al. 2016

Analyst

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Glycoconjugates are ubiquitously present and play a critical role in various biological processes. Due to their low stability and incredibly high degree of structural diversity, the structural characterization of glycan generally requires chemical derivatization and sophisticated instrumentation. Herein, we report a method for complicated glycan characterization in a single assay by employing 2,5-dihydroxybenzoic acid functionalized mercury telluride nanoparticles (HgTe@DHB NPs) as a dual ionization-dissociation element in matrix-assisted laser desorption/ionization mass spectrometry. Using a linear glycan, HgTe@DHB NPs promote laser-induced extensive and intense dissociation of the glycan, superior to HgTe microparticles and other inorganic nanoparticles (TiO, ZnO, and MnO NPs). Abundant generation of diagnostic glycosidic (Y-, and B-type ions) and cross-ring cleavage (A-type ions) ions permits unambiguous determination of the composition, sequence, branching, and linkage of labile sialylated glycans. The general utility of this approach was demonstrated by the characterization of labile sialylated glycans and two sets of complicated isomeric glycans. This phenomenon was delineated further by investigating the NP's physico-chemical characteristics, revealing that their nanoscale-dependent thermodynamic properties, including UV absorption, photoelectron release dynamics and thermal energy, were the key to levitate temperature synergistically, thus inducing spontaneous glycan decomposition during the nanoparticle-assisted laser desorption-ionization process. Our results show that this "pseudo-MS/MS" obtained by HgTe@DHB can be beneficial for the analysis of biologically relevant and more complicated carbohydrates, without the need for chemical pre-derivatization and conventional tandem mass spectrometry.

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Enhancement of the ZnO nanotube photoelectrochemical performance by MXene layer

et al. 2023

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Indah Primadona

Physical and chemical properties of corn, cassava, and potato starchs

Sequential one-pot enzymatic synthesis of oligo-N-acetyllactosamine and its multi-sialylated extensions

Recent advances and rational design strategies of carbon dots towards highly efficient solar evaporation

Pineapple peel wastes as a potential source of antioxidant compounds

UV-activated multilayer nanomatrix provides one-step tunable carbohydrate structural characterization in MALDI-MS

Development of bacterial cellulose/chitosan films: structural, physicochemical and antimicrobial properties

Functionalized HgTe nanoparticles promote laser-induced solid phase ionization/dissociation for comprehensive glycan sequencing

Enhancement of the ZnO nanotube photoelectrochemical performance by MXene layer

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