Accucore rp ms

Manufactured by Thermo Fisher Scientific

Sourced in United States

The Accucore RP-MS is a reversed-phase high-performance liquid chromatography (HPLC) column designed for mass spectrometry (MS) applications. It features a core-shell particle technology that provides efficient separation and high-speed analysis.

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Lab products found in correlation

Deuterium labeled hormones, by OlChemIm (2 mentions) Xcalibur 3, by Thermo Fisher Scientific (1 mentions) Q exactive plus, by Thermo Fisher Scientific (1 mentions) Q exactive mass spectrometer orbitrap detector, by Thermo Fisher Scientific (1 mentions) Orbitrap detector, by Thermo Fisher Scientific (1 mentions) Ultimate 3000 hplc system, by Thermo Fisher Scientific (1 mentions)

Close spelling variants of this product

Accucore RP-MS C18 column Accucore RP-MS column

6 protocols using accucore rp ms

HRMS Analysis of Medicinal Plant Extracts

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For HRMS recording, the A. quinata A2 and A4 and C. ternatea C3 extracts (7 µL/band each) were applied in triplicate on two MS-grade HPTLC F₂₅₄ plates. The active zones of interest were eluted for 1 min with water−methanol (9:1, V/V) at a flow rate of 0.1 mL/min using the open-source modified auto-TLC-LC-MS interface [68 (link)]. The analytes were transferred through a 50-µL sample loop with an integrated desalting cartridge (Accucore RP-MS, 10 mm × 2.1 mm, 2.6 μm, Thermo Fisher Scientific) to the analytical HPLC column (Accucore RP-MS, 100 mm × 2.1 mm, 2.6 μm, Thermo Fisher Scientific) set to 40 °C. Solvent A (2.5 mM ammonium acetate in water, pH 4.5) and solvent B (methanol) were used at a flow rate of 0.4 mL/min for gradient elution, i.e., 0−2 min 2%B, 2−7 min increase to 100%B, hold, and 10−12 min decrease to 2%B. [61 (link)] The eluent was directed to the HESI-HRMS system (Q Exactive Plus, Thermo Fisher Scientific). The spectrometer parameters were as follows: capillary temperature 270 °C, spray voltage ± 3.5 kV, sheath gas 20 arbitrary units, aux gas 10 arbitrary units, S–Lens RF level 50. Full scan mass spectra m/z 100–1100 were recorded in the positive and negative ionization modes. The spectra were processed by Xcalibur 3.0.63 software (Thermo Fisher Scientific).

Nikolaichuk H., Choma I.M, & Morlock G.E. (2023). Effect-Directed Profiling of Akebia quinata and Clitoria ternatea via High-Performance Thin-Layer Chromatography, Planar Assays and High-Resolution Mass Spectrometry. Molecules, 28(7), 2893.

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HPLC-MS Analysis of Metabolites

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Culture extracts and HPLC fractions were analyzed by HPLC-MS on a reversed phase HPLC column (3.0 × 50 mm, 2.6 μm, Accucore RP-MS, Thermo Scientific, Waltham, MA, USA), using a gradient of MeCN in water (10–95% MeCN in 3 min, 95% MeCN for 4 min, at 0.8 mL/min, with 0.2% formic acid). ¹³C-labelling experiments were analyzed by UHPLC-MS on a reversed phase UHPLC column (2.1 × 50 mm, 1.5 μm, Thermo Accucore Vanquish RP-MS, Thermo Scientific, Waltham, MA, USA), using a gradient of MeCN in water (10–95% MeCN in 3 min, 95% MeCN for 1.2 min, at 0.9 mL/min, with 0.2% formic acid). For both HPLC-MS and UHPLC-MS, the mass spectrometer was operated in positive mode with scanning of m/z 50–1500, and calibration of the mass spectra was obtained by using sodium formate clusters.

Nord C., Levenfors J.J., Bjerketorp J., Sahlberg C., Guss B., Öberg B, & Broberg A. (2019). Antibacterial Isoquinoline Alkaloids from the Fungus Penicillium Spathulatum Em19. Molecules, 24(24), 4616.

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LC-HRMS Analysis of Compound Fractions

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Selected fractions were analyzed by LC-HRMS on a reversed phase HPLC column (3.0 × 50 mm, 2.6 μm, Accucore RP-MS, Thermo Scientific, Waltham, MA, USA) using a gradient of MeCN in water, both with 0.2% formic acid (10–95% MeCN in 3 min, 95% MeCN for 4 min, at 0.8 mL min⁻¹). The MS was operated in positive mode with scanning of m/z 50–1500, and the mass spectra were calibrated against sodium formate clusters.

Broberg A., Bjerketorp J., Andersson P., Sahlberg C, & Levenfors J.J. (2017). Labradorins with Antibacterial Activity Produced by Pseudomonas sp.. Molecules : A Journal of Synthetic Chemistry and Natural Product Chemistry, 22(7), 1072.

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Quantifying Abscisic Acid in Fruit Pericarp

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For ABA measurements, 50 mg of lyophilized fruit pericarp was ground and resuspended in 80% methanol—1% acetic acid solution containing internal standards (deuterium-labeled hormones; OlChemim Ltd., Olomouc, Czech Republic). The mix was shaken for one hour at 4 °C, and the extracted fraction was incubated overnight at −20 °C. The tissue extractions were conducted in triplicate for each developmental stage. Samples were centrifuged, and the supernatant was vacuum dried and dissolved in 1% acetic acid. A reverse-phase column (OasisHLB) was used, and the eluate was dried and dissolved in a solution of 5% acetonitrile and 1% acetic acid. An autosampler and reverse-phase UHPLC chromatography column, 2.6 μm Accucore RP-MS, 100 mm × 2.1 mm (Thermo Fisher Scientific, San Diego, CA, USA) was used. ABA was separated through a gradient of acetonitrile (2–55%) containing 0.05% acetic acid at a rate of 400 μL/min over 22 min and detected in a Q-Exactive mass spectrometer (Orbitrap detector; ThermoFisher Scientific; San Diego, CA, USA). Targeted Selected Ion Monitoring and Electrospray Ionization in the negative mode were used to detect ABA. Measurements were performed using external calibration curves with the Xcalibur 4.0 and TraceFinder 4.1 SP1.

Acevedo O., Ponce C., Arellano M., Multari S., Carrera E., Donoso J.M., Martens S., Kuhn N, & Meisel L.A. (2023). ABA Biosynthesis- and Signaling-Related Gene Expression Differences between Sweet Cherry Fruits Suggest Attenuation of ABA Pathway in Bicolored Cultivars. Plants, 12(13), 2493.

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Quantification of Plant Hormones

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ABA, IAA, GA_1, and GA₄ were measured in both varieties at 34, 38, and 44 DAFB in the 2018–2019 season. For the extraction, 10 mg of flesh- and peel-enriched tissue was freeze-dried, ground, and suspended in 80% methanol—1% acetic acid solution containing internal standards (deuterium-labeled hormones; OlChemim Ltd., Olomouc, Czech Republic). The mix was shaken for one hour at 4ºC, and the extracted fraction was maintained at − 20ºC overnight. The samples were centrifuged, and the supernatant was vacuum dried and then dissolved in 1% acetic acid. A reverse-phase column (OasisHLB) was used⁵⁸, and the eluate was dried and dissolved in 5% acetonitrile—1% acetic acid. An autosampler and reverse-phase UHPLC chromatography column, 2.6 µm Accucore RP-MS, 100 mm × 2.1 mm (ThermoFisher Scientific, San Diego, CA, USA) were used. Then the hormones were separated using a gradient of acetonitrile (2%-55%) containing 0.05% acetic acid, at a rate of 400 µL/min over 22 min. ABA, IAA, GA_1, and GA₄ were detected in a Q-Exactive mass spectrometer (Orbitrap detector; ThermoFisher Scientific; San Diego, CA, USA). Targeted Selected Ion Monitoring and Electrospray Ionization in the negative mode were used to detect the hormones⁵⁸. The quantifications were performed using external calibration curves with the Xcalibur 4.0 and TraceFinder 4.1 SP1.

Kuhn N., Maldonado J., Ponce C., Arellano M., Time A., Multari S., Martens S., Carrera E., Donoso J.M., Sagredo B, & Meisel L.A. (2021). RNAseq reveals different transcriptomic responses to GA3 in early and midseason varieties before ripening initiation in sweet cherry fruits. Scientific Reports, 11, 13075.

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HPLC Optimization for Annona muricata

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The HPLC experiments were performed with a HPLC Ultimate 3000 system (Dionex, Voisins-le-Bretonneux, France) consisting of four modules: a degasser, a quaternary pump, a thermostated autosampler and a column oven. The HPLC separation method was previously described (Allegrand et al., 2010) . In order to improve the chromatographic resolution and to be as close as possible to SFC conditions, the method was improved by using a column based on solid core particles (Accucore RP-MS, 100 x 2.1 mm, 2.6 µm, Thermo Scientific, Courtaboeuf, France) equipped with a guard column. The column oven temperature was set at 20°C. The mobile phase was composed of water + 0.1 % formic acid (A) and acetonitrile + 0.1 % formic acid (B), following the gradient on B 40 % to 100 % (25 min) and 100 % during 7 min at a flow rate of 0.3 mL/min. Injection volume was fixed at 1 µL for the analysis of the methanol extract of Annona muricata and at 5 µL for the evaluation of the linearity, limits of detection and quantification. By working on these conditions, one HPLC separation uses about 12 mL of solvent (twice more than SFC separation).

Laboureur L., Bonneau N., Champy P., Brunelle A, & Touboul D. (2017). Structural Characterisation of Acetogenins from Annona muricata by Supercritical Fluid Chromatography Coupled to High-Resolution Tandem Mass Spectrometry. Phytochemical analysis : PCA, 28(6).

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