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Kinetex 2.6 m evo c18 column

Manufactured by Phenomenex
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The Kinetex 2.6 µm EVO C18 column is a high-performance liquid chromatography (HPLC) column designed for the separation and analysis of a wide range of analytes. It features a 2.6 µm particle size and a C18 stationary phase, which provides efficient and high-resolution separations.

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Lab products found in correlation

Ultimate 3000, by Thermo Fisher Scientific (3 mentions) Velos pro, by Thermo Fisher Scientific (3 mentions) Xcalibur, by Thermo Fisher Scientific (2 mentions)

Spelling variants of this product

Kinetex C18 column (513 citations) C18 column (366 citations) Kinetex C18 (225 citations) Kinetex EVO C18 column (71 citations) Kinetex column (60 citations) Kinetex EVO C18 (33 citations) Kinetex EVO (8 citations) Kinetex 2.6 µm (6 citations) Kinetex EVO column (6 citations) Kinetex 2.6 µm C18 column (2 citations)

3 protocols using kinetex 2.6 m evo c18 column

1

LC-HRMS Analysis of Compounds

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LC-HRMS analysis was performed on a Thermo Scientific Velos Pro instrument equipped with HESI source and Dionex UltiMate 3000 chromatography system. Samples were deproteinised as described for TLC. Compounds were separated on a Kinetex 2.6 µm EVO C18 column (2.1 ? 100 mm, Phenomenex) using a linear gradient of acetonitrile (B) against 20 mM ammonium bicarbonate (A): 0 – 5 min 2% B, 5 – 33 min 2 – 15% B, 33 – 35 min 15 – 98% B, 35 – 40 min 98% B, 40 – 41 min 98 – 2% B, 41 – 45 min 2% B. The flow rate was 350 µl min-1 and column temperature was 40 °C. UV data were recorded at 254 nm. Mass data were acquired on the FT mass analyzer in negative ion mode with scan range m/z 150 – 1500 at a resolution of 30,000. Source voltage was set to 3.5 kV, capillary temperature was 350 °C, and source heater temperature was 250 °C. Data were analysed using Xcalibur (Thermo Scientific). Extracted ion chromatograms were smoothed using the Boxcar function at default settings.
Athukoralage J.S., Rouillon C., Graham S., Grüschow S, & White M.F. (2018). Ring nucleases deactivate Type III CRISPR ribonucleases by degrading cyclic oligoadenylate. Nature, 562(7726), 277-280.
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2

Metabolite Profiling by LC-HRMS

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Liquid chromatography-high resolution mass spectrometry (LC-HRMS) analysis was performed on a Thermo Scientific Velos Pro instrument equipped with HESI source and Dionex UltiMate 3000 chromatography system. Compounds were separated on a Kinetex 2.6 µm EVO C18 column (2.1 × 100 mm, Phenomenex) using a linear gradient of 2–15% acetonitrile against 20 mM ammonium bicarbonate pH 8 (gradient start delay 5 min, gradient length 28 min) at a flow rate of 350 µl min−1 and column temperature of 40°C. Data were acquired on the FT mass analyzer in negative ion mode with scan range m/z 150–1500. Source voltage was set to 3.5 kV, capillary temperature was 350°C, and source heater temperature was 250°C.
Rouillon C., Athukoralage J.S., Graham S., Grüschow S, & White M.F. (2018). Control of cyclic oligoadenylate synthesis in a type III CRISPR system. eLife, 7, e36734.
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3

LC-HRMS Analysis of Compounds

Check if the same lab product or an alternative is used in the 5 most similar protocols
LC-HRMS analysis was performed on a Thermo Scientific Velos Pro instrument equipped with HESI source and Dionex UltiMate 3000 chromatography system. Samples were deproteinised as described for TLC. Compounds were separated on a Kinetex 2.6 µm EVO C18 column (2.1 ? 100 mm, Phenomenex) using a linear gradient of acetonitrile (B) against 20 mM ammonium bicarbonate (A): 0 – 5 min 2% B, 5 – 33 min 2 – 15% B, 33 – 35 min 15 – 98% B, 35 – 40 min 98% B, 40 – 41 min 98 – 2% B, 41 – 45 min 2% B. The flow rate was 350 µl min-1 and column temperature was 40 °C. UV data were recorded at 254 nm. Mass data were acquired on the FT mass analyzer in negative ion mode with scan range m/z 150 – 1500 at a resolution of 30,000. Source voltage was set to 3.5 kV, capillary temperature was 350 °C, and source heater temperature was 250 °C. Data were analysed using Xcalibur (Thermo Scientific). Extracted ion chromatograms were smoothed using the Boxcar function at default settings.
Athukoralage J.S., Rouillon C., Graham S., Grüschow S, & White M.F. (2018). Ring nucleases deactivate Type III CRISPR ribonucleases by degrading cyclic oligoadenylate. Nature, 562(7726), 277-280.
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