Samplejet rack tube

Manufactured by Bruker

Sourced in Germany

The SampleJet rack tube is a laboratory equipment component designed to hold and transport samples in a controlled and organized manner. It serves as a rack or holder for multiple sample tubes, enabling efficient sample handling and management within a laboratory setting. The core function of the SampleJet rack tube is to provide a structured and secure environment for storing and transporting samples, facilitating the organization and processing of laboratory experiments.

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Lab products found in correlation

Serum buffer, by Bruker (5 mentions) Noesygppr1d, by Bruker (4 mentions) Cpmgpr1d, by Bruker (4 mentions) Jresgpprqf, by Bruker (3 mentions) Avance neo nmr spectrometer, by Bruker (3 mentions) Avance neo 600 mhz nmr spectrometer, by Bruker (2 mentions) Ivdr lipoprotein subclass analysis, by Bruker (1 mentions)

Spelling variants of this product

SampleJet (36 citations) SampleJet tubes (3 citations)

5 protocols using samplejet rack tube

NMR-based Lipoprotein Subclass Analysis

Cited 2 times

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Serum levels of apoB-containing lipoproteins were measured on a Bruker 600 MHz Avance Neo NMR spectrometer using the Bruker IVDr lipoprotein subclass analysis protocol, as described previously [7 (link),48 (link)]. Briefly, serum samples were thawed, and 330 µL of each sample was mixed with 330 µL of Bruker serum buffer (Bruker, Rheinstetten, Germany). The samples were mixed gently and 600 µL of the mixed sample was transferred into a 5 mm SampleJet rack tube (Bruker, Rheinstetten, Germany). Proton spectra were obtained at a constant temperature of 310 K using a standard Nuclear Overhauser Effect Spectroscopy (NOESY) pulse sequence (Bruker: noesygppr1d), a Carr–Purcell–Meiboom–Gill (CPMG) pulse sequence with presaturation during the relaxation delay (Bruker: cpmgpr1d) to achieve water suppression, and a standard 2D J-resolved (JRES) pulse sequence (Bruker: jresgpprqf). Data analysis was carried out using the Bruker IVDr Lipoprotein Subclass Analysis (B.I.LISA™, Bruker, Rheinstetten, Germany) method. Lipid contents of apoB-containing lipoprotein particles were calculated as ratios of serum levels of the respective lipid in apoB-containing lipoprotein (mg/dL) and apoB in apoB-containing lipoprotein (mg/dL).

Klobučar I., Klobučar L., Lechleitner M., Trbušić M., Pregartner G., Berghold A., Habisch H., Madl T., Frank S, & Degoricija V. (2023). Associations between Endothelial Lipase and Apolipoprotein B-Containing Lipoproteins Differ in Healthy Volunteers and Metabolic Syndrome Patients. International Journal of Molecular Sciences, 24(13), 10681.

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NMR Lipoprotein Subclass Analysis

Cited 1 time

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Blood serum lipoproteins were measured on a Bruker 600 MHz Avance Neo NMR spectrometer using the Bruker IVDr LIpoprotein Subclass Analysis protocol as described [25 (link)]. Briefly, serum samples were thawed, and 330 µL of each sample was mixed with 330 µL of Bruker serum buffer (Bruker, Rheinstetten, Germany). The samples were mixed gently, and 600 µL of the mixed sample was transferred into a 5 mm SampleJet rack tube (Bruker, Rheinstetten, Germany). Proton spectra were obtained at a constant temperature of 310 K using a standard nuclear Overhauser effect spectroscopy (NOESY) pulse sequence (Bruker, Rheinstetten, Germany: noesygppr1d), a Carr–Purcedll–Meiboom–Gill (CPMG) pulse sequence with presaturation during the relaxation delay (Bruker, Rheinstetten, Germany: cpmgpr1d) to achieve water suppression, and a standard 2D J-resolved (JRES) pulse sequence (Bruker, Rheinstetten, Germany: jresgpprqf). Data analysis was carried out using the Bruker IVDr LIpoprotein Subclass Analysis (B.I.LISA^™, Rheinstetten, Germany) method.

Degoricija V., Klobučar I., Potočnjak I., Dokoza Terešak S., Vidović L., Pregartner G., Berghold A., Habisch H., Madl T, & Frank S. (2022). Cholesterol Content of Very-Low-Density Lipoproteins Is Associated with 1-Year Mortality in Acute Heart Failure Patients. Biomolecules, 12(10), 1542.

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Lipoprotein Profiling by NMR Spectroscopy

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Blood serum lipoproteins were measured on a Bruker 600 MHz Avance Neo NMR spectrometer using the Bruker IVDr lipoprotein subclass analysis protocol. Serum samples were thawed, and 330 µL of each sample mixed with 330 µL of Bruker serum buffer (Bruker, Rheinstetten, Germany). The samples were mixed gently, and 600 µL of the mixed sample were transferred into a 5 mm SampleJet rack tube (Bruker). Proton spectra were obtained at a constant temperature of 310 K using a standard nuclear Overhauser effect spectroscopy (NOESY) pulse sequence (Bruker: noesygppr1d), a Carr–Purcedll–Meiboom–Gill (CPMG) pulse sequence with presaturation during the relaxation delay (Bruker: cpmgpr1d) to achieve water suppression, and a standard 2D J-resolved (JRES) pulse sequence (Bruker: jresgpprqf). Data analysis was carried out using the Bruker IVDr LIpoprotein Subclass Analysis (B.I.LISA^TM, Bruker, Rheinstetten, Germany) method.

Schilcher I., Stadler J.T., Lechleitner M., Hrzenjak A., Berghold A., Pregartner G., Lhomme M., Holzer M., Korbelius M., Reichmann F., Springer A., Wadsack C., Madl T., Kratky D., Kontush A., Marsche G, & Frank S. (2021). Endothelial Lipase Modulates Paraoxonase 1 Content and Arylesterase Activity of HDL. International Journal of Molecular Sciences, 22(2), 719.

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NMR Analysis of HDL Subclasses

Cited 2 times

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Serum levels of total HDL-C, HDL-TG, HDL-PL, HDL-apoA-I, and HDL-apoAII, as well as of their 4 size/density subclasses (HDL1: 1.063–1.100 kg/L; HDL2: 1.100–1.112 kg/L; HDL3: 1.112–1.125 kg/L; HDL4: 1.125–1.210 kg/L), were measured on a Bruker 600 MHz Avance Neo NMR spectrometer using the Bruker IVDr lipoprotein subclass analysis protocol, as described [17 (link),60 (link)]. Briefly, serum samples were thawed, and 330 µL of each sample was mixed with 330 µL of Bruker serum buffer (Bruker, Rheinstetten, Germany). The samples were mixed gently and 600 µL of the mixed sample was transferred into a 5 mm SampleJet rack tube (Bruker). Proton spectra were obtained at a constant temperature of 310 K using a standard Nuclear Overhauser Effect Spectroscopy (NOESY) pulse sequence (Bruker: noesygppr1d), a Carr–Purcell–Meiboom–Gill (CPMG) pulse sequence with presaturation during the relaxation delay (Bruker: cpmgpr1d) to achieve water suppression, and a standard 2D J-resolved (JRES) pulse sequence (Bruker: jresgpprqf). Data analysis was carried out using the Bruker IVDr LIpoprotein Subclass Analysis (B.I.LISA^TM, Bruker Biospin, Rheinstetten, Germany).

Klobučar I., Stadler J.T., Klobučar L., Lechleitner M., Trbušić M., Pregartner G., Berghold A., Habisch H., Madl T., Marsche G., Frank S, & Degoricija V. (2023). Associations between Endothelial Lipase, High-Density Lipoprotein, and Endothelial Function Differ in Healthy Volunteers and Metabolic Syndrome Patients. International Journal of Molecular Sciences, 24(3), 2073.

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NMR Analysis of Serum Lipoproteins

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Blood serum lipoproteins were analyzed on a Bruker 600 MHz Avance Neo NMR spectrometer using the Bruker IVDr lipoprotein subclass analysis protocol. Serum samples were thawed, and 330 µL of each sample mixed with 330 µL of Bruker serum buffer (Bruker, Rheinstetten, Germany). The samples were mixed gently, and 600 µL of the mixed sample were transferred into a 5 mm SampleJet rack tube (Bruker, Rheinstetten, Germany). Proton spectra were obtained at a constant temperature of 310 K using a standard nuclear Overhauser effect spectroscopy (NOESY) pulse sequence (Bruker: noesygppr1d), a Carr–Purcedll–Meiboom–Gill (CPMG) pulse sequence with presaturation during the relaxation delay (Bruker: cpmgpr1d) to achieve water suppression, and a standard 2D J-resolved (JRES) pulse sequence (Bruker: jresgpprqf) [9 (link)]. Data analysis was carried out using the Bruker IVDr Lipoprotein Subclass Analysis (B.I.LISA^TM) method.

Reisinger A.C., Posch F., Hackl G., Marsche G., Sourij H., Bourgeois B., Eller K., Madl T, & Eller P. (2021). Branched-Chain Amino Acids Can Predict Mortality in ICU Sepsis Patients. Nutrients, 13(9), 3106.

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