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Qp 5000 gc ms

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The QP-5000 GC-MS is a gas chromatography-mass spectrometry (GC-MS) instrument manufactured by Shimadzu. It is designed to perform qualitative and quantitative analysis of complex organic and inorganic compounds by combining gas chromatography separation and mass spectrometry detection.

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Lab products found in correlation

96 well plate, by Greiner (2 mentions) Cw 2000, by Heidolph (1 mentions) Ob2000, by Heidolph (1 mentions) Whatman no 1, by Cytiva (1 mentions) As 220 c 2, by Radwag (1 mentions)

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GC-MS (75 citations) QP-5000 (20 citations)

4 protocols using qp 5000 gc ms

1

Comprehensive Phytochemical Analysis

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In this study, the following instruments were used: Gas Chromatography Mass Spectrometry (GC-MS) (QP-5000 GC-MS Shimadzu, Japan), ultrasonic-microwave cooperative extractor/reactor (CW-2000, China), rotary evaporator (Heidolph OB2000, VV2000, Germany), UV visible spectrophotometer (Jenway 7315, England), grinder (Moulinex model, Uno. China), balance (Radw ag, AS 220/c/2, Poland), filter paper (Machrery-Nagel, MN 617 and Whatman no.1, USA), micropipettes (Finnpipette, Finland), incubator (Nuve, Turkey), syringe filter 0.45 μm pore size (Microlab, China) and 96-well plates (Greiner bio-one, North America).
Jaradat N., Adwan L., K’aibni S., Shraim N, & Zaid A.N. (2016). Chemical composition, anthelmintic, antibacterial and antioxidant effects of Thymus bovei essential oil. BMC Complementary and Alternative Medicine, 16, 418.
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2

GC-MS Analysis of Compounds

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GC-MS chromatograms were recorded using Shimadzu QP-5000 GC-MS. The GC was equipped with Rtx-5 ms column (30 m long, 0.25 μm thickness and 0.250 mm inner diameter). Helium was used as a carrier gas at a flow rate of 1 ml/min. Injector temperature was 220 °C. Oven temperature was programmed from 50 °C (1 min hold) at 5 °C/min to 130 °C, then at 10 °C/min to 250 °C and kept isothermally for 15 min. Transfer line temperature was 290 °C. For GC-MS detection, an electron ionization system, with detector volts of 1.7 KV was used. A scan rate of 0.5 s, and scan speed 1000 amu/s was applied, covering a mass range from 38–450 M/Z.
Jaradat N., Adwan L., K’aibni S., Shraim N, & Zaid A.N. (2016). Chemical composition, anthelmintic, antibacterial and antioxidant effects of Thymus bovei essential oil. BMC Complementary and Alternative Medicine, 16, 418.
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3

GC-MS Analysis of Metabolites

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The GC-MS chromatograms were recorded using Shimadzu QP-5000 GC-MS. The GC was equipped with Rtx-5 ms column (30 m long, 0.25 μm thickness, and 0.25 mm inner diameter). Helium was used as a carrier gas at a flow rate of 1 ml/min. The injector temperature was 220°C. The oven temperature was programmed from 50°C (1 min hold) at 5°C/min to 130°C and then at 10°C/min to 250°C and was kept isothermally for 15 min. Transfer line temperature was 290°C.
For GC-MS detection, an electron ionization system, with detector volts of 1.7 KV, was used. A scan rate of 0.5 s and scan speed 1000 amu/sec were applied, covering a mass range 38–450 M/Z.
Jaradat N., Adwan L., K'aibni S., Zaid A.N., Shtaya M.J., Shraim N, & Assali M. (2017). Variability of Chemical Compositions and Antimicrobial and Antioxidant Activities of Ruta chalepensis Leaf Essential Oils from Three Palestinian Regions. BioMed Research International, 2017, 2672689.
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4

GC-MS Analysis of Essential Oils

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Gas chromatography mass spectrometry (GC-MS) (QP-5000 GC-MS Shimadzu, Japan) was used to assess the chemical composition of the essential oils. Ultrasonic-microwave cooperative extractor/reactor (CW-2000, China) was used to extract the essential oils. UV-visible spectrophotometer (Jenway 7315, England) was used to assess the antioxidant activity. Grinder (Moulinex model, Uno, China) was used to mill the dried plants. Balance (Radw ag, AS 220/c/2, Poland) was used for sensitive weighing of the samples. Filter papers (Macherey-Nagel, MN 617 and Whatman no. 1, USA), micropipettes (Finnpipette, Finland), incubator (Nuve, Turkey), syringe filter 0.45 μm pore size (Microlab, China), and 96-well plates (Greiner bio-one, North America) were used for antimicrobial tests.
Jaradat N., Adwan L., K'aibni S., Zaid A.N., Shtaya M.J., Shraim N, & Assali M. (2017). Variability of Chemical Compositions and Antimicrobial and Antioxidant Activities of Ruta chalepensis Leaf Essential Oils from Three Palestinian Regions. BioMed Research International, 2017, 2672689.
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