Urine, feces, serum, and tissue samples were prepared according to previously published protocols [27] (link), [35] (link). Individual BALF samples (200 µl) were mixed with phosphate buffer (400 µl) and 550 µl of the mixture was subsequently transferred into 5 mm diameter standard NMR tubes for data acquisition (Bruker Biospin, Rheinstetten). All biological samples were analyzed using a 600 MHz Avance DRX NMR spectrometer (Bruker; Rheinstetten), employing a standard one dimensional (1D) 1H NMR Noesypr1d pulse sequence with water suppression (recycle delay (rd)-90°-t1-90°-tm-90°-acquisition time) for all samples. Recycle delay (rd) and mixing time (tm) were set to 2 s and 100 ms respectively. For obtaining more comprehensive information on the serum samples, two additional pulse programs were utilized namely Carr-Purcell-Meiboom-Gill (cpmgpr) and diffusion edited spectroscopy (ledbipolpr) [35] (link). The numbers of scans were adjusted for each biological matrix, whereby urine and serum were analyzed in 256 and extracts in 128 scans to obtain maximum signal output. Data from each sample was accumulated into 32 k data points within a spectral width of 20 ppm.
Avance drx nmr spectrometer
Manufactured by Bruker
The Avance DRX NMR spectrometer is a laboratory instrument designed for nuclear magnetic resonance (NMR) spectroscopy. It is capable of analyzing the structure and properties of chemical compounds through the detection and analysis of nuclear magnetic resonances.
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Lab products found in correlation
2 protocols using avance drx nmr spectrometer
1
NMR Spectroscopy of Biological Samples
2
NMR Analysis of PhtFerr:RAMEßCD Complex
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All experiments were performed on a Bruker Avance DRX-NMR spectrometer operating at 9.4 T (proton frequency: 400.133 MHz) and at a sample temperature of 300 K.
The lyophilized PhtFerr:RAMEßCD complex and pure PhtFerr were dissolved in D 2 O:DMSO-d 6 (99:1) adjusted at pD=10.9 with NaOD. This mixture was used for solubility reasons: an alkaline pH can transform phenol in ionized form (phenolates).
Chemical shifts were given in parts per million (ppm) relative to the solvent signal (HOD at 4.84 ppm).
The lyophilized PhtFerr:RAMEßCD complex and pure PhtFerr were dissolved in D 2 O:DMSO-d 6 (99:1) adjusted at pD=10.9 with NaOD. This mixture was used for solubility reasons: an alkaline pH can transform phenol in ionized form (phenolates).
Chemical shifts were given in parts per million (ppm) relative to the solvent signal (HOD at 4.84 ppm).
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