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If you are using a Shigemi tube, make sure you include the shigemi mention in the parameters section.

Transmitter offset determination (O1)

Before recording a NMR spectrum, we need to set the frequency of the transmitted pulse at the centre of the desired observed resonances.

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For biomolecules in aqueous solutions, this frequency is typically the frequency of the water proton, at around 4.7 ppm. Considering that our sample is typically in the micromolar (10-6) concentration range, the intensity of the signal coming from the water molecules will be about 5 orders of magnitude greater. We therefore need to use NMR "tricks" to suppress this particular water signal. This is done by setting the transmitter frequency on resonance with the water protons (offset value in Hz from the base frequency corresponding to the parameter O1), and can be determined experimentally using the AU program o1calib. Alternatively, one could use the popt program, array O1 around the estimated value and determine the frequency offset at which the water proton signal is at its minimum. More information on popt here.

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90° pulse calibration (P1)

Another key parameter to optimize prior to recording your first NMR experiment is the duration of the 90° pulse for maximum signal strength and making sure the bulk magnetization is brought along the x-y plane. In TopSpin, this parameter is called P1 and can be optimized automatically (using a stroboscopic nutation method) using the AU program pulsecal. The optimal pulse length will be determined at the set power (PLW1) and getprosol will be executed at the end of the AU program in order for the other pulses to be calculated.

Alternatively, you can determine the optimal P1 manually by testing an array of values corresponding to 360° pulses (4x the duration of the 90° pulse), via the popt program and optimizing for the null (zero intensity). Then the value is divided by 4 to obtain the 90° value.

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This value of P1 will be sample-dependent.

Automated O1 and P1 determination

Bruker has put together a calibration routine which (1) automates the determination of the optimal O1 and P1, and (2) records a 1D proton spectrum of the sample (using the zgesgp pulse program). The AU program to launch is calibo1p1. Then the values of O1 and P1 can be transferred to the following experiments. You need to make sure you execute getprosol in the other experiments to calculate all the pulses based on P1.

getprosol 1H [P1 value in µs] [PLW1]W

For example: getprosol 1H 8.60 12.614W

Data acquisition

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