3D HNCO

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a gradient-based sensitivity-enhanced 3D HNCO experiment by typing (the hncogp3d pulse program

Channel	f1	f2	f3
Nucleus	1H	13C	15N
Offset	o1p	o2p	o3p
Carrier	4.75 ppm	172.5 ppm	115 ppm

The following hard and shaped pulses applied on the three channels must be previously calibrated:

Otherwhise, all required acquisition parameters can be displayed with the ased command. By default:
 

 

Dimension	F3	F2	F1
Nucleus	1H	15N	13C
TD	2048	40	128
Spectral width	NH  (14 ppm)	N  (32ppm)	13CO  (5.5 ppm)

 

The following interpulse delays are defined by default:

            d21 is optimized to 1/(2*J_N-H) (5.5 ms)
            d23 is optimized to 1/(4*J_N-CO) (12 ms)
            d26 is optimized to 1/(4*J_N-H) (2.3 ms)

All other delays are automatically calculated from these values. The user must be set the and as a function of sample concentration.

This experiment contains 5 gradients and the standard parameters are already defined with , and the gradient shapes defined by gpnam1-5=SINE.100 and with a ratio of 60:-40:10:80:8.1.

The standard processing parameters are set to:
 

Dimension	F3	F2	F1
SI	2048	256	512
MC2	-	echo/antiecho	States-TPPI
WDW	QSINE	QSINE	QSINE
Offset	2	2	2
ME_mod	no	LPfc	LPfc
NCOEF	0	32	32

 

List of available 3D HNCO versions.

Any version of the 3D HNCO experiment can be automatically recorded as a 2D experiment. The only thing to do is to set the number of experiments (TD) in one of the two indirect dimensions to 1 (eda window). After start acquisition with zg, data can be processed from the 3D menu display using xfb (the number of procno must be typed). In this way, the 2D H(N)CO and the 2D HN(CO) experiments can be recorded under the same experimental conditions. In fact, these are the two first 2D planes of the 3D data.

Related 3D Experiments.