ge-2D 1H-X-Y Inverse
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ge-2D 1H-X-Y Inverse |
In principle, any triple-resonance 3D 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. After start acquisition with zg, data can be processed from the 3D menu using xfb (the number of procno must be typed). In this way, for instance, from the 3D HNCO parameter set the 2D H(N)CO and the 2D HN(CO) experiments can be recorded under the same conditions. These are the two first 2D planes of the 3D data.
ge-2D 1H-X HSQC experiment with X-Y-decoupling during acquisition and with selective Cb/C=O decoupling. (hsqcdhetgpsp) 2D HACAN with 2H-decoupling(hcangp2h | HCANGP2H) 2D H[CACO]N with 2H-decoupling (hcacongp2h)
2D w2-13C-edited TOCSY
2D w2-13C-edited NOESY
2D w2-15N-edited TOCSY
2D w2-15N-edited NOESY
2D w1-13C/w2-15N-edited NOESY
2D w1-15N/w2-13C-edited NOESY
2D w1-15N/w2-15N-edited NOESY
2D HN(CO) / 2D H(N)CO
2D HN(CA) / 2D H(N)CA
2D HN(COCA) / 2D H(NCO)CA
2D HN(CACO) / 2D H(NCA)CO
2D HN(CANH) / 2D H(NCAN)H
2D HN(CAHA) / 2D H(NCA)HA
2D (CBCACO)NH / 2D CBCA(CON)H
2D (HBHACO)NH / 2D HBHA(CON)H
2D (HBHA)NH / 2D HBHA(N)H
2D (CBCA)NH / 2D CBCA(N)H
2D (CCA)NH / 2D CCA(N)H
2D (HCCCO)NH / 2D (H)CC(CON)H
2D (HCCCO)NH / 2D H(CCCON)H
2D H(CA)CO / 2D HCA(CO)