Triple-Resonance Backbone-Sidechain |
3D CBCA(CO)NH experiment)
- 3D CBCA(CO)NH using PEP (cbcaconhgp3d | CBCACONHGP3D
3D CBCA(CO)NH using WATERGATE (cbcaconhgpwg3d | CBCACONHGPWG3D) 3D CBCA(CO)NH using TROSY (trcbcaconhgp3d | TRCBCACONHGP3D) 3D CBCA(CO)NH using TROSY and gradient echo-antiecho (trcbcaconhetgp3d | TRCBCACONHETGP3D) 3D CBCANH experiment )
- 3D CBCANH using PEP (cbcanhgp3d | CBCANHGP3D
3D CBCANH using WATERGATE (cbcanhgpwg3d | CBCANHGPWG3D) 3D CBCANH using TROSY (trcbcanhgp3d | TRCBCANHGP3D) 3D CBCANH using TROSY and gradient echo-antiecho (trcbcanhetgp3d | TRCBCANHETGP3D) 3D Sequential-CBCANH experiment ) 3D HBHA(CO)NH experiment
- 3D Sequential-CBCANH using TROSY (seqtrcbcanhgp3d | SEQTRCBCANHGP3D
)
- 3D HBHA(CO)NH using PEP (hbhaconhgp3d | HBHACONHGP3D
3D HBHA(CO)NH using WATERGATE (hbhaconhgpwg3d | HBHACONHGPWG3D) 3D HBHA(CO)NH using TROSY (trhbhaconhgp3d | TRHBHACONHGP3D) 3D HBHA(CO)NH using TROSY and gradient echo-antiecho (trhbhaconhetgp3d | TRHBHACONHETGP3D) 3D HBHANH experiment )
- 3D HBHANH using PEP (hbhanhgp3d) | HBHANHGP3D
3D HBHANH using WATERGATE (hbhanhgpwg3d) | HBHANHGPWG3D) 3D HBHANH using TROSY (trhbhanhgp3d | TRHBHACONHGP3D) 3D HBHANH using TROSY and gradient echo-antiecho (trhbhanhetgp3d | TRHBHANHETGP3D) 3D HN(CO)CACB experiment )
- 3D HN(CO)CACB using PEP (hncocacbgp3d | HNCOCACBGP3D
3D HN(CO)CACB with 2H-decoupling and PEP (hncocacbgp2h3d | HNCOCACBGP2H3D) 3D HN(CO)CACB using WATERGATE (hncocacbgpwg3d | HNCOCACBGPWG3D) 3D HN(CO)CACB with 2H-decoupling and WATERGATE (hncocacbgpwg2h3d | HNCOCACBGPWG2H3D) 3D HN(CO)CACB using TROSY (trhncocacbgp3d | TRHNCOCACBGP3D) 3D HN(CO)CACB with 2H-decoupling and TROSY (trhncocacbgp2h3d | TRHNCOCACBGP2H3D) 3D HN(CO)CACB using TROSY and gradient echo-antiecho (trhncocacbetgp3d | TRHNCOCACBETGP3D) 3D HN(CO)CACB with 2H-decoupling and TROSY and gradient echo-antiecho (trhncocacbetgp2h3d | TRHNCOCACBETGP2H3D) 3D HNCACB experiment )
- 3D HNCACB using PEP (hncacbgp3d | HNCACBGP3D
3D HNCACB with 2H-decoupling and PEP (hncacbgp2h3d | HNCACBGP2H3D) 3D HNCACB using WATERGATE (hncacbgpwg3d | HNCACBGPWG3D) 3D HNCACB with 2H-decoupling and WATERGATE (hncacbgpwg2h3d | HNCACBGPWG2H3D) 3D HNCACB using TROSY (trhncacbgp3d, trhncacbgp3d.2 | TRHNCACBGP3D) 3D HNCACB with 2H-decoupling and TROSY (trhncacbgp2h3d | TRHNCACBGP2H3D) 3D HNCACB using TROSY and gradient echo-antiecho (trhncacbetgp3d | TRHNCACBETGP3D) 3D HNCACB with 2H-decoupling and TROSY and gradient echo-antiecho (trhncacbetgp2h3d | TRHNCACBETGP2H3D) 3D intra-HNCACB experiment )
- 3D intra-HNCACB using PEP (hncacbigp3d | HNCACBIGP3D
3D intra-HNCACB using WATERGATE (hncacbigpwg3d | HNCACBIGPWG3D) 3D intra-HNCACB using TROSY (trhncacbigp3d | TRHNCACBIGP3D) 3D intra-HNCACB using TROSY and gradient echo-antiecho (trhncacbietgp3d | TRHNCACBIETGP3D) 3D intra-HNCACB with 2H-decoupling and PEP (hncacbigp2h3d | HNCACBIGP2H3D) 3D intra-HNCACB with 2H-decoupling and WATERGATE (hncacbigpwg2h3d | HNCACBIGPWG2H3D) 3D intra-HNCACB with 2H-decoupling and TROSY (trhncacbigp2h3d | TRHNCACBIGP2H3D) 3D intra-HNCACB with 2H-decoupling and TROSY and gradient echo-antiecho (trhncacbietgp2h3d | TRHNCACBIETGP2H3D) 3D Sequential-HNCACB experiment )
- 3D Sequential-HNCACB using TROSY (seqtrhncacbgp3d | SEQTRHNCACBGP3D
3D Sequential-HNCACB using TROSY and gradient echo-antiecho (seqtrhncacbetgp3d | SEQTRHNCACBETGP3D) 3D Sequential-HNCACB with 2H-decoupling and TROSY (seqtrhncacbgp2h3d | SEQTRHNCACBGP2H3D) 3D Sequential-HNCACB with 2H-decoupling and TROSY and gradient echo-antiecho (seqtrhncacbetgp2h3d | SEQTRHNCACBETGP2H3D) 3D CCANH experiment )
- 3D CCANH using PEP (ccanhgp3d | CCANHGP3D
3D CCANH using PEP and 1H-NOE during relaxation (ccanhgp3d.2 | CCANHGP3D.2) 3D CCANH with 2H-decoupling and PEP (ccanhgp2h3d | CCANHGP2H3D) 3D CCA(CO)NH experiment (ccaconhgp3d | CCACONHGP3D)
- 3D CCA(CO)NH using PEP
3D CCA(CO)NH using PEP and 1H-NOE during relaxation (ccaconhgp3d.2 | CCACONHGP3D.2) 3D CCA(CO)NH with 2H-decoupling and PEP (ccaconhgp2h3d | CCACONHGP2H3D) 3D CC(CO)NH experiment (ccconhgp3d | CCCONHGP3D)
- 3D CC(CO)NH using PEP
3D CC(CO)NH with 2H-decoupling and PEP (ccconhgp2h3d | CCCONHGP2H3D) 3D (H)CC(CO)NH experiment ( hccconhgp3d3 | HCCCONHGP3D3)
- 3D (H)CC(CO)NH using PEP
3D (H)CC(CO)NH using WATERGATE ( hccconhgpwg3d3 | HCCCONHGPWG3D3) 3D (H)CC(CO)NH using TROSY ( trhccconhgp3d3 | TRHCCCONHGP3D3) 3D (H)CC(CO)NH using TROSY with additional gradient ( trhccconhgp3d3.2 | TRHCCCONHGP3D3.2) 3D (H)CC(CO)NH using TROSY and gradient echo-antiecho ( trhccconhetgp3d3 | TRHCCCONHETGP3D3) 3D (H)CC(CO)NH using TROSY with additional gradient and gradient echo-antiecho ( trhccconhetgp3d3.2 | TRHCCCONHETGP3D3.2) 3D H(CC)(CO)NH experiment )
- 3D H(CC)(CO)NH using PEP and 1H-13C CP transfer (hccconhgp3d1 | HCCCONHGP3D1
3D H(CC)(CO)NH using PEP (hccconhgp3d2 | HCCCONHGP3D2) 3D H(CC)(CO)NH using WATERGATE ( hccconhgpwg3d2 | HCCCONHGPWG3D2) 3D H(CC)(CO)NH using TROSY ( trhccconhgp3d2 | TRHCCCONHGP3D2) 3D H(CC)(CO)NH using TROSY and gradient echo-antiecho ( trhccconhetgp3d2 | TRHCCCONHETGP3D2) 3D HCBCA(CO)N experiment )
- 3D HCBCA(CO)N (hcbcacongp3d | HCBCACONGP3D