The greatly improved sensitivity resulting from the use of TROSY during N-1
5 evolution and amide proton acquisition enables the recording of HNCA spec
tra of large proteins with constant-time C-13(alpha) evolution. In [C-13]-c
t-[N-15,H-1]-TROSY-HNCA experiments with a H-2/C-13/N-15-labeled 110 kDa pr
otein, 7,8-dihydroneopterin aldolase from Staphylococcus aureus, nearly all
correlation peaks seen in the [N-15,H-1]-TROSY-HNCA spectrum were also det
ected. The improved resolution in the C-13 dimension then enabled a signifi
cant number of sequential assignments that could not be obtained with [N-15
,H-1]-TROSY-HNCA without [C-13]-constant-time period.