A new off-resonance spin-lock experiment to record relaxation dispersion profiles of amide protons is presented. The sensitivity-enhanced HSQC-type sequence is designed to minimize the interference from cross-relaxation effects and ensure that the dispersion profiles in the absence of micros-ms time-scale dynamics are flat. Toward this end (i) the proton background is eliminated by sample deuteration (Ishima et al., 1998), (ii) 1H spin lock is applied to two-spin modes 2(H(x)Sin theta + H(z)Cos theta) N(z), and (iii) the tilt angle theta approximately 35 degrees is maintained throughout the series of measurements (Desvaux et al. Mol. Phys., 86 (1995) 1059). The relaxation dispersion profiles recorded in this manner sample a wide range of effective rf field strengths (up to and in excess of 20 kHz) which makes them particularly suitable for studies of motions on the time scale < or = 100 micros. The new experiment has been tested on the Ca2+-loaded regulatory domain of cardiac troponin C. Many residues show pronounced dispersions with remarkably similar correlation times of approximately 30 micros. Furthermore, these residues are localized in the regions that have been previously implicated in conformational changes (Spyracopoulos et al. Biochemistry, 36 (1997) 12138).
In extracts of senescent leaves of the tobacco plant Nicotiana rustica, two colorless compounds with UV/VIS characteristics of nonfluorescent chlorophyll catabolites (NCCs) were detected and tentatively identified as Nr-NCCs. These two polar NCCs were found in similar amounts in the fresh extracts, and their constitutions could be determined by spectroscopic analysis. The data showed both of the two Nr-NCCs to have the same tetrapyrrolic core structure, as reported previously for all other NCCs from senescent higher plants. In the less polar catabolite, named Nr-NCC-2, this core structure was conjugated with a glucopyranose unit, as similarly discovered earlier in Bn-NCC-2, an NCC from oilseed rape (Brassica napus). The more polar NCC from tobacco leaves, Nr-NCC-1, carried an additional malonyl substituent at the 6'-OH group of the glucopyranosyl moiety. Partial (enzyme-catalyzed) hydrolysis of Nr-NCC-1 gave Nr-NCC-2, while enzyme-catalyzed malonylation of Nr-NCC-2 gave Nr-NCC-1, establishing the identity of their basic tetrapyrrole structure. In earlier work (on the polar NCCs from oilseed rape), only separate glucopyranosyl and malonyl functionalities were detected. Nr-NCC-1, thus, represents a further variant of the structures of NCCs from senescent higher plants and exhibits an unprecedented peripheral refunctionalization in chlorophyll catabolites.
The preparation of a covalent DNA conjugate of vitamin B12 by means of heterogeneous solid-phase synthesis is reported. The cyano-corrinoid made available, dipotassium Co(beta)-cyanocobalamin-(3''-->2'),(3''-->5')-bis-2''-deoxythymidyl-3''-ate (K(2)-4), was cleanly methylated at the Co center by electrosynthetic means. Aqueous solutions of the resulting organometallic DNA-B12 conjugate K(2)-5 exhibited spectroscopic properties indicative of significant weakening of the axial (Co-N) bond, together with a 25-times higher basicity relative to Co(beta)-methylcobalamin (2). Methyl-transfer equilibria of pH-neutral aqueous solutions of K(2)-5 and cob(I)alamin (K-7) on one side, and of cob(I)alamin-(3''-->2'),(3''-->5')-bis-2''-deoxythymidyl-3''-ate (K(3)-8) and methylcobalamin (2) on the other, were studied at room temperature (Scheme 3). The NMR-derived data provided an equilibrium constant of ca. 0.3. Activation of K(2)-5 for abstraction of its Co-bound Me group by a nucleophile (such as cob(I)alamin) was, thus, indicated.
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