1H and 13C NMR assignment and secondary structure of Chlorobium limicola f. thiosulfatophilum ferrocytochrome c555.

The 1H resonances of the ferrocytochrome c555 from the anaerobic green sulfur bacterium Chlorobium limicola f thio-sulfatophilum (strain Tassajara) have been assigned. Identification of spin systems and sequential assignment of 1H was accomplished by automated assignment computer programs followed by manual verification. In addition, 13C resonances have been extensively assigned by HSQC experiments at natural abundance. As determined by short-range NOE connectivities, 13C alpha chemical shifts, and HN exchange experiments, the secondary structure consists of 3 helices ranging from residues 3-13, 43-53 and 70-86. Interestingly, the second helix is significantly longer than observed by X-ray crystallography [1977, Proc. Natl. Acad. Sci. USA 74, 5244-5247]. A topological model of the cytochrome c555 is presented based on a small number of long-range NOE contacts. The helices are shown to pack onto the heme according to the pattern common to all class I cytochromes c.

[Progressive myopia and posterior scleral reinforcement: retrospective studies]. / Myopie progressive et renforcement scléral postérieur: étude rétrospective.

We evaluated the long and middle terms results in a retrospective study of Posterior Scleral Reinforcement in progressive myopia. We discuss the inclusion criteria and the results in terms of refraction, visual acuity, axial length, intra-ocular pressure, complications and patient's subjective appreciation. The surgical procedure of Posterior Scleral Reinforcement stabilises the evolution of progressive myopia in time. A systemic prospective study is needed for more precisions on those first encouraging results.

Computer assignment of the backbone resonances of labelled proteins using two-dimensional correlation experiments.

We present ALPS (Assignment for Labelled Protein Spectra), a flexible computer program for the automatic assignment of backbone NMR resonances of (15)N/(13)C-labelled proteins. The program constructs pseudoresidues from peak-picking lists of a set of two-dimensional triple resonance experiments and uses either a systematic search or a simulated annealing-based optimization to perform the assignment. This method has been successfully tested on two-dimensional triple resonance spectra of Rhodobacter capsulatus ferrocytochrome c (2) (116 amino acids).

1H, 13C, 15N-NMR resonance assignments of oxidized thioredoxin h from the eukaryotic green alga Chlamydomonas reinhardtii using new methods based on two-dimensional triple-resonance NMR spectroscopy and computer-assisted backbone assignment.

The cytosolic thioredoxin h (112 amino acids, 11.8 kDa) cDNA from the eukaryotic green alga Chlamydomonas reinhardtii has been over-expressed in Escherichia coli and the protein was uniformly labelled with 13C and 15N. For the backbone resonance assignments (HN, N, C alpha, CO and H alpha) we used a new set of two-dimensional triple-resonance correlation experiments [Simorre, J.-P., Brutscher, B., Caffrey, M. S. & Marion, D. (1994) J. Biomol. NMR 4, 325-333; Brutscher, B., Simorre, J.-P., Caffrey, M. S. & Marion, D. (1994) J. Magn. Reson. B 105, 77-82] and the new computer assignment protocol ALPS (Assignment for Labelled Protein Spectra) developed in our laboratory [Morelle, N., Brutscher, B., Simorre, J.-P. & Marion, D. (1995) J. Biomol. NMR 5, 154-160]. The assignment was extended to the side chains using three-dimensional HC(C)H-TOCSY correlation experiments together with a set of regular two-dimensional proton spectra. The secondary and super-secondary structures were deduced from the C alpha chemical-shift differences to the random-coil values, the measure of the exchange rates of slow-exchanging amide protons using 15N-HSQC spectroscopy, and the assignment of medium and long-range NOEs. The oxidized C. reinhardtii thioredoxin h is based on an open alpha/beta motif consisting of a five-stranded beta-sheet surrounded by four helices in a manner similar to the bacterial E. coli thioredoxin [Katti, S. K., LeMaster, D. M. & Eklund, H. (1990) J. Mol. Biol. 212, 167-184; Jeng, M.-F., Campbell, A. P., Begley, T., Holmgren, A., Case, D. A., Wright, P. E. & Dyson, H. J. (1994) Structure 2, 853-868] and the human thioredoxin [Qin, J., Clore, G. M. & Gronenborn, A. M. (1994) Structure 2, 503-522] for which C. reinhardtii thioredoxin h shares 32 and 44 sequence identities, respectively. From the analysis of the secondary structure characteristics, the C. reinhardtii thioredoxin h is closer to the human thioredoxin structure than to the bacterial thioredoxin structure. Conversely, the latter would share several structural features with the previously reported [Lancelin, J.-M., Stein, M. & Jacquot, J.-P. (1993) J. Biochem. (Tokyo) 114, 421-431] highly thermostable chloroplast C. reinhardtii thioredoxin m that is involved in the thiol-redox enzymic control of photosynthetic intermediate carbon metabolism.