Synthetic, structural and biological studies of the ubiquitin system: chemically synthesized and native ubiquitin fold into identical three-dimensional structures.

The solid-phase chemical synthesis of ubiquitin produced a molecule with physicochemical properties similar to those of the natural protein. We have grown crystals of this synthetic ubiquitin and performed an X-ray analysis at 1.8 A resolution in order to compare the synthetic protein with the known natural structure. The crystals were isomorphous with those of the natural protein, the R-factor between them being 7.1%. Difference Fourier analysis shows that the synthetic and natural structures are indistinguishable. The co-ordinates of the natural ubiquitin (1UBQ) were used as the starting point for restrained least-squares refinement (TNT program) against the synthetic X-ray data. The refinement converged to R = 16.5% and the resulting model did not change when refined against natural ubiquitin X-ray data (R = 18.7%). From both the refinement and featureless difference Fourier synthesis, we conclude that the synthetic and natural protein structures are identical. A short discussion about the uses of proteins with 'non-standard' amino acid residues is included.

Sequence and crystallization of Escherichia coli dethiobiotin synthetase, the penultimate enzyme of biotin biosynthesis.

The enzyme dethiobiotin synthetase (EC 6.3.3.3) has been cloned and over-expressed in Escherichia coli in such a way that milligram quantities are available. The purified enzyme has been subjected to a number of physical and chemical studies, sequenced and most notably it has been crystallized in a form that is suitable for X-ray structure determination. The cell dimensions are a = 72.8 A, b = 49.2 A, c = 61.4 A, beta = 106.2 degrees. The systematic absences are consistent with the monoclinic space group C2 with one polypeptide chain in the asymmetric unit.

Preliminary X-ray crystallographic studies on alcohol dehydrogenase from Drosophila.

The alcohol dehydrogenase (ADHase) enzyme catalyses the oxidation of alcohols to aldehydes or ketones using NAD+ as a cofactor. Functional ADHase from Drosophila lebanonensis is a dimer, with a monomeric molecular weight of 27,000 and with 254 residues in each polypeptide chain. Crystals of the protein have been grown with and without NAD+. Two crystal forms have been observed. Most crystals are plate-like, 0.05 mm in their shortest dimension and up to 0.4 mm in their longest dimension. These crystals are generally too small to diffract efficiently using conventional X-ray sources, so preliminary studies were carried out using the Synchrotron Radiation Source at the SERC Daresbury Laboratory. Twinning was a severe problem with this crystal form. The second form is grown in the absence of NAD+ but with DL-dithiothreitol present. These crystals grow more evenly and diffract to better than 2 A resolution. They are monoclinic, with cell dimensions, a = 81.24(6) A, b = 55.75(4) A, c = 109.60(7) A and beta = 94.26(9) degrees, space group P2(1). There are two dimers in the asymmetric unit, but at low resolution a rotated cell with one dimer per asymmetric unit can be obtained.

Crystallization of a type I 3-dehydroquinase from Salmonella typhi.

Crystals have been grown of a type I 3-dehydroquinase from both Escherichia coli and Salmonella typhi. However, only those from S. typhi diffract to a resolution of 2.3 A on a conventional X-ray source and are suitable for structure determination. The space group has been determined as P2(1)2(1)2 with unit cell dimensions a = 48.01 A, b = 114.29 A, c = 42.87 A. There is one subunit in the asymmetric unit.