A mutant γ-glutamyltransferase with improved transpeptidase activity

Despite their potential applicative interest as biologically active compounds and as flavor enhancers, \u3b3-glutamyl derivatives are commercially underexploited compounds. This is mainly due to the difficulties connected with their supply at a reasonable cost. As a consequence, enzymatic approaches to their preparation, based on the use of \u3b3-glutamyltransferases (GGTs), have been proposed1 to circumvent both the low-yielding extractive procedures from natural sources and the troublesome chemical synthesis, rendered uneconomical by the need of protection and deprotection steps. GGTs catalyze the transfer of a \u3b3-glutamyl moiety from a donor substrate (e.g. glutathione or glutamine) to the primary amino group of an acceptor compound in a so-called transpeptidation reaction through the formation of a \u3b3-glutamyl-enzyme intermediate. However, also the use of GGTs as biocatalysts is not free from drawbacks. In addition to the transpeptidase activity, GGTs show a non-negligible hydrolase activity towards both the donor substrate and the newly formed transpeptidation product, affording irreversibly glutamic acid.2 In our ongoing studies on bacterial GGTs, we found that the presence of the lid loop \u2013 a short amino acids sequence covering the active site in most of the known GGTs \u2013 not only affects substrate selection, but also modulates hydrolase/transpeptidase activities.3 Within the TailGluTran Project,4 aimed at the development of mutant GGTs with improved transpeptidase activity, is currently under investigation a mutant enzyme obtained by inserting the sequence of the lid loop on the structure of a GGT naturally lacking it. The mutant enzyme shows promising high transpeptidase activity with respect to wild type counterparts and represents a starting point for further modifications in the search of a suitable biocatalyst intended for preparative purposes

Quantum walks: a comprehensive review

Quantum walks, the quantum mechanical counterpart of classical random walks, is an advanced tool for building quantum algorithms that has been recently shown to constitute a universal model of quantum computation. Quantum walks is now a solid field of research of quantum computation full of exciting open problems for physicists, computer scientists, mathematicians and engineers. In this paper we review theoretical advances on the foundations of both discrete- and continuous-time quantum walks, together with the role that randomness plays in quantum walks, the connections between the mathematical models of coined discrete quantum walks and continuous quantum walks, the quantumness of quantum walks, a summary of papers published on discrete quantum walks and entanglement as well as a succinct review of experimental proposals and realizations of discrete-time quantum walks. Furthermore, we have reviewed several algorithms based on both discrete- and continuous-time quantum walks as well as a most important result: the computational universality of both continuous- and discrete- time quantum walks.Comment: Paper accepted for publication in Quantum Information Processing Journa

Near-ground Effect of Height on Pollen Exposure

The effect of height on pollen concentration is not well documented and little is known about the near-ground vertical profile of airborne pollen. This is important as most measuring stations are on roofs, but patient exposure is at ground level. Our study used a big data approach to estimate the near-ground vertical profile of pollen concentrations based on a global study of paired stations located at different heights. We analyzed paired sampling stations located at different heights between 1.5 and 50m above ground level (AGL). This provided pollen data from 59 Hirst-type volumetric traps from 25 different areas, mainly in Europe, but also covering North America and Australia, resulting in about 2,000,000 daily pollen concentrations analyzed. The daily ratio of the amounts of pollen from different heights per location was used, and the values of the lower station were divided by the higher station. The lower station of paired traps recorded more pollen than the higher trap. However, while the effect of height on pollen concentration was clear, it was also limited (average ratio 1.3, range 0.7–2.2). The standard deviation of the pollen ratio was highly variable when the lower station was located close to the ground level (below 10m AGL). We show that pollen concentrations measured at >10m are representative for background near-ground levels

Geni e genomi: sequenza completa del genoma del batterio B. subtilis.

Tecnologie cromosomiche in Bacillus a seguito del sequenziamento dell'intero genoma.Ricadute biotecnologich

CAP 16A Screening for motility.

Book with a description of the genes, functions, methods used in the course of the EU-Japanese project for the systematic functional analysys of the Bacillus genome that followed its genome sequencing

RESPONSE OF AISI TYPE 316 STAINLESS STEEL TO INTERRUPTED QUASI-STATIC TO IMPACT TENSION AT ELEVATED TEMPERATURES

Le comportement d'un acier inoxydable de type 316 H soumis à une traction interrompue avec un changement de vitesse de déformation, ainsi que la validité d'une équation mécanique d'état, ont été déterminés par des essais expérimentaux à 300, 400, 550 et 650°C. Les effets de vieillissement dynamique aux plus hautes températures sont aussi examinés.The behaviour of a stainless steel type AISI 316 H under interrupted strain-rate change tensile tests, as well as the validity of a mechanical equation of state for this material, are determined experimentally at 300, 400, 550 and 650°C. The effects of dynamic strain aging at the highest temperatures are also examined

In vivo generation of hybrids between two Bacillus thuringiensis insect-toxin-encoding genes.

The parasporal crystal of Bacillus thuringiensis is composed of polypeptides highly toxic to a number of insect larvae. The structural genes (cryIA) encoding the Lepidoptera-specific toxin from different bacterial strains diverge primarily in a single hypervariable region, whereas the N-terminal and C-terminal parts of the proteins are highly conserved. In this report, we describe the generation of hybrid genes between two cryIA genes. Two truncated cryIA genes were cloned in a plasmid vector in such way as to have only the hypervariable region in common. The two truncated cryIA genes were separated by the tetracycline-resistance determinant (or part of it). In vivo recombination between the hypervariable regions of the cryIA genes reconstituted an entire hybrid cryIA gene. Direct sequence analysis of 17 recombinant plasmids identified eleven different crossover regions which did not alter the reading frame and allowed the production of eight different hybrid proteins. The recombination events were independent from the RecA function of Escherichia coli. Some of the hybrid gene products were more specific in their insecticidal action and one had acquired a new biological activity