Giancarlo Mascetti scite author profile

The thioredoxin (Trx) from Bacillus acidocaldarius (BacTrx) was purified to homogeneity by anion-exchange chromatography and gel-filtration chromatography, based on its ability to catalyse the dithiothreitol-dependent reduction of bovine insulin disulphides. The protein has a molecular mass of 11577 Da, determined by electrospray mass spectrometry, a pI of 4.2, and its primary structure was obtained by automated Edman degradation after cleavage with trypsin and cyanogen bromide. The sequences of known bacterial Trxs were aligned at the active site: BacTrx has an identity ranging from 45 to 53% with all sequences except that of the unusual Anabaena strain 7120 Trx (37% identity). The gene coding for BacTrx was isolated by a strategy based on PCR gene amplification and cloned in a plasmid downstream of a lac-derived promoter sequence; the recombinant clone was used as the expression vector for Escherichia coli. The expression was optimized by varying both the time of cell growth and the time of exposure to the inducer isopropyl beta-d-thiogalactoside; expressed BacTrx represents approx. 5% of the total cytosolic protein. CD spectra and differential scanning calorimetry measurements demonstrated that BacTrx is endowed with a higher conformational heat stability than the Trx from E. coli. Nanogravimetry experiments showed a lower content of bound water in BacTrx than in E. coli Trx, and a transition temperature approx. 10 degrees C higher for BacTrx. The three-dimensional model of the oxidized form of BacTrx was constructed by a comparative molecular modelling technique, using E. coli Trx and Anabaena strain 7120 Trx as reference proteins. Increased networks of ion-pairs and shorter loops emerged as major features of the BacTrx structure compared with those of the template proteins. The findings are discussed in the light of the current knowledge about molecular determinants of protein stability.

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Relationship between chromatin compactness and dye uptake for in situ chromatin stained with DAPI

Mascetti¹,

Carrara

Vergani

2001

Cytometry

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Background This study investigated the relationship between chromatin compactness, which is directly related to chromatin condensation, and DAPI uptake. Materials and Methods For the structural characterization of in situ chromatin, we used fluorescence microscopy and differential scanning calorimetry on calf thymocytes. The compactness of nuclear chromatin was altered by permeabilizing native cells with NP40 detergent. A time‐dependent analysis of detergent effects was performed by acquiring nuclear images at different time intervals after permeabilization. In order to compare nuclei of different sizes, we implemented a geometrical correction in the calculation of the integrated fluorescence intensity. For a quantitative evaluation of chromatin condensation we introduced two new parameters, “average chromatin packing ratio” and “average dye spatial density.” Results This approach allowed us to estimate the effects of NP40 detergent at the level of in situ chromatin. Detergent effects could be modulated by changing the ionic composition of buffer. Moreover, changes of chromatin condensation induced by detergent were inversely related to modifications of nuclear volume. Conclusions The combination of complementary information obtained by fluorescence microscopy, supported by a proper geometrical correction, and differential calorimetry allowed us to interpret the patterns of fluorescence intensities inside the nucleus in terms of chromatin structure. Cytometry 44:113–119, 2001. © 2001 Wiley‐Liss, Inc.

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Optical, structural and fluorescence microscopic studies on reduced form of polyaniline: The leucoemeraldine base

Ram¹,

Mascetti

Paddeu

et al. 1997

Synthetic Metals

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In-Plane Patterning of Aggregated Nanoparticle Layers

et al. 2002

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An in-plane patterning process of aggregated nanoparticle thin layers of different inorganic conducting and semiconducting materials produced in Langmuir−Blodgett precursors is developed using film irradiation with an electron beam. This film treatment performs cross-linking of the precursor organic molecules resulting in the insolubility of the hydrocarbon matrix in organic solvents and in the impossibility of particle aggregation in the exposed regions. After immersion of the film into the organic solvent, the exposed areas remain insulating while conducting and semiconducting layers are formed in the nontreated zones due to particle aggregation. The result of patterning is demonstrated by Brewster angle and fluorescent microscopies. The difference of electric properties of treated and nontreated regions is shown by measuring current−voltage characteristics.

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