Dritan Siliqi scite author profile

IL MILIONE is a suite of computer programs devoted to protein crystal structure determination by X‐ray crystallography. It may be used in the following key activities. (a) Ab initio phasing, via Patterson or direct methods. The program may succeed even with structures with up to 6000 non‐H atoms in the asymmetric unit, provided that atomic resolution is available, and with data at quasi‐atomic resolution (1.4–1.5 Å). (b) Single or multiple isomorphous replacement, single‐ or multiple‐wavelength anomalous diffraction, and single or multiple isomorphous replacement with anomalous scattering techniques. In the first step the program finds the heavy‐atom/anomalous scatterer substructure, then automatically uses the above information to phase protein reflections. Phase extension and refinement are performed by electron density modification techniques. (c) Molecular replacement. The orientation and the location of the protein molecules are found via reciprocal space methods. Phase extension and refinement are performed by electron density modification techniques. All the programs integrated into IL MILIONE are controlled by means of a user‐friendly graphical user interface, which is used to input data and to monitor intermediate and final results by means of real‐time updated messages, diagrams and histograms.

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Mutations inEFL1, anSBDSpartner, are associated with infantile pancytopenia, exocrine pancreatic insufficiency and skeletal anomalies in aShwachman-Diamond like syndrome

Stepensky

et al. 2017

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Interdomain conformational flexibility underpins the activity of UGGT, the eukaryotic glycoprotein secretion checkpoint

Roversi

Marti

Caputo

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

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Glycoproteins traversing the eukaryotic secretory pathway begin life in the endoplasmic reticulum (ER), where their folding is surveyed by the 170-kDa UDP-glucose:glycoprotein glucosyltransferase (UGGT). The enzyme acts as the single glycoprotein folding quality control checkpoint: it selectively reglucosylates misfolded glycoproteins, promotes their association with ER lectins and associated chaperones, and prevents premature secretion from the ER. UGGT has long resisted structural determination and sequence-based domain boundary prediction. Questions remain on how this single enzyme can flag misfolded glycoproteins of different sizes and shapes for ER retention and how it can span variable distances between the site of misfold and a glucose-accepting N-linked glycan on the same glycoprotein. Here, crystal structures of a full-length eukaryotic UGGT reveal four thioredoxin-like (TRXL) domains arranged in a long arc that terminates in two β-sandwiches tightly clasping the glucosyltransferase domain. The fold of the molecule is topologically complex, with the first β-sandwich and the fourth TRXL domain being encoded by nonconsecutive stretches of sequence. In addition to the crystal structures, a 15-Å cryo-EM reconstruction reveals interdomain flexibility of the TRXL domains. Double cysteine point mutants that engineer extra interdomain disulfide bridges rigidify the UGGT structure and exhibit impaired activity. The intrinsic flexibility of the TRXL domains of UGGT may therefore endow the enzyme with the promiscuity needed to recognize and reglucosylate its many different substrates and/or enable reglucosylation of N-linked glycans situated at variable distances from the site of misfold.

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Effects of processing on structural, mechanical and biological properties of collagen-based substrates for regenerative medicine

Terzi

Storelli

Bettini

et al. 2018

Sci Rep

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The aim of this work was to investigate the structural features of type I collagen isoforms and collagen-based films at atomic and molecular scales, in order to evaluate whether and to what extent different protocols of slurry synthesis may change the protein structure and the final properties of the developed scaffolds. Wide Angle X-ray Scattering data on raw materials demonstrated the preferential orientation of collagen molecules in equine tendon-derived collagens, while randomly oriented molecules were found in bovine skin collagens, together with a lower crystalline degree, analyzed by the assessment of FWHM (Full Width at Half Maximum), and a certain degree of salt contamination. WAXS and FT-IR (Fourier Transform Infrared) analyses on bovine collagen-based films, showed that mechanical homogenization of slurry in acidic solution was the treatment ensuring a high content of super-organization of collagen into triple helices and a high crystalline domain into the material. In vitro tests on rat Schwannoma cells showed that Schwann cell differentiation into myelinating cells was dependent on the specific collagen film being used, and was found to be stimulated in case of homogenization-treated samples. Finally DHT/EDC crosslinking treatment was shown to affect mechanical stiffness of films depending on collagen source and processing conditions.

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Dritan Siliqi

IL MILIONE: a suite of computer programs for crystal structure solution of proteins

Mutations inEFL1, anSBDSpartner, are associated with infantile pancytopenia, exocrine pancreatic insufficiency and skeletal anomalies in aShwachman-Diamond like syndrome

Interdomain conformational flexibility underpins the activity of UGGT, the eukaryotic glycoprotein secretion checkpoint

Effects of processing on structural, mechanical and biological properties of collagen-based substrates for regenerative medicine

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