Maurizio Paci scite author profile

Initiation factor IF1, the smallest of the three factors, (Cummings and Hershey, 1994), indicating that one or more of the activities of IF1 must The structure of the translational initiation factor be essential for the cell. Maurizio IF1 from Escherichia coli has been determined withSeveral functions have been reported for IF1. These multidimensional NMR spectroscopy. Using 1041 disinclude: (i) the enhancement of the rate of 70S ribosome tance and 78 dihedral constraints, 40 distance geometry dissociation and subunit association (Godefroy-Colburn structures were calculated, which were refined by et al., 1975); (ii) the stimulation of the activity of IF2 restrained molecular dynamics. From this set, 19 strucand IF3 in the formation of the 30S initiation complex tures were selected, having low constraint energy and (Wintermeyer and Gualerzi, 1983; Pon and Gualerzi, few constraint violations. The ensemble of 19 structures 1984); and (iii) the modulation of the interaction of IF2 displays a root-mean-square deviation versus the averwith the ribosome, increasing its affinity for the 30S age of 0.49 Å for the backbone atoms and 1.12 Å for ribosomal subunit when IF1 is bound and indirectly all atoms for residues 6-36 and 46-67. The structure favouring its release when IF1 is ejected (Stringer et al., of IF1 is characterized by a five-stranded β-barrel.1977; Celano et al., 1988). In addition, by binding to the The loop connecting strands three and four contains a A-site of the 30S ribosomal subunit, IF1 may contribute short 3 10 helix but this region shows considerably to the fidelity of the selection of the initiation site of the higher flexibility than the β-barrel. The fold of IF1 is mRNA (Moazed et al., 1995). very similar to that found in the bacterial cold shock Equilibrium binding studies have shown that IF1 binds proteins CspA and CspB, the N-terminal domain of to the 30S ribosomal subunit in a 1:1 ratio (Zucker and aspartyl-tRNA synthetase and the staphylococcal Hershey, 1986;Celano et al., 1988). The binding affinity nuclease, and can be identified as the oligomer-binding depends strongly upon the ionic strength and upon the motif. Several proteins of this family are nucleic acidpresence of IF2 and IF3 which increase its affinity for the binding proteins. This suggests that IF1 plays its role ribosome; the K a ranging from 5ϫ10 5 to 2.5ϫ10 8 M -1 . in the initiation of protein synthesis by nucleic acid Interaction with 50S ribosomal subunits was also observed, interactions. Specific changes of NMR signals of IF1 but the affinity is considerably lower than for the 30S upon titration with 30S ribosomal subunit identifies ribosomal subunits. Stable interaction with 70S ribosomes several residues that are involved in the interaction has never been observed; in fact, the addition of 50S to with ribosomes.

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Zn²⁺Ions Selectively Induce Antimicrobial Salivary Peptide Histatin-5 To Fuse Negatively Charged Vesicles. Identification and Characterization of a Zinc-Binding Motif Present in the Functional Domain

Melino

et al. 1999

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The salivary antimicrobial peptide histatin-5 is able to aggregate and fuse negatively charged small unilamellar vesicles, and this fusogenic activity is selectively induced by the presence of zinc ions. Circular dichroism spectroscopy shows that histatin-5, in the presence of negatively charged vesicles and zinc ions, undergoes a conformational change leading to the stabilization of an alpha-helical secondary structure. We attribute the specific action of the zinc ions to the presence of a consensus sequence, HEXXH, located in the C-terminal functional domain of histatin-5, a recognized zinc-binding motif in many proteins. Two-dimensional proton NMR spectroscopy of histatin-5 in a trifluoroethanol/water mixture (a membrane mimetic environment) has been performed and the results analyzed by means of distance geometry and restrained molecular dynamics simulations. Our results reveal that the peptide chain, including the Zn-binding consensus sequence corresponding to residues 15-19, is in a helicoidal conformation. Comparison of the chemical shifts of the individual amino acids in histatin-5 with those recently reported in other solvents indicates that trifluoroethanol/water has a structuring capability somewhere between water and dimethyl sulfoxide. The mechanism of action of this antimicrobial peptide is discussed on the basis of its structural characteristics with particular attention to the Zn-binding motif.

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Syringopeptins, new phytotoxic lipodepsipeptides of Pseudomonas syringae pv. syringae

Ballio¹,

Barra²,

Bossa³

et al. 1991

FEBS Letters

135

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The primary structure of some new lipodepsipeptides named syringopeptins, produced by plant pathogenic strains of Pseudomonas syringae pv. syringae has been determined by a combination of chemical methods, 'H and 13C NMR spectroscopy and FAB mass spectrometry. Two syringomycin-producingwith Tyr acylating aThr to form a macrolactone ring, and smaller amounts of the 3-hydroxydodccanoyl homologue. Evidence was obtained that a third syringomycin-producing strain and a syringotoxin-producing strain synthesize 3-hydroxydecanoyl-Dhb-Pro-Val-Ala-AlaVal-Leu-Ala-Ala-Dhb-Val-Dhb-Ala-Val-Ala-Ala-Dhb-aThr-Ser-Ala-Vnl~~Ala-Dab-Dab-Tyr, with Tyr and aThr forming again the macrolactone ring, and smaller amounts of the 3-hydroxydodecanoyl homologue.Phytotoxin; Lipodepsipeptide; Syringopeptin; Pseudomonas syringae pv. syringae

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Selectivity of the CUBAN domain in the recognition of ubiquitin and NEDD8

et al. 2019

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Among the members of the ubiquitin‐like (Ubl) protein family, neural precursor cell expressed developmentally down‐regulated protein 8 (NEDD8) is the closest in sequence to ubiquitin (57% identity). The two modification mechanisms and their functions, however, are highly distinct and the two Ubls are not interchangeable. A complex network of interactions between modifying enzymes and adaptors, most of which are specific while others are promiscuous, ensures selectivity. Many domains that bind the ubiquitin hydrophobic patch also bind NEDD8 while no domain that specifically binds NEDD8 has yet been described. Here, we report an unbiased selection of domains that bind ubiquitin and/or NEDD8 and we characterize their specificity/promiscuity. Many ubiquitin‐binding domains bind ubiquitin preferentially and, to a lesser extent, NEDD8. In a few cases, the affinity of these domains for NEDD8 can be increased by substituting the alanine at position 72 with arginine, as in ubiquitin. We have also identified a unique domain, mapping to the carboxyl end of the protein KHNYN, which has a stark preference for NEDD8. Given its ability to bind neddylated cullins, we have named this domain CUBAN (Cullin‐Binding domain Associating with NEDD8). We present here the solution structure of the CUBAN domain both in the isolated form and in complex with NEDD8. The results contribute to the understanding of the discrimination mechanism between ubiquitin and the Ubl. They also provide new insights on the biological role of a ill‐defined protein, whose function is hitherto only predicted.

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Maurizio Paci

The structure of the translational initiation factor IF1 from E.coli contains an oligomer-binding motif

Zn²⁺Ions Selectively Induce Antimicrobial Salivary Peptide Histatin-5 To Fuse Negatively Charged Vesicles. Identification and Characterization of a Zinc-Binding Motif Present in the Functional Domain

Syringopeptins, new phytotoxic lipodepsipeptides of Pseudomonas syringae pv. syringae

Selectivity of the CUBAN domain in the recognition of ubiquitin and NEDD8

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Maurizio Paci

The structure of the translational initiation factor IF1 from E.coli contains an oligomer-binding motif

Zn2+Ions Selectively Induce Antimicrobial Salivary Peptide Histatin-5 To Fuse Negatively Charged Vesicles. Identification and Characterization of a Zinc-Binding Motif Present in the Functional Domain

Syringopeptins, new phytotoxic lipodepsipeptides of Pseudomonas syringae pv. syringae

Selectivity of the CUBAN domain in the recognition of ubiquitin and NEDD8

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Product

Resources

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Zn²⁺Ions Selectively Induce Antimicrobial Salivary Peptide Histatin-5 To Fuse Negatively Charged Vesicles. Identification and Characterization of a Zinc-Binding Motif Present in the Functional Domain