0000000000064067

AUTHOR

Lorenzo Casalino

0000-0003-3581-1148

showing 3 related works from this author

All-atom simulations disentangle the functional dynamics underlying gene maturation in the intron lariat spliceosome

2018

The spliceosome (SPL) is a majestic macromolecular machinery composed of five small nuclear RNAs and hundreds of proteins. SPL removes noncoding introns from precursor messenger RNAs (pre-mRNAs) and ligates coding exons, giving rise to functional mRNAs. Building on the first SPL structure solved at near–atomic-level resolution, here we elucidate the functional dynamics of the intron lariat spliceosome (ILS) complex through multi-microsecond-long molecular-dynamics simulations of ∼1,000,000 atoms models. The ILS essential dynamics unveils (i) the leading role of the Spp42 protein, which heads the gene maturation by tuning the motions of distinct SPL components, and (ii) the critical particip…

Models Molecular0301 basic medicineProtein ConformationSplicingExonMolecular dynamicsRNA; gene maturation; molecular dynamics; spliceosome; splicingModelsRNA Small NuclearRNA PrecursorsMagnesiumPrincipal Component AnalysisMultidisciplinaryChemistrySpliceosomeFungalPhysical SciencesRNA splicingSpliceosomeRNA Splicing1.1 Normal biological development and functioningStatic ElectricityComputational biologyMolecular dynamicsMolecular Dynamics Simulation03 medical and health sciencesMotionsplicingU5 Small NuclearSmall NuclearGeneticUnderpinning researchSchizosaccharomycesGeneticsComputer SimulationGeneRibonucleoprotein U5 Small NuclearModels Geneticgene maturationIntronRNAMolecularRNA FungalRibonucleoproteinIntronsmolecular dynamicsRepressor Proteins030104 developmental biologyGene maturationHelixSpliceosomesRNANucleic Acid ConformationSchizosaccharomyces pombe ProteinsGeneric health relevancespliceosome
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Can multiscale simulations unravel the function of metallo-enzymes to improve knowledge-based drug discovery?

2019

Metallo-enzymes are a large class of biomolecules promoting specialized chemical reactions. Quantum-classical quantum mechanics/molecular mechanics molecular dynamics, describing the metal site at quantum mechanics level, while accounting for the rest of system at molecular mechanics level, has an accessible time-scale limited by its computational cost. Hence, it must be integrated with classical molecular dynamics and enhanced sampling simulations to disentangle the functions of metallo-enzymes. In this review, we provide an overview of these computational methods and their capabilities. In particular, we will focus on some systems such as CYP19A1 a Fe-dependent enzyme involved in estroge…

Models MolecularSpliceosomeQM/MM molecular dynamicsProtein ConformationComputer scienceMetallo enzymeComputational biology01 natural sciencesMolecular mechanicsribozymeStructure-Activity Relationship03 medical and health sciencesMolecular dynamicsMM molecular dynamicsAromataseCatalytic DomainDrug Discoverysteroid synthesisCYP19A1RNA CatalyticDensity Functional Theory030304 developmental biologyQMPharmacologychemistry.chemical_classificationDNA processing enzymes0303 health sciencesMetallo-proteinsbiologyDrug discoveryBiomoleculeRibozymeDNABiosynthetic PathwaysEnzymes0104 chemical sciences010404 medicinal & biomolecular chemistrychemistrySettore CHIM/03 - Chimica Generale E InorganicaMetalsbiology.proteinRNAThermodynamicsMolecular MedicinespliceosomeFunction (biology)Protein BindingFuture Medicinal Chemistry
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A Dehydrogenase Dual Hydrogen Abstraction Mechanism Promotes Estrogen Biosynthesis: Can We Expand the Functional Annotation of the Aromatase Enzyme?

2018

Cytochrome P450 (CYP450) enzymes are involved in the metabolism of exogenous compounds and in the synthesis of signaling molecules. Among the latter, human aromatase (HA) promotes estrogen biosynthesis, which is a key pharmacological target against breast cancers. After decades of debate, interest in gaining a comprehensive picture of HA catalysis has been renewed by the recent discovery that compound I (Cpd I) is the reactive species of the peculiar aromatization step. Herein, for the first time, a complete atomic-level picture of all controversial steps of estrogen biosynthesis is presented. By performing cumulative quantum-classical molecular dynamics and metadynamics simulations of abou…

0301 basic medicineCell signalingDehydrogenase-Molecular Dynamics Simulation010402 general chemistryHydroxylation01 natural sciencesenzyme catalysisCatalysisEnzyme catalysisHydroxylation03 medical and health scienceschemistry.chemical_compoundAromataseCytochrome P-450 Enzyme SystemHumansAromatasechemistry.chemical_classificationhydrogen abstractionbiologyOrganic ChemistryAromatizationAndrostenedioneCytochrome P450EstrogensGeneral Chemistrymolecular dynamics0104 chemical sciencesreaction mechanisms030104 developmental biologyEnzymechemistryBiochemistrySettore CHIM/03 - Chimica Generale E Inorganicadensity functional calculationsbiology.proteinProtonsOxidoreductasesOxidation-ReductionHydrogen
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