From a Molecule to a Drug: Chemical Features Enhancing Pharmacological Potential

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Autore:	Ribaudo Giovanni
Titolo:	From a Molecule to a Drug: Chemical Features Enhancing Pharmacological Potential
Pubblicazione:	Basel, : MDPI - Multidisciplinary Digital Publishing Institute, 2022
Descrizione fisica:	1 electronic resource (234 p.)
Soggetto topico:	Medicine
	Pharmacology
Soggetto non controllato:	SARS-CoV-2
	benzoic acid derivatives
	gallic acid
	molecular docking
	reactivity parameters
	selenoxide elimination
	one-pot
	imine-enamine
	reaction mechanism
	DFT calculations
	selenium
	anti-inflammatory drugs
	QSAR
	pain management
	cyclooxygenase
	multitarget drug
	cannabinoid
	neuropathic pain
	clopidogrel
	NMR study
	oxone
	peroxymonosulfate
	sodium halide
	thienopyridine
	drug discovery
	precision medicine
	pharmacodynamics
	pharmacokinetics
	coronavirus SARS-CoV-2
	COVID-19
	3-chymotrypsin-like protease
	pyrimidonic pharmaceuticals
	molecular dynamics simulations
	binding free energy
	β-carrageenan
	antioxidant activity
	Box-Behken
	extraction
	Eucheuma gelatinae
	physic-chemistry
	rheology
	quercetin
	quercetin 3-O-glucuronide
	cisplatin
	nephrotoxicity
	cytoprotection
	lithium therapy
	neurocytology
	toxicology
	neuroprotection
	chemoinformatics
	big data
	methadone hydrochloride
	pharmaceutical solutions
	drug compounding
	high performance liquid chromatography
	stability study
	microbiology
	fucoidan
	alginate
	L-selectin
	E-selectin
	MCP-1
	ICAM-1
	THP-1 macrophage
	monocyte migration
	protein binding
	breast milk
	M/P ratio
	statistical modeling
	molecular descriptors
	chromatographic descriptors
	affinity chromatography
	anti-ACE
	anti-DPP-IV
	gastrointestinal digestion
	in silico
	molecular dynamics
	paramyosin
	seafood
	target fishing
Persona (resp. second.):	OrianLaura
	RibaudoGiovanni
Sommario/riassunto:	This book collects contributions published in the Special Issue “From a Molecule to a Drug: Chemical Features Enhancing Pharmacological Potential” and dealing with successful stories of drug improvement or design using classic protocols, quantum mechanical mechanistic investigation, or hybrid approaches such as QM/MM or QM/ML (machine learning). In the last two decades, computer-aided modeling has strongly supported scientists’ intuition to design functional molecules. High-throughput screening protocols, mainly based on classical mechanics’ atomistic potentials, are largely employed in biology and medicinal chemistry studies with the aim of simulating drug-likeness and bioactivity in terms of efficient binding to the target receptors. The advantages of this approach are quick outcomes, the possibility of repurposing commercially available drugs, consolidated protocols, and the availability of large databases. On the other hand, these studies do not intrinsically provide reactivity information, which requires quantum mechanical methodologies that are only applicable to significantly smaller and simplified systems at present. These latter studies focus on the drug itself, considering the chemical properties related to its structural features and motifs. Overall, such simulations provide necessary insights for a better understanding of the chemistry principles that rule the diseases at the molecular level, as well as possible mechanisms for restoring the physiological equilibrium.
Altri titoli varianti:	From a Molecule to a Drug
Titolo autorizzato:	From a Molecule to a Drug: Chemical Features Enhancing Pharmacological Potential
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910585940503321
Lo trovi qui:	Univ. Federico II
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