The Origin and Early Evolution of Life : Prebiotic Systems Chemistry Perspective

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Autore:	Fiore Michele
Titolo:	The Origin and Early Evolution of Life : Prebiotic Systems Chemistry Perspective
Pubblicazione:	Basel, : MDPI - Multidisciplinary Digital Publishing Institute, 2022
Descrizione fisica:	1 online resource (320 p.)
Soggetto topico:	Biology, life sciences
	Research & information: general
Soggetto non controllato:	acetylene
	ADE theory
	aggregation process
	amino acids
	aminoacyl-tRNA synthetase classes
	analogue conditions
	astrobiology
	astrochemistry
	autocatalytic set
	bending modulus
	bilayer structure
	bistable reaction system
	budding
	cell division
	chemical complexity
	chemical evolution
	chirogenesis
	CHNOPS
	codon assignment
	cognition
	comets
	compartment
	complex organic molecules
	cyclic nucleotides
	dimerization
	division
	dynamic kinetic stability
	early Earth
	early metabolism
	emergence of biological systems
	evolution
	exoplanets
	Fenton chemistry
	FRET analysis
	GC×GC-TOFMS
	glucose oxidase
	glycocodon theory
	hot springs
	hydrothermal conditions
	interstellar medium
	lipid
	lipid membrane
	Mars
	metabolism
	metal ions
	minerals
	molecular dynamics
	molecular ices
	N-acyl amino acid
	n/a
	network expansion simulation
	olivine
	origin of genetic code
	origin of life
	origin-of-life
	origins of life
	osmotic pressure
	peptidyl-transferase center
	polymerization
	prebiotic chemical evolution
	prebiotic chemistry
	prebiotic membranes
	primordial replicators
	protein-monosaccharide interactions
	protein-monosaccharide recognition
	proto-metabolism
	proto-ribosome
	protoamphiphiles
	protocell
	protoplanetary disks
	pseudo-symmetry
	pyrophosphate
	quartz
	radiation damage
	reduced phosphorus
	ribozymes
	ribozyviruses
	RNA ligation
	sample return
	schreibersite
	selection
	serpentinite
	solid interface
	solid state
	standard genetic codes
	star forming regions
	SymR
	systems chemistry
	temperature
	template-directed RNA synthesis
	thermodynamics
	thiophene
	time order of canonical amino acids
	transition elements
	transition metal sulfides
	tRNA
	ulexite
	urea-urease enzymatic reaction
	vesicles
	viroids
Persona (resp. second.):	AltamuraEmiliano
	FioreMichele
Sommario/riassunto:	What is life? How, where, and when did life arise? These questions have remained most fascinating over the last hundred years. Systems chemistry is the way to go to better understand this problem and to try and answer the unsolved question regarding the origin of Life. Self-organization, thanks to the role of lipid boundaries, made possible the rise of protocells. The role of these boundaries is to separate and co-locate micro-environments, and make them spatially distinct; to protect and keep them at defined concentrations; and to enable a multitude of often competing and interfering biochemical reactions to occur simultaneously. The aim of this Special Issue is to summarize the latest discoveries in the field of the prebiotic chemistry of biomolecules, self-organization, protocells and the origin of life. In recent years, thousands of excellent reviews and articles have appeared in the literature and some breakthroughs have already been achieved. However, a great deal of work remains to be carried out. Beyond the borders of the traditional domains of scientific activity, the multidisciplinary character of the present Special Issue leaves space for anyone to creatively contribute to any aspect of these and related relevant topics. We hope that the presented works will be stimulating for a new generation of scientists that are taking their first steps in this fascinating field.
Altri titoli varianti:	Origin and Early Evolution of Life
Titolo autorizzato:	The Origin and Early Evolution of Life
Formato:	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione:	Inglese
Record Nr.:	9910580210103321
Lo trovi qui:	Univ. Federico II
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