Significant progress has been made in the construction of laboratory models of protocells. Most frequently the developed vesicle systems utilize single-chain lipids rather than the double-chain lipids typically found in biological membranes. Although single-chain lipids yield less robust vesicles, their dynamic characteristics are highly exploitable for protocellular functions. Herein the advantages of using single-chain lipids in the construction of protocells are discussed
The construction of artificial cells based on the encapsulation of chemical reacting systems inside ...
Although prebiotic condensations of glycerol, phosphate and fatty acids produce phospholipid esters ...
It is of great fundamental interest to develop experimental model systems to reconstruct design prin...
Over recent years, the investigation of protocells (here intended either as primitive cell models, e...
A model is here presented to analyse how vesicles may turn into protocells that synthesize their own...
The computational platform ENVIRONMENT, developed to simulate stochastically reaction systems in var...
This contribution is aimed to give support to 'bottom-up' approaches to the minimal or early cell re...
Recent experimental work in the field of synthetic protocell biology has shown that prebiotic vesicl...
In this review, we discuss various methods of reproducing life dynamics using a constructive approac...
Recent experimental work in the field of synthetic protocell biology has shown that prebiotic vesicl...
Here we report some recent biophysical issues on the preparation of solute-filled lipid vesicles and...
Recent experimental work in the field of synthetic protocell biology has shown that prebiotic vesicl...
A recently developed and presented stochastic simulation platform ('ENVIRONMENT' [12, 25]), which ex...
Self-assembled membranes composed of both fatty acids and phospholipids are permeable for solutes an...
The generation of synthetic forms of cellular life requires solutions to the problem of how biologic...
The construction of artificial cells based on the encapsulation of chemical reacting systems inside ...
Although prebiotic condensations of glycerol, phosphate and fatty acids produce phospholipid esters ...
It is of great fundamental interest to develop experimental model systems to reconstruct design prin...
Over recent years, the investigation of protocells (here intended either as primitive cell models, e...
A model is here presented to analyse how vesicles may turn into protocells that synthesize their own...
The computational platform ENVIRONMENT, developed to simulate stochastically reaction systems in var...
This contribution is aimed to give support to 'bottom-up' approaches to the minimal or early cell re...
Recent experimental work in the field of synthetic protocell biology has shown that prebiotic vesicl...
In this review, we discuss various methods of reproducing life dynamics using a constructive approac...
Recent experimental work in the field of synthetic protocell biology has shown that prebiotic vesicl...
Here we report some recent biophysical issues on the preparation of solute-filled lipid vesicles and...
Recent experimental work in the field of synthetic protocell biology has shown that prebiotic vesicl...
A recently developed and presented stochastic simulation platform ('ENVIRONMENT' [12, 25]), which ex...
Self-assembled membranes composed of both fatty acids and phospholipids are permeable for solutes an...
The generation of synthetic forms of cellular life requires solutions to the problem of how biologic...
The construction of artificial cells based on the encapsulation of chemical reacting systems inside ...
Although prebiotic condensations of glycerol, phosphate and fatty acids produce phospholipid esters ...
It is of great fundamental interest to develop experimental model systems to reconstruct design prin...