In this contribution we discuss the possible strategies to synthesize photo-autotrophic artificial protocells starting from scratch, following the semi-synthetic bottom up approach. The main aim is to build up artificial compartmentalized systems able to mimic living cell behavior in the transduction of light energy in chemical energy. Some preliminary results and future perspective are presented and discussed
Artificial systems capable of self-sustained movement with self-sufficient energy are of high intere...
In this review, we discuss various methods of reproducing life dynamics using a constructive approac...
One of the fundamental structures of a cell is the membrane. Self-assembling lipid bilayer vesicles ...
In this contribution we discuss the possible strategies to synthesize photo-autotrophic artificial p...
Important progresses have been achieved in the past years in the field of bottom-up synthetic biolog...
Following a bottom-up synthetic biology approach it is shown that vesicle-based cell-like systems (s...
<p>In this thesis an artificial cell is considered a complex chemical system constituted by three in...
Over recent years, the investigation of protocells (here intended either as primitive cell models, e...
Cells are highly advanced microreactors that form the basis of all life. Their fascinating complexit...
We have re-implemented and extended the 2D artificial chemistry model of Ono and Ikegami (2001) (see...
The construction of synthetic cells of minimal complexity is today one of the most attractive and ch...
The assembly of artificial cells provides a novel strategy to reconstruct life's functions and shed ...
Molecule assembly and functionalization of protocells have achieved a great success. However, the yi...
Minimal artificial cells (MACs) are self-assembled chemical systems able to mimic the behavior of li...
The increasing ease of producing nucleic acids and proteins to specification offers potential for de...
Artificial systems capable of self-sustained movement with self-sufficient energy are of high intere...
In this review, we discuss various methods of reproducing life dynamics using a constructive approac...
One of the fundamental structures of a cell is the membrane. Self-assembling lipid bilayer vesicles ...
In this contribution we discuss the possible strategies to synthesize photo-autotrophic artificial p...
Important progresses have been achieved in the past years in the field of bottom-up synthetic biolog...
Following a bottom-up synthetic biology approach it is shown that vesicle-based cell-like systems (s...
<p>In this thesis an artificial cell is considered a complex chemical system constituted by three in...
Over recent years, the investigation of protocells (here intended either as primitive cell models, e...
Cells are highly advanced microreactors that form the basis of all life. Their fascinating complexit...
We have re-implemented and extended the 2D artificial chemistry model of Ono and Ikegami (2001) (see...
The construction of synthetic cells of minimal complexity is today one of the most attractive and ch...
The assembly of artificial cells provides a novel strategy to reconstruct life's functions and shed ...
Molecule assembly and functionalization of protocells have achieved a great success. However, the yi...
Minimal artificial cells (MACs) are self-assembled chemical systems able to mimic the behavior of li...
The increasing ease of producing nucleic acids and proteins to specification offers potential for de...
Artificial systems capable of self-sustained movement with self-sufficient energy are of high intere...
In this review, we discuss various methods of reproducing life dynamics using a constructive approac...
One of the fundamental structures of a cell is the membrane. Self-assembling lipid bilayer vesicles ...