Protocell Survival Networks in Spatially Modulated Chemical Gradients

Protocell Survival Networks in Spatially Modulated Chemical Gradients

Coupling molecular-level chemical networks to macroscopic functions provides a step toward the implementation of rudimentary forms of agency in life-like objects and materials. Here, a negative feedback circuit within a networked binary protocell community is linked to higher-level spatial dynamic b...

সম্পূর্ণ বিবরণ

সংরক্ষণ করুন:
গ্রন্থ-পঞ্জীর বিবরন
প্রধান লেখক: Shuqi Wu (582226) (author)
অন্যান্য লেখক: Iuliia Myrgorodska (9541258) (author), Mei Li (217363) (author), Pengfei Xu (301785) (author), Stephen Mann (1700536) (author), Liangfei Tian (2102173) (author)
প্রকাশিত: 2025
বিষয়গুলি:
Ecology
Immunology
Biological Sciences not elsewhere classified
Chemical Sciences not elsewhere classified
Information Systems not elsewhere classified
spatial symmetry breaking
spatial dynamic behaviors
protective cytomimetic systems
level chemical networks
intelligent spatiotemporal behaviors
computer simulations based
protocell survival networks
macroscopic functions provides
hydrogen peroxide gradient
collective defense responses
collective responses
work presents
strongly influenced
step toward
spatially modulate
segregated arrangements
rudimentary forms
nonequilibrium conditions
mediated activation
local generation
like objects
general approach
exhibit quasi
encapsulated enzymes
edge effects
diffusion modeling
diffusion gradient
binary populations
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বিবরন
সংক্ষিপ্ত:Coupling molecular-level chemical networks to macroscopic functions provides a step toward the implementation of rudimentary forms of agency in life-like objects and materials. Here, a negative feedback circuit within a networked binary protocell community is linked to higher-level spatial dynamic behaviors by exposing the consortium to a unidirectional reaction-diffusion gradient of an activator. The activator initiates artificial lysis and release of protocell-encapsulated enzymes, which spatiotemporally restrict membrane disassembly to generate distinct protocell survival boundaries within homogeneously distributed or segregated arrangements of the binary populations. We track the collective defense responses under nonequilibrium conditions and show that spatial symmetry breaking is related to the local generation of a hydrogen peroxide gradient and is strongly influenced by confinement and edge effects that spatially modulate the protocell survival networks formed within the hydrogels. In each case, the results are validated by computer simulations based on reaction-diffusion modeling. Overall, our work presents a general approach to implementing and decoding the spatial dynamic behaviors and collective responses of chemically networked protocell communities operating under nonequilibrium conditions and provides a pathway to self-protective cytomimetic systems that exhibit quasi-intelligent spatiotemporal behaviors in response to gradient-mediated activation.

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