Controlled peptide assembly offers significant promise to develop synthetic supramolecular nanostructures to display material and biological properties that mimic protein assemblies in nature.Despite the progress in f...Controlled peptide assembly offers significant promise to develop synthetic supramolecular nanostructures to display material and biological properties that mimic protein assemblies in nature.Despite the progress in forming peptide nanostructures of various morphology,there exists a distinct gap between natural and synthetic assembly systems in terms of size control.Constructing nanostructures with a narrow size distribution that can be tuned over a wide range of length-scales is essential for applications that require precise spacing between objects.This approach provides the opportunity to correlate materials and biological properties of interest with assembly size.In this review,we discuss representative endeavors over the past two decades for design of size-controllable peptide nanostructures using tunable building blocks.Other mechanisms for size control,e.g.,molecular frustration,template-directed peptide assembly,and multi-component peptide co-assembly,will also be discussed.We also demonstrate the applicable scopes of these strategies and suggest potential future avenues for scientific advances in this field.展开更多
Na^(+),Cl^(‒)and K^(+)are the most abundant electrolytes present in biological fluids that are essential to the regulation of pH homeostasis,membrane potential and cell volume in living organisms.Herein,we report synt...Na^(+),Cl^(‒)and K^(+)are the most abundant electrolytes present in biological fluids that are essential to the regulation of pH homeostasis,membrane potential and cell volume in living organisms.Herein,we report synthetic crown ether-thiourea conjugates as a cation/anion symporter,which can transport both Na+and Cl^(–)across lipid bilayers with relatively high transport activity.Surprisingly,the ion transport activities were diminished when high concentrations of K+ions were present outside the vesicles.This unusual behavior resulted from the strong affinity of the transporters for K^(+)ions,which led to predominant partitioning of the transporters as the K^(+)complexes in the aqueous phase preventing the transporter incorporation into the membrane.Synthetic membrane transporters with Na^(+),Cl^(‒)and K^(+)transport capabilities may have potential biological and medicinal applications.展开更多
基金supported by the National Natural Science Foundation of China(Nos.22074128 and 22241503)Fundamental Research Funds for the Central Universities(Nos.20720210013 and 20720220005).
文摘Controlled peptide assembly offers significant promise to develop synthetic supramolecular nanostructures to display material and biological properties that mimic protein assemblies in nature.Despite the progress in forming peptide nanostructures of various morphology,there exists a distinct gap between natural and synthetic assembly systems in terms of size control.Constructing nanostructures with a narrow size distribution that can be tuned over a wide range of length-scales is essential for applications that require precise spacing between objects.This approach provides the opportunity to correlate materials and biological properties of interest with assembly size.In this review,we discuss representative endeavors over the past two decades for design of size-controllable peptide nanostructures using tunable building blocks.Other mechanisms for size control,e.g.,molecular frustration,template-directed peptide assembly,and multi-component peptide co-assembly,will also be discussed.We also demonstrate the applicable scopes of these strategies and suggest potential future avenues for scientific advances in this field.
基金support of this work by the National Natural Science Foundation of China(Grant Nos.21820102006,91856118,21435003 and 21521004)the MOE of China through Program for Changjiang Scholars and Innovative Research Team in University(Grant No.IRT13036)the Scientific and Technological Plan Project in Xiamen(Grant No.3502Z20203025).
文摘Na^(+),Cl^(‒)and K^(+)are the most abundant electrolytes present in biological fluids that are essential to the regulation of pH homeostasis,membrane potential and cell volume in living organisms.Herein,we report synthetic crown ether-thiourea conjugates as a cation/anion symporter,which can transport both Na+and Cl^(–)across lipid bilayers with relatively high transport activity.Surprisingly,the ion transport activities were diminished when high concentrations of K+ions were present outside the vesicles.This unusual behavior resulted from the strong affinity of the transporters for K^(+)ions,which led to predominant partitioning of the transporters as the K^(+)complexes in the aqueous phase preventing the transporter incorporation into the membrane.Synthetic membrane transporters with Na^(+),Cl^(‒)and K^(+)transport capabilities may have potential biological and medicinal applications.
