Protein assembly by design
J Zhu, N Avakyan, A Kakkis, AM Hoffnagle… - Chemical …, 2021 - ACS Publications
Proteins are nature's primary building blocks for the construction of sophisticated molecular
machines and dynamic materials, ranging from protein complexes such as photosystem II …
machines and dynamic materials, ranging from protein complexes such as photosystem II …
Protein assembly: versatile approaches to construct highly ordered nanostructures
Nature endows life with a wide variety of sophisticated, synergistic, and highly functional
protein assemblies. Following Nature's inspiration to assemble protein building blocks into …
protein assemblies. Following Nature's inspiration to assemble protein building blocks into …
[HTML][HTML] Controlling the self-assembly of biomolecules into functional nanomaterials through internal interactions and external stimulations: A review
Biomolecular self-assembly provides a facile way to synthesize functional nanomaterials.
Due to the unique structure and functions of biomolecules, the created biological …
Due to the unique structure and functions of biomolecules, the created biological …
Precise assembly of proteins and carbohydrates for next-generation biomaterials
L Li, G Chen - Journal of the American Chemical Society, 2022 - ACS Publications
The complexity and diversity of biomacromolecules make them a unique class of building
blocks for generating precise assemblies. They are particularly available to a new …
blocks for generating precise assemblies. They are particularly available to a new …
Glutathione peroxidase-like nanozymes: mechanism, classification, and bioapplication
Y Lai, J Wang, N Yue, Q Zhang, J Wu, W Qi… - Biomaterials Science, 2023 - pubs.rsc.org
The field of nanozymes is developing rapidly. In particular, glutathione peroxidase (GPx)-like
nanozymes, which catalytically reduce H2O2/organic hydroperoxides to H2O/alcohols, have …
nanozymes, which catalytically reduce H2O2/organic hydroperoxides to H2O/alcohols, have …
Nanostructures based on protein self-assembly: From hierarchical construction to bioinspired materials
H Sun, Q Luo, C Hou, J Liu - Nano Today, 2017 - Elsevier
Sophisticated protein self-assemblies have attracted great scientific interests in recent few
decades due to their various potential applications in substance/signal transmission …
decades due to their various potential applications in substance/signal transmission …
Protein assembly: Controllable design strategies and applications in biology
Y Li, R Tian, H Shi, J Xu, T Wang, J Liu - Aggregate, 2023 - Wiley Online Library
Protein assembly is the structural basis for the collaboration between proteins to accomplish
life activities due to its realization of the domain‐limited and precise spatial arrangement of …
life activities due to its realization of the domain‐limited and precise spatial arrangement of …
Design of artificial enzymes by supramolecular strategies
T Wang, X Fan, C Hou, J Liu - Current Opinion in Structural Biology, 2018 - Elsevier
Highlights•Artificial enzymes can be designed through supramolecular interactions.•The
method of designing artificial enzymes without precise design based on protein complexes …
method of designing artificial enzymes without precise design based on protein complexes …
Protein‐Based Controllable Nanoarchitectonics for Desired Applications
L Li, Y Zhang, Y Wu, Z Wang, W Cui… - Advanced Functional …, 2024 - Wiley Online Library
Controllable protein nanoarchitectonics refers to the process of manipulating and controlling
the assembly of proteins at the nanoscale to achieve domain‐limited and accurate spatial …
the assembly of proteins at the nanoscale to achieve domain‐limited and accurate spatial …
Rational design of allosteric switchable catalysts
Allosteric regulation, in many cases, involves switching the activities of natural enzymes,
which further affects the enzymatic network and cell signaling in the living systems. The …
which further affects the enzymatic network and cell signaling in the living systems. The …