Biophysical characterization of synthetic adhesins for predicting and tuning engineered living material properties [0.03%]
合成粘附素的生物物理表征以预测和调节工程化活性材料性能
Stefana A Costan,Paul M Ryan,Honesty Kim et al.
Stefana A Costan et al.
Bacterial synthetic multicellular systems are promising platforms for engineered living materials (ELMs) for medical, biosynthesis, environmental, and smart materials applications. Recent advancements in genetically encoded adhesion toolkit...
Veronica Cunitz,Evan Stacy,Penelope Jankoski et al.
Veronica Cunitz et al.
At the University of Minnesota, scientists explore the application of machine learning to screen a multiparametric library of polymers to investigate the relationship between polymer attributes, payload type, and biological outcomes to opti...
Chemical and Biological Engineering Strategies to Make and Modify Next-Generation Hydrogel Biomaterials [0.03%]
用于制造和改良下一代水凝胶生物材料的化工及生物工程策略
Ryan Gharios,Ryan M Francis,Cole A DeForest
Ryan Gharios
There is a growing interest in the development of technologies to probe and direct in vitro cellular function for fundamental organoid and stem cell biology, functional tissue and metabolic engineering, and biotherapeutic formulation. Recap...
Brandon K Walther,Adam P Sears,Anahita Mojiri et al.
Brandon K Walther et al.
The ability of endothelial cells to sense and respond to dynamic changes in blood flow is critical for vascular homeostasis and cardiovascular health. The mechanical and geometric properties of the nuclear and cytoplasmic compartments affec...
Keratin filament mechanics and energy dissipation are determined by metal-like plasticity [0.03%]
角蛋白丝力学和能量耗散由金属类塑性决定
Charlotta Lorenz,Johanna Forsting,Robert W Style et al.
Charlotta Lorenz et al.
Cell mechanics are determined by an intracellular biopolymer network, including intermediate filaments that are expressed in a cell-type-specific manner. A prominent pair of intermediate filaments are keratin and vimentin, as they are expre...
Erratum: Inhaled ACE2-engineered microfluidic microsphere for intratracheal neutralization of COVID-19 and calming of the cytokine storm [0.03%]
Correction: 工程化吸入型微流控微球递送重组人ACE2治疗新冠肺炎及减轻细胞因子风暴损伤
Zhen Wang,Lei Xiang,Feng Lin et al.
Zhen Wang et al.
[This corrects the article DOI: 10.1016/j.matt.2021.09.022.]. © 2023 Elsevier Inc.
Published Erratum
Matter. 2023 Jun 7;6(6):2094. DOI:10.1016/j.matt.2023.04.021 2023
Self-driving laboratories: A paradigm shift in nanomedicine development [0.03%]
自主实验室在纳米药物研发中的应用:一场范式变革
Riley J Hickman,Pauric Bannigan,Zeqing Bao et al.
Riley J Hickman et al.
Nanomedicines have transformed promising therapeutic agents into clinically approved medicines with optimal safety and efficacy profiles. This is exemplified by the mRNA vaccines against COVID-19, which were made possible by lipid nanoparti...
An automated biomateriomics platform for sustainable programmable materials discovery [0.03%]
一种用于可持续程序材料发现的自动化生物材料学平台
Nicolas A Lee,Sabrina C Shen,Markus J Buehler
Nicolas A Lee
Recently, the potential to create functional materials from various forms of organic matter has received increased interest due to its potential to address environmental concerns. However, the process of creating novel materials from biomas...
Hamed Vahabi,Sravanthi Vallabhuneni,Mohammadhasan Hedayati et al.
Hamed Vahabi et al.
Slippery surfaces are sought after due to their wide range of applications in self-cleaning, drag reduction, fouling-resistance, enhanced condensation, biomedical implants etc. Recently, non-textured, all-solid, slippery surfaces have gaine...
Supramolecular filaments for concurrent ACE2 docking and enzymatic activity silencing enable coronavirus capture and infection prevention [0.03%]
用于同时进行ACE2对接和酶活性消音的超分子纤维能够实现冠状病毒捕获和感染预防
Caleb F Anderson,Qiong Wang,David Stern et al.
Caleb F Anderson et al.
Coronaviruses have historically precipitated global pandemics of severe acute respiratory syndrome (SARS) into devastating public health crises. Despite the virus's rapid rate of mutation, all SARS coronavirus 2 (SARS-CoV-2) variants are kn...