Protein translation: biological processes and therapeutic strategies for human diseases

Jia, Xuechao; He, Xinyu; Huang, Chuntian; Li, Jian; Dong, Zigang; Liu, Kangdong

doi:10.1038/s41392-024-01749-9

Cited by 10 publications

References 258 publications

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Bioinspired Genetic and Chemical Engineering of Protein Hydrogels for Programable Multi‐Responsive Actuation

Ji,

Shi,

Yang

et al. 2024

Adv Healthcare Materials

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Protein hydrogels with tailored stimuli‐responsive features and tunable stiffness have garnered considerable attention due to the growing demand for biomedical soft robotics. However, integrating multiple responsive features toward intelligent yet biocompatible actuators remains challenging. Here, a facile approach that synergistically combines genetic and chemical engineering for the design of protein hydrogel actuators with programmable complex spatial deformation is reported. Genetically engineered silk‐elastin‐like proteins (SELPs) are encoded with stimuli‐responsive motifs and enzymatic crosslinking sites via simulation‐guided genetic engineering strategies. Chemical modifications of the recombinant proteins are also used as secondary control points to tailor material properties, responsive features, and anisotropy in SELP hydrogels. As a proof‐of‐concept example, diazonium coupling chemistry is exploited to incorporate sulfanilic acid groups onto the tyrosine residues in the elastin domains of SELPs to achieve patterned SELP hydrogels. These hydrogels can be programmed to perform various actuations, including controllable bending, buckling, and complex deformation under external stimuli, such as temperature, ionic strength, or pH. With the inspiration of genetic and chemical engineering in natural organisms, this work offers a predictable, tunable, and environmentally sustainable approach for the fabrication of programmed intelligent soft actuators, with implications for a variety of biomedical materials and biorobotics needs.

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Bioinspired Genetic and Chemical Engineering of Protein Hydrogels for Programable Multi‐Responsive Actuation

Ji,

Shi,

Yang

et al. 2024

Adv Healthcare Materials

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Innovative Applications and Perspectives of Surface‐Enhanced Raman Spectroscopy Technology in Biomedicine

Xu,

Xie,

Liu

et al. 2024

Small

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Surface‐enhanced Raman spectroscopy (SERS) has become a revolutionary technique in the biomedical field, providing unparalleled sensitivity for the detection and characterization of biological samples. In this review, recent SERS innovations are comprehensively discussed, including advanced substrate materials, different SERS detection strategies, and multimodal approaches that combine SERS with other biotechnologies. Among them, the role of SERS in the accurate diagnosis of tumors is highlighted, which has promoted accurate molecular analysis and real‐time monitoring of treatment effects. In addition, the growing potential of SERS in the treatment of chronic diseases such as cardiovascular disease, diabetes, and neurodegenerative diseases is discussed. Moreover, the integration with microfluidic chip systems for precise single‐cell analysis is presented. To give a forward‐looking view, the key challenges faced by SERS technology are also proposed, and possible solutions to overcome these obstacles are provided.

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Bio-Stark: A Tool for the Time-Point Robustness Analysis of Biological Systems

Castiglioni,

Loreti,

Tini

2024

Lecture Notes in Computer Science

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Protein translation: biological processes and therapeutic strategies for human diseases

Cited by 10 publications

References 258 publications

Bioinspired Genetic and Chemical Engineering of Protein Hydrogels for Programable Multi‐Responsive Actuation

Bioinspired Genetic and Chemical Engineering of Protein Hydrogels for Programable Multi‐Responsive Actuation

Innovative Applications and Perspectives of Surface‐Enhanced Raman Spectroscopy Technology in Biomedicine

Bio-Stark: A Tool for the Time-Point Robustness Analysis of Biological Systems

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