Full Body Person Identification Using the Kinect Sensor

Protein domains and peptide sequences are a powerful tool for conferring specific functions to engineered biomaterials. Protein sequences with a wide variety of functionalities, including structure, bioactivity, protein-protein interactions, and stimuli responsiveness, have been identified, and advances in molecular biology continue to pinpoint new sequences. Protein domains can be combined to make recombinant proteins with multiple functionalities. The high fidelity of the protein translation machinery results in exquisite control over the sequence of recombinant proteins and the resulting properties of protein-based materials. In this review, we discuss protein domains and peptide sequences in the context of functional protein-based materials, composite materials, and their biological applications.

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Incorporation of short, charged peptide tags affects the temperature responsiveness of positively-charged elastin-like polypeptides

Lin

Liu

2019

J. Mater. Chem. B

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Designing Smart Materials with Recombinant Proteins

Hollingshead

Lin

Liu

2017

Macromolecular Bioscience

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Recombinant protein design allows modular protein domains with different functionalities and responsive behaviors to be easily combined. Inclusion of these protein domains can enable recombinant proteins to have complex responses to their environment (e.g., temperature-triggered aggregation followed by enzyme-mediated cleavage for drug delivery or pH-triggered conformational change and self-assembly leading to structural stabilization by adjacent complementary residues). These “smart” behaviors can be tuned by amino acid identity and sequence, chemical modifications, and addition of other components. A wide variety of domains and peptides have smart behavior. In this review, we will focus on protein designs for self-assembly or conformational changes due to stimuli such as shifts in temperature or pH.

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Redox‐Responsive Resilin‐Like Hydrogels for Tissue Engineering and Drug Delivery Applications

Galas

Lin

et al. 2019

Macromolecular Bioscience

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Resilin, a protein found in insect cuticles, is renowned for its outstanding elastomeric properties. The authors' laboratory previously developed a recombinant protein, which consisted of consensus resilin‐like repeats from Anopheles gambiae, and demonstrated its potential in cartilage and vascular engineering. To broaden the versatility of the resilin‐like protein, this study utilizes a cleavable crosslinker, which contains a disulfide bond, to develop smart resilin‐like hydrogels that are redox‐responsive. The hydrogels exhibit a porous structure and a stable storage modulus (G′) of ≈3 kPa. NIH/3T3 fibroblasts cultured on hydrogels for 24 h have a high viability (>95%). In addition, the redox‐responsive hydrogels show significant degradation in a reducing environment (10 mm glutathione (GSH)). The release profiles of fluorescently labeled dextrans encapsulated within the hydrogels are assessed in vitro. For dextran that is estimated to be larger than the mesh size of the gel, faster release is observed in the presence of reducing agents due to degradation of the hydrogel networks. These studies thus demonstrate the potential of using these smart hydrogels in a variety of applications ranging from scaffolds for tissue engineering to drug delivery systems that target the intracellular reductive environments of tumors.

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Annealing behavior of electrodeposited Ni-TiO2 composite coatings

Lin

Lee

Chang

2006

Surface and Coatings Technology

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Charng‐Yu Lin

Modular protein domains: an engineering approach toward functional biomaterials

Incorporation of short, charged peptide tags affects the temperature responsiveness of positively-charged elastin-like polypeptides

Designing Smart Materials with Recombinant Proteins

Redox‐Responsive Resilin‐Like Hydrogels for Tissue Engineering and Drug Delivery Applications

Annealing behavior of electrodeposited Ni-TiO2 composite coatings

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