Jonathan Su scite author profile

Elastin-like polypeptides (ELPs) are stimulus-responsive biopolymers derived from human elastin. Their unique properties—including lower critical solution temperature phase behavior and minimal immunogenicity—make them attractive materials for a variety of biomedical applications. ELPs also benefit from recombinant synthesis and genetically encoded design; these enable control over the molecular weight and precise incorporation of peptides and pharmacological agents into the sequence. Because their size and sequence are defined, ELPs benefit from exquisite control over their structure and function, qualities that cannot be matched by synthetic polymers. As such, ELPs have been engineered to assemble into unique architectures and display bioactive agents for a variety of applications. This review discusses the design and representative biomedical applications of ELPs, focusing primarily on their use in tissue engineering and drug delivery.

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Programmable synthetic biomolecular condensates for cellular control

Dai

Farag

Lee

et al. 2023

Nat Chem Biol

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Increasing engagement in automata theory with JFLAP

Rodger

Wiebe

Lee

et al. 2009

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We describe the results from a two-year study with fourteen universities on presenting formal languages in a more visual, interactive and applied manner using JFLAP. In our results the majority of students felt that having access to JFLAP made learning course concepts easier, made them feel more engaged in the course and made the course more enjoyable. We also describe changes and additions to JFLAP we have made based on feedback from users. These changes include new algorithms such as a CYK parser and a user-controlled parser, and new resources that include a JFLAP online tutorial, a wiki and a listserv.

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Increasing engagement in automata theory with JFLAP

et al. 2009

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Jonathan Su

Elastin-Like Polypeptides for Biomedical Applications

Programmable synthetic biomolecular condensates for cellular control

Increasing engagement in automata theory with JFLAP

Increasing engagement in automata theory with JFLAP

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