Keap 1: The new Janus word on the block

Here we draw insights from the latest serendipitous findings made on the opposing roles of a proposed drug-target protein Keap1. We weigh up how natural reactive electrophiles and electrophilic small-molecule drugs in clinical use directly impinge on seemingly conflicting, yet both Keap1-electrophile-modification-dependent, cell -survival-vs. cell-death-promoting behaviors. In the process, we convey how understanding reactive chemical-signal regulation at the single-protein-specific level is an enabling necessity in deconstructing otherwise intricate reactive-small-molecule-responsive cellular pathways. We hope this opinion piece further spurs the broader interests of basic and pharmaceutical research communities toward better understanding of molecular mechanisms underpinning reactive small-molecule-regulated signaling subsystems.

Keap 1: The new Janus word on the block

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Deciphering the nature of cell state transitions in single cells using quantitative modeling of temporal dynamics

Mechanisms and functions of protein S-acylation

Characterization of the gut-bone marrow axis through bile acid signaling