Monoalkoxy BODIPYs--a fluorophore class for bioimaging.

TL;DR: A series of fluorescent companion imaging drugs for KRAS G12C, using two scaffolds, ARS‐1323 and AMG‐510 is synthesized and tested and it is shown that this approach can be used to image mutant KRASG12C directly in cells.

TL;DR: In this article, the authors acknowledge the support of the “Ramon y Cajal” program of the Ministerio de Economia y Competitividad of Spain and the Marie Curie Actions within the Innovative Training Network-European Join Doctorate in Theoretical Chemistry and Computational Modelling (ITN-EJD-642294).

TL;DR: In this article, stable BODIPY boron mono-and diperoxides were obtained in good yields by TMSOTf activation of mono- and dialkoxy-Boron derivatives, followed by ligand exchange with organic hydroperoxide.

TL;DR: BODIPY compounds exhibit exceptional spectral and photophysical properties, enabling various applications in scientific fields. Their easy structural modifications allow for tunable properties, making them versatile dyes with widespread applications.

TL;DR: The Bodipy family, first developed as luminescent tags and laser dyes, has become a cornerstone for these new applications and the near future looks extremely bright for "porphyrin's little sister".

TL;DR: Advances in experimental and clinical imaging are likely to improve how cancer is understood at a systems level and should enable doctors not only to locate tumours but also to assess the activity of the biological processes within these tumours and to provide 'on the spot' treatment.

TL;DR: The utility of this modular protein tagging system for cellular imaging and protein immobilization is demonstrated by analyzing multiple molecular processes associated with NF-kappaB-mediated cellular physiology, including imaging of subcellular protein translocation and capture of protein--protein and protein--DNA complexes.

TL;DR: A bioorthogonal reaction that proceeds with unusually fast reaction rates without need for catalysis: the cycloaddition of s-tetrazine and trans-cyclooctene derivatives, which enables protein modification at low concentration.