Variations in kinase and effector signaling logic in a bacterial two component signaling network.

The general stress response (GSR) protects bacteria from a wide range of stressors. In , GSR activation is coordinated by HWE/HisKA2 family histidine kinases (HKs), which can exhibit non-canonical structure and function. For example, while most light-oxygen-voltage sensor-containing HKs are light activated dimers, the RT-HK has inverted "dark on, light off" signaling logic with a tunable monomer/dimer equilibrium.

Identification of small-molecule ligand-binding sites on and in the ARNT PAS-B domain.

Transcription factors are challenging to target with small-molecule inhibitors due to their structural plasticity and lack of catalytic sites. Notable exceptions include naturally ligand-regulated transcription factors, including our prior work with the hypoxia-inducible factor (HIF)-2 transcription factor, showing that small-molecule binding within an internal pocket of the HIF-2α Per-Aryl hydrocarbon Receptor Nuclear Translocator (ARNT)-Sim (PAS)-B domain can disrupt its interactions with its dimerization partner, ARNT. Here, we explore the feasibility of targeting small molecules to the analogous ARNT PAS-B domain itself, potentially opening a promising route to modulate several ARNT-mediated signaling pathways.

Uncovering the Association Mechanism between Two Intrinsically Flexible Proteins.

The understanding of protein-protein interaction mechanisms is key to the atomistic description of cell signaling pathways and for the development of new drugs. In this context, the mechanism of intrinsically disordered proteins folding upon binding has attracted attention. The VirB9 C-terminal domain (VirB9) and the VirB7 N-terminal motif (VirB7) associate with VirB10 to form the outer membrane core complex of the Type IV Secretion System injectisome.

Signal-regulated Unmasking of Nuclear Localization Motif in the PAS Domain Regulates the Nuclear Translocation of PASK.

The ligand-regulated PAS domains are one of the most diverse signal-integrating domains found in proteins from prokaryotes to humans. By biochemically connecting cellular processes with their environment, PAS domains facilitate an appropriate cellular response. PAS domain-containing Kinase (PASK) is an evolutionarily conserved protein kinase that plays important signaling roles in mammalian stem cells to establish stem cell fate.

Identification of Small Molecule Ligand Binding Sites On and In the ARNT PAS-B Domain.

Transcription factors are generally challenging to target with small molecule inhibitors due to their structural plasticity and lack of catalytic sites. Notable exceptions include several naturally ligand-regulated transcription factors, including our prior work with the heterodimeric HIF-2 transcription factor which showed that small molecule binding within an internal pocket of the HIF-2α PAS-B domain can disrupt its interactions with its dimerization partner, ARNT. Here, we explore the feasibility of similarly targeting small molecules to the analogous ARNT PAS-B domain itself, potentially opening a promising route to simultaneously modulate several ARNT-mediated signaling pathways.