Purification of hetero-oligomeric protein variants using a modified tandem affinity purification approach.

Here, we describe a protocol for artificially generating hetero-oligomeric protein complexes from the homo-oligomers using a sequential denaturation-renaturation strategy, followed by a modified affinity chromatography protocol used for their purification. This protocol enables one to obtain a homogenous population of hetero-oligomers and understand the contribution of each protomer through further biochemical and/or biophysical characterization. For complete details on the use and execution of this protocol, please refer to Parui et al.

Role of conserved regulatory loop residues in allosteric propagation of serine protease HtrA2.

High temperature requirement protease A2 (HtrA2) is a mitochondrial serine protease that demonstrates multifaceted roles including protein quality control and proapoptotic properties in humans, making it a potential therapeutic target. Current literature suggests involvement of flexible regulatory loops in governing the allosteric propagation within the trimeric HtrA2 ensemble. Here, we have identified three important residues - R147, P148 (L3 loop) and F131 (LD loop) surrounding the catalytic-site that play crucial roles in stabilizing HtrA2 active conformation during its multimodal activation.

Loss of GSK-3β mediated phosphorylation in HtrA2 contributes to uncontrolled cell death with Parkinsonian phenotype.

HtrA2, a proapoptotic mitochondrial serine protease, promotes cellular protection against oxidative damage. Literature reports show positive correlation between loss of HtrA2 protease activity and Parkinson's Disease (PD) susceptibility. Homozygous loss-of-function mutations in murine-HtrA2, and when they rarely occur in humans result in severe neurodegeneration and infantile death.