ABSTRACT
Phosphodiesterase 3A (PDE3A) gene mutations have recently been associated with hypertension and brachydactyly syndrome (HTNB). This report shows how the recent recognition of the role of the PDE3A gene in HTNB facilitated the diagnosis of HTNB in a 20-year-old female who could not be diagnosed at her initial presentation at 6 years of age.
ABSTRACT
Phase separation of intrinsically disordered proteins (IDPs) is a remarkable feature of living cells to dynamically control intracellular partitioning. Despite the numerous new IDPs that have been identified, progress towards rational engineering in cells has been limited. To address this limitation, we systematically scanned the sequence space of native IDPs and designed artificial IDPs (A-IDPs) with different molecular weights and aromatic content, which exhibit variable condensate saturation concentrations and temperature cloud points in vitro and in cells. We created A-IDP puncta using these simple principles, which are capable of sequestering an enzyme and whose catalytic efficiency can be manipulated by the molecular weight of the A-IDP. These results provide a robust engineered platform for creating puncta with new, phase-separation-mediated control of biological function in living cells.