Recombinant Human PHF15 protein

Supplementary info

This supplementary information is collated from multiple sources and compiled automatically.

Activity summary

PHF15 also known as Jade-1 is a protein of approximately 62 kilodaltons and is involved in chromatin remodeling. PHF15 contains a plant homeodomain (PHD) finger that likely contributes to its function in recognizing methylated histones. The protein is mainly expressed in the nucleus of kidney cells but can also be detected in other tissues. PHF15 has an important role in regulating gene expression by influencing the chromatin structure availability for transcriptional machinery.

Biological function summary

The role of PHF15 involves the regulation of gene expression during critical cellular processes. It interacts within the chromatin remodeling complex facilitating changes in the chromatin structure that are necessary for transcriptional activation or repression. The modulation of chromatin architecture by PHF15 impacts various biological activities that are essential for maintaining cell identity and function. Its precise mechanistic involvement in chromatin modifications highlights its biological importance.

Pathways

The activity of PHF15 features in the Wnt signaling pathway and the regulation of the cell cycle. These pathways involve interactions with other proteins like β-catenin and cyclin D1 where PHF15 exerts regulatory effects. In the Wnt signaling pathway PHF15 modulates gene expression impacting various cellular outcomes such as proliferation and differentiation. Through its integration in these pathways PHF15 has a fundamental influence on cellular fate and behavior.

Associated diseases and disorders

Defects in PHF15 function connect to clear cell renal cell carcinoma. Alterations in its interaction with proteins such as von Hippel-Lindau (VHL) can disrupt normal cellular regulation contributing to disease progression. Furthermore PHF15 interacts with PBRM1 and changes in their regulation can play a role in tumorigenesis. Understanding the role of PHF15 in these contexts is significant for unraveling its contributions to disease mechanisms and potential therapeutic strategies.