Recombinant Human ANKRA2 protein

Supplementary info

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

Activity summary

ANKRA2 also known as ankyrin repeat domain 2 is a protein with a molecular weight of about 34 kDa. It features a series of ankyrin repeat domains which are important for protein-protein interactions. ANKRA2 expresses broadly in human tissues with notable levels in the heart liver and skeletal muscle. Its structure facilitates its role in recruitment and binding of other cellular components serving as an adaptor or scaffold in several biological processes.

Biological function summary

ANKRA2 associates with other protein structures to form complexes integral to cellular operations. It contributes to the regulation of gene expression and intracellular signaling processes. Within the nucleus ANKRA2 interacts with transcription regulatory complexes playing a role in modifying the transcription activity. This interaction allows it to contribute to the fine-tuning of gene activity affecting cell growth and differentiation.

Pathways

ANKRA2 finds itself in connection with the Notch signaling and NF-κB pathways both important for various cellular functions. In the Notch signaling pathway ANKRA2 directly interacts with Notch receptors to modulate target gene expression. Additionally within the NF-κB pathway ANKRA2 influences the activation of NF-κB transcription factors which are vital for immune response and inflammation. Its engagement with these pathways highlights its role as a modulator in signal transduction processes.

Associated diseases and disorders

Disturbances in ANKRA2 function can link to cancer and cardiovascular conditions. Abnormal expression or mutations of ANKRA2 may connect to disruptions in Notch signaling which have been associated with tumorigenesis. Similarly its interaction with proteins in the NF-κB pathway can influence inflammation-related diseases like atherosclerosis. Research into these connections offers potential insights for therapeutic strategies targeting ANKRA2-mediated pathways in these diseases.