Recombinant Human ARL9 protein

Supplementary info

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

Activity summary

ARL9 also known as ADP-ribosylation factor-like protein 9 is a small GTP-binding protein with a molecular weight of approximately 22 kDa. It belongs to the ARF family which is involved in regulating membrane traffic and organelle structure. ARL9 is expressed in various tissues but particularly abundant in the brain and kidneys. It functions intracellularly primarily associated with the Golgi apparatus where it participates in protein transport and membrane dynamics.

Biological function summary

ARL9 operates as a molecular switch cycling between GTP-bound active and GDP-bound inactive states. It is part of a dynamic complex responsible for vesicle formation and protein trafficking within the Golgi and endosomal systems. This protein plays a significant role in the assembly and disassembly of coat protein complex II (COPII) vesicles which are essential for the transfer of proteins from the endoplasmic reticulum to the Golgi. The molecular machinery involving ARL9 modulates several cellular processes through its interaction with effectors and regulatory proteins.

Pathways

ARL9 is linked to important cellular processes such as the Golgi-to-plasma membrane transport and the citric acid cycle. Its involvement in the secretory pathway is moderated by interactions with other proteins such as ADP-ribosylation factors and other ARL family members. ARL9 influences membrane trafficking events and aligns cellular metabolism with the needs of vesicular transport. The protein integrates signals for cellular dynamics which are important for maintaining cellular homeostasis through these pathways.

Associated diseases and disorders

ARL9 holds relevance in neurodegenerative diseases and cancer. Researchers have noted its increased expression in neurological disorders suggesting a link to synaptic function and neural communication. Additionally ARL9 has associations with certain types of cancer due to its role in cellular proliferation and survival pathways. Proteins interacting with ARL9 in these contexts include altered signaling molecules related to cell growth and neuronal maintenance which suggests ARL9's participation in these disease mechanisms.