Predicted to be involved in several processes, including autophagosome maturation; melanosome localization; and regulation of lysosomal lumen pH. Predicted to act upstream of or within pigmentation; platelet formation; and regulation of developmental pigmentation. Predicted to be located in autophagosome; endosome; and perinuclear region of cytoplasm. Predicted to be part of several cellular components, including AP-3 adaptor complex; CORVET complex; and clathrin complex. Predicted to be active in lysosome. Orthologous to human VPS33A (VPS33A core subunit of CORVET and HOPS complexes); INTERACTS WITH 2,6-dinitrotoluene; ammonium chloride; bisphenol A.
r-Vps33a; vacuolar protein sorting 33 homolog A; vacuolar protein sorting 33 homolog A (S. cerevisiae); vacuolar protein sorting 33A; vacuolar protein sorting 33A (yeast); vacuolar protein sorting protein 33a; vacuolar protein sorting-associated protein 33A; VPS33A CORVET/HOPS core subunit
[Acrolein co-treated with methacrylaldehyde co-treated with alpha-pinene co-treated with Ozone] results in increased oxidation of VPS33A mRNA and [Air Pollutants results in increased abundance of [Acrolein co-treated with methacrylaldehyde co-treated with alpha-pinene co-treated with Ozone]] which results in increased oxidation of VPS33A mRNA
[Acrolein co-treated with methacrylaldehyde co-treated with alpha-pinene co-treated with Ozone] results in increased oxidation of VPS33A mRNA and [Air Pollutants results in increased abundance of [Acrolein co-treated with methacrylaldehyde co-treated with alpha-pinene co-treated with Ozone]] which results in increased oxidation of VPS33A mRNA
[perfluorooctane sulfonic acid co-treated with Cellulose] results in decreased expression of VPS33A mRNA and [perfluorooctane sulfonic acid co-treated with Pectins] results in decreased expression of VPS33A mRNA