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Gene interactions and pathways from curated databases and text-mining

Pflugers Arch 2004, PMID: 12750892

The SLC32 transporter, a key protein for the synaptic release of inhibitory amino acids.

Gasnier, Bruno

The SLC32 family comprises a single member: the vesicular inhibitory amino acid transporter (VIAAT) or vesicular GABA transporter (VGAT). It belongs to a eukaryotic-specific superfamily of H(+)-coupled amino acid transporters, which also comprises the mammalian SLC36 and SLC38 transporters. VIAAT exchanges GABA or glycine for protons. It is present on synaptic vesicles of GABAergic and glycinergic neurons, and in some endocrine cells, where it ensures the H(+)-ATPase-driven uptake, and subsequent exocytotic release, of inhibitory amino acids. Despite a similar function in vesicular neurotransmitter loading, VIAAT is not related to the vesicular glutamate transporter (VGLUT, SLC17) or the vesicular monoamine transporter/vesicular acetylcholine transporter (VMAT/VACHT, SLC18) proteins.

Document information provided by NCBI PubMed

Text Mining Data

Dashed line = No text mining data

Manually curated Databases

Reactome Reaction: SLC32A1 → SLC32A1 (reaction)
Reactome Reaction: GAD2 → SLC32A1 (reaction)
Reactome Reaction: GAD1 → HSPA8 (reaction)
Reactome Reaction: SLC32A1 → RAB3A (reaction)
Reactome Reaction: GAD1 → SYT1 (reaction)
Reactome Reaction: GAD1 → CPLX1 (reaction)
Reactome Reaction: RIMS1 → STX1A (reaction)
Reactome Reaction: GAD2 → CPLX1 (reaction)
Reactome Reaction: HSPA8 → HSPA8 (reaction)
Reactome Reaction: RAB3A → STX1A (reaction)
Reactome Reaction: GAD1 → SNAP25 (reaction)
Reactome Reaction: GAD1 → RAB3A (reaction)
Reactome Reaction: CPLX1 → CPLX1 (reaction)
Reactome Reaction: SYT1 → CPLX1 (reaction)
Reactome Reaction: VAMP2 → SLC32A1 (reaction)
Reactome Reaction: GAD2 → VAMP2 (reaction)
Reactome Reaction: SYT1 → RIMS1 (reaction)
Reactome Reaction: STXBP1 → STXBP1 (reaction)
Reactome Reaction: DNAJC5 → STX1A (reaction)
Reactome Reaction: HSPA8 → SLC32A1 (reaction)
Reactome Reaction: SYT1 → SYT1 (reaction)
Reactome Reaction: GAD2 → HSPA8 (reaction)
Reactome Reaction: HSPA8 → SNAP25 (reaction)
Reactome Reaction: STX1A → STX1A (reaction)
Reactome Reaction: HSPA8 → RIMS1 (reaction)
Reactome Reaction: VAMP2 → CPLX1 (reaction)
Reactome Reaction: CPLX1 → SNAP25 (reaction)
Reactome Reaction: RIMS1 → CPLX1 (reaction)
Reactome Reaction: DNAJC5 → SLC32A1 (reaction)
Reactome Reaction: STXBP1 → STX1A (reaction)
Reactome Reaction: GAD2 → RIMS1 (reaction)
Reactome Reaction: GAD1 → RIMS1 (reaction)
Reactome Reaction: GAD2 → SYT1 (reaction)
Reactome Reaction: DNAJC5 → DNAJC5 (reaction)
Reactome Reaction: GAD1 → STX1A (reaction)
Reactome Reaction: GAD1 → GAD2 (reaction)
Reactome Reaction: VAMP2 → VAMP2 (reaction)
Reactome Reaction: STXBP1 → VAMP2 (reaction)
Reactome Reaction: RAB3A → SNAP25 (reaction)
Reactome Reaction: GAD2 → GAD2 (reaction)
Reactome Reaction: SYT1 → SLC32A1 (reaction)
Reactome Reaction: STXBP1 → CPLX1 (reaction)
Reactome Reaction: STXBP1 → SNAP25 (reaction)
Reactome Reaction: CPLX1 → STX1A (reaction)
Reactome Reaction: SYT1 → STX1A (reaction)
Reactome Reaction: SYT1 → RAB3A (reaction)
Reactome Reaction: RIMS1 → SLC32A1 (reaction)
Reactome Reaction: GAD2 → STX1A (reaction)
Reactome Reaction: SLC32A1 → CPLX1 (reaction)
Reactome Reaction: HSPA8 → SYT1 (reaction)
Reactome Reaction: DNAJC5 → SYT1 (reaction)
Reactome Reaction: DNAJC5 → VAMP2 (reaction)
Reactome Reaction: GAD1 → SLC32A1 (reaction)
Reactome Reaction: GAD2 → STXBP1 (reaction)
Reactome Reaction: GAD2 → DNAJC5 (reaction)
Reactome Reaction: DNAJC5 → SNAP25 (reaction)
Reactome Reaction: CPLX1 → RAB3A (reaction)
Reactome Reaction: DNAJC5 → HSPA8 (reaction)
Reactome Reaction: GAD1 → GAD1 (reaction)
Reactome Reaction: DNAJC5 → RIMS1 (reaction)
Reactome Reaction: GAD2 → SNAP25 (reaction)
Reactome Reaction: RAB3A → RAB3A (reaction)
Reactome Reaction: GAD1 → VAMP2 (reaction)
Reactome Reaction: DNAJC5 → RAB3A (reaction)
Reactome Reaction: RIMS1 → SNAP25 (reaction)
Reactome Reaction: SNAP25 → SNAP25 (reaction)
Reactome Reaction: VAMP2 → RIMS1 (reaction)
Reactome Reaction: SYT1 → SNAP25 (reaction)
Reactome Reaction: GAD1 → DNAJC5 (reaction)
Reactome Reaction: VAMP2 → STX1A (reaction)
Reactome Reaction: HSPA8 → STX1A (reaction)
Reactome Reaction: DNAJC5 → STXBP1 (reaction)
Reactome Reaction: RIMS1 → RAB3A (reaction)
Reactome Reaction: GAD2 → RAB3A (reaction)
Reactome Reaction: HSPA8 → CPLX1 (reaction)
Reactome Reaction: SLC32A1 → SNAP25 (reaction)
Reactome Reaction: SYT1 → VAMP2 (reaction)
Reactome Reaction: STXBP1 → RIMS1 (reaction)
Reactome Reaction: RIMS1 → RIMS1 (reaction)
Reactome Reaction: STXBP1 → RAB3A (reaction)
Reactome Reaction: VAMP2 → SNAP25 (reaction)
Reactome Reaction: SLC32A1 → STX1A (reaction)
Reactome Reaction: STXBP1 → SLC32A1 (reaction)
Reactome Reaction: HSPA8 → STXBP1 (reaction)
Reactome Reaction: VAMP2 → RAB3A (reaction)
Reactome Reaction: DNAJC5 → CPLX1 (reaction)
Reactome Reaction: SNAP25 → STX1A (reaction)
Reactome Reaction: STXBP1 → SYT1 (reaction)
Reactome Reaction: HSPA8 → VAMP2 (reaction)
Reactome Reaction: HSPA8 → RAB3A (reaction)
Reactome Reaction: GAD1 → STXBP1 (reaction)

In total, 91 gene pairs are associated to this article in curated databases