Tissue injury and inflammation often cause an increase of hydrogen ion concentration in local tissues, called tissue acidosis. Tissue acidosis seems to be the dominant factor that leads to painful sensation. Two cation channels,acid-sensing ion channel(ASIC3) and vanilloid receptor 1, are activated by proton and involved in nociceptive transduction. Recently, a subfamily of G-protein-coupled receptor (GPCR) including OGR1, GPR4, TDAG8 and G2A has been identified as proton-sensing receptors. G2A is originally known as a lysophosphatidylcholine (LPC) receptor and is also actived by proton and 9-hydroxyoctadecadienoic. However, original studies for LPC and proton cannot be reproducible. Whether G2A is activated by proton and whether it is involved in nociception remain unclear. The objective of this thesis is to determine effects of pH on G2A and study its expression pattern. From RT-PCR results, G2A was expressed in many tissues including dorsal root ganglia (DRG). G2A was predominantly expressed in small-diameter, IB4-positive nociceptors. Interestingly, expression levels of G2A increased in ASIC3-/-DRG. This increase is due to an increase in G2A-expressing neurons, mainly in large diameter neurons. Accordingly, G2A may be involved in nociception. Consistent with previous studies, I have found G2A cannot be activated by proton.