1. ATP can elicit pain in humans and, together with other P2X channel agonists, can produce nocifensive responses in rodents. We used the rat in vitro skin-nerve preparation to quantify primary afferent responses to ATP and its stable analogue alpha,beta-methylene ATP in normal and carrageenan-inflamed skin. 2. Both ATP and alpha,beta-methylene ATP were found to specifically activate the peripheral terminals of Adelta and C-fibre nociceptors in the skin. Thirty-nine per cent of the nociceptors tested responded to the maximal dose of alpha,beta-methylene ATP (5 mM). In contrast, non-nociceptive, low-threshold mechano-sensitive fibres were never activated by the same agonist concentrations. 3. Amongst the nociceptor population, C-mechanoheat fibres (C-MH or polymodal nociceptors) were markedly more responsive to P2X agonists than mechanonociceptors (C-M nociceptors) with Adelta- or C-fibre axons. Both C-mechanoheat and C-mechanonociceptors were activated by alpha,beta-methylene ATP doses as low as 50 microM. 4. In skin inflamed with carrageenan 3-4 h before recording both the number of responsive C-fibre nociceptors and their response magnitude increased. The increased neural response under inflammatory conditions was largely observed in C-mechanoheat or polymodal nociceptors. After low doses of P2X agonists C-MH fibres but not C-M fibres developed elevated ongoing activity and this effect was only seen after carrageenan inflammation. The time course of alpha,beta-methylene ATP-evoked discharges in nociceptors was found to correlate well with the time course of behavioural nocifensive responses in rats to the same agonist described in a previous study (Hamilton et al. 1999). 5. We conclude that the rapid increase in the number of alpha,beta-methylene ATP responsive nociceptors and the increased magnitude of the neural response following carrageenan inflammation explains why very low concentrations of such agonists can cause pain in inflammatory states.