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1. Transtubular potential differences and specific resistances were measured in rat proximal tubules by means of single and double barrelled glass micro-electrodes. 2. Tip localization was made by observation of effective resistance changes measured with double barrelled micro-electrodes upon passage of oil droplets, and by perfusion with choline C1. 3. Mean early proximal p.d.s. of the order of -1 to -2 mV, and late values of +0-5 to +1mV were found. Mean specific resistances ranged from 12 to 15 omega cm2. 4. Diffusion potentials and single ion relative conductances were evaluated, perfusing the lumen with solutions differing only with respect to one salt concentration. Na and K conductances were similar and greater than those of C1. 5. Luminal and peritubular perfusions with hypotonic solutions showed the occurrence of streaming potentials in this structure suggesting the existence of pores lined with negative charges. The effective diameter of these pores appeared to be reduced by hypotonic perfusion, as evidenced by a significant increase in resistance, indicating that the main ion path across this structure is represented by intercellular spaces.