We describe and compare the use of isoelectric focusing (IEF) in a granulated Sephadex matrix and in polyacrylamide immobilized pH gradients to separate an aromatase inhibitor (follicle regulatory protein: FRP) in preparative amounts from porcine follicular fluid (PFF). The starting material for IEF was derived from pFF after passage through agarose immobilized textile dye Orange A (0.5 KC1 eluent). Before IEF, some Orange A bound (OAB) material was further purified on a FPLC employing a Mono-Q anion exchange column. Previous use of chromatofocusing indicated that aromatase inhibitory activity is largely concentrated in OAB fractions with a pI in the ranges of pH approximately 4.5 and approximately 6.5. The current study revises these findings to provide a more precise measure of the isoelectric points in question to pH 4.73 +/- 0.05 and pH 6.41 +/- 0.06. The use of Sephadex was limited by gradient instability and the selection of pH ranges available. IEF using immobilized pH gradients had several advantages over Sephadex: 1) broader selection of gradients from 0.1 to 7.0 pH units; greater resolving power, and enhanced stability. The principal disadvantage of the immobiline system was the recovery of focused material from the gel matrix. The use of isoelectric focusing with immobilized pH gradients on a preparative scale to purify FRP from OAB resulted in a greater than 50% recovery with a substantial increase in specific activity (from ID50 approximately 300 micrograms/ml to 20 ng/ml).