Abstract
With decreasing available land and fresh-water resources, the oceans become attractive alternatives for the production of valuable biomass, comparable to terrestrial crops. Seaweed cultivation for food, chemicals, and fuels is already under intensive development, yet efficient technologies for separation of major components are still missing. We report a food-grade process for the extraction of proteins from a green macroalga, Ulva sp., using high-voltage pulsed electric field (PEF) cell-membrane permeabilization, coupled with mechanical pressing to separate liquid and solid phases. We showed that a PEF treatment, at 247 kJ/kg fresh Ulva, delivered through 50 pulses of 50 kV, applied at a 70.3 mm electrode gap on the 140 g fresh weight of Ulva sp., resulted in an ∼7-fold increase in the total protein extraction yield compared to extraction by osmotic shock. The PEF extract of 20% protein content showed 10–20 times higher antioxidant capacity than β-Lactoglobulin (β-Lg), bovine serum albumin, and potato pr...
Published Version
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