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Kinetic measurements of protein conformation in a microchip.

Biotechnology progress (2006-10-07)
Matthew B Kerby, Jinkee Lee, Joshua Ziperstein, Anubhav Tripathi
ANOTACE

This paper presents a microchip-based system for collecting kinetic time-based information on protein refolding and unfolding. Dynamic protein conformational change pathways were studied in microchannel flow using a microfluidic device. We present a protein-conserving approach for quantifying refolding by dynamically varying the concentration of the chemical denaturants, guanidine hydrochloride and urea. Short diffusion distances in the microchannel result in rapid equilibrium between protein and titrating solutions. Dilutions on the chip were tightly regulated using pressure controls rather than syringe-based flow, as verified with extensive on-chip tracer dye controls. To validate this protein assay method, folding transition experiments were performed using two well-characterized proteins, human serum albumin (HSA) and bovine carbonic anhydrase (BCA). Transition events were monitored through fluorescence intensity shifts of the protein dye 8-anilino-1-naphthalenesulfonic acid (ANS) during dilutions of protein from urea or guanidine hydrochloride solutions. The enzymatic activity of refolded BCA was measured by UV absorption through the conversion of p-nitrophenyl acetate (p-NPA). The microchip protein refolding transitions using ANS were well-correlated with conventional plate-based experiments. The microfluidic platform enables refolding studies to identify rapidly the optimal folding strategy for a protein using small quantities of material.

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Sigma-Aldrich
Albumin from human serum, lyophilized powder, Fatty acid free, Globulin free, ≥99% (agarose gel electrophoresis)
Sigma-Aldrich
Carbonic Anhydrase from bovine erythrocytes, lyophilized powder, ≥2,000 W-A units/mg protein