Adjusting acidity with impunity

December 22, 2009 by Wiebe van der Veen

(PhysOrg.com) -- How do individual cells or proteins react to changing pH levels? Researchers at the MESA+ Institute for Nanotechnology at the University of Twente, The Netherlands, have developed a technique for ‘gently’ adjusting pH: in other words, without damaging biomolecules. This should soon allow them to measure the activity of a single enzyme as a function of pH.

The researchers will publish their findings in the journal Lab on a Chip, which will devote a cover story to their research in the December 21st issue.

Current methods for adjusting pH often have unpredictable effects on the immediate environment of a cell or biomolecule. Electrochemical reactions may occur that affect measurements, or pH levels may not change rapidly enough. It is then difficult to determine exactly what happens when the pH changes, or the measurement itself may even produce unwanted side effects. Researcher Rogier Veenhuis and his colleagues have developed a technique which resembles traditional titration, but which is controlled electrically and takes place using extremely small volumes of solution. The greatest benefit of this technique is that there are no undesirable side effects: it is a 'gentle' approach.

Light intensity indicates pH

The researchers achieve this effect by using silicon nitride for the base of the micro and nano fluid channel, under which an electrode is attached. The electrode is given a negative charge which results in protons being attracted to the nitride surface. This causes the solution to become more basic and the pH rises. A positive charge results in the opposite effect: are released from the surface, the solution becomes more acidic and the pH decreases. There is no reaction on the as there would be during because the acts as an : this arrangement creates a kind of . Acidity can be adjusted by 'fiddling with the knob' to change the electrical current. The changes can be made visible by introducing a fluorescent pH indicator to the solution: light intensity reflects changes in pH.

This new method of titration takes place in extremely small quantities of fluid; substances can be titrated in the attomol range (10-18 mol). This should soon allow the researchers to measure the activity of a single enzyme as a function of pH.

The research was conducted by the BIOS research group of Prof. Albert van den Berg, who recently won one of the three 2009 Spinoza Prizes.

Explore further: Electric Jolt Triggers Release of Biomolecules, Nanoparticles

More information: The article 'Field-effect based attomole titrations in nanoconfinement' by Rogier Veenhuis, Egbert van der Wouden, Jan van Nieuwkasteele, Albert van den Berg and Jan Eijkel is available online and will be published as an 'inside cover' story in the December 21st edition of the journal Lab on a Chip.

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