Semi-automated protein crystal mounting device for the sulfur single-wavelength anomalous diffraction method

Kitago, Y.; Watanabe, N.; Tanaka, I.

doi:10.1107/S0021889809054272

Semi-automated protein crystal mounting device for the sulfur single-wavelength anomalous diffraction method

Use of longer-wavelength X-rays has advantages for the detection of small anomalous signals from light atoms, such as sulfur, in protein molecules. However, the accuracy of the measured diffraction data decreases at longer wavelengths because of the greater X-ray absorption. The capillary-top mounting method (formerly the loopless mounting method) makes it possible to eliminate frozen solution around the protein crystal and reduces systematic errors in the evaluation of small anomalous differences. However, use of this method requires custom-made tools and a large amount of skill. Here, the development of a device that can freeze the protein crystal semi-automatically using the capillary-top mounting method is described. This device can pick up the protein crystal from the crystallization drop using a micro-manipulator, and further procedures, such as withdrawal of the solution around the crystal by suction and subsequent flash freezing of the protein crystal, are carried out automatically. This device makes it easy for structural biologists to use the capillary-top mounting method for sulfur single-wavelength anomalous diffraction phasing using longer-wavelength X-rays.

Keywords: sulfur single-wavelength anomalous diffraction; S-SAD; capillary-top mounting; loopless mounting; automation; protein crystallography.

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Supporting information

	Moving Picture Experts Group (MPG) video file https://doi.org/10.1107/S0021889809054272/he5462sup1.mpg Overall view of the procedure of using the device. The black CCD camera at the center of this view supported by a three-finger clamp is temporarily set for the microscopic up view of the crystal.
	Moving Picture Experts Group (MPG) video file https://doi.org/10.1107/S0021889809054272/he5462sup2.mpg Closeup view of the procedure. A protein crystal was picked up from a drop and frozen. In this demonstration, the drop was put on a cover slide, but it is possible to pick a crystal up from crystallization plates.
	Moving Picture Experts Group (MPG) video file https://doi.org/10.1107/S0021889809054272/he5462sup3.mpg Demonstration of the movement of the mechanically linked X-Y-Z micromanipulator. The tilt angle of the cryo-pin is adjustable by an optical encoder attached at the manipulator arm.
	Moving Picture Experts Group (MPG) video file https://doi.org/10.1107/S0021889809054272/he5462sup4.mpg Demonstration of synchronously-controlled cryo-stream shutter and manipulator. The action repeats twice.
	Moving Picture Experts Group (MPG) video file https://doi.org/10.1107/S0021889809054272/he5462sup5.mpg Real time movie of the microscopic view of the tip of the capillary at the freezing position. It is possible to see the process of removing the external solution. A hen egg white lysozyme crystal was used.
	Moving Picture Experts Group (MPG) video file https://doi.org/10.1107/S0021889809054272/he5462sup6.mpg 20% slow-motion movie of he5462sup5.mpg. It is easily observed that the external solution is aspirated and the crystal sits on the tip of the capillary just before freezing.
	Moving Picture Experts Group (MPG) video file https://doi.org/10.1107/S0021889809054272/he5462sup7.mpg Real time movie of the microscopic view of a hen egg white lysozyme crystal.
	Moving Picture Experts Group (MPG) video file https://doi.org/10.1107/S0021889809054272/he5462sup8.mpg Real time movie of the microscopic view of a thaumatin crystal.
	Moving Picture Experts Group (MPG) video file https://doi.org/10.1107/S0021889809054272/he5462sup9.mpg A thaumatin crystal. One end of the crystal sticks into the capillary hole.

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Format		BIBTeX
		EndNote
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