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11-fold symmetry of the trp RNA-binding attenuation protein (TRAP) from Bacillus subtilis determined by X-ray analysis.

Journal of molecular biology (1994-11-18)
A A Antson, A M Brzozowski, E J Dodson, Z Dauter, K S Wilson, T Kurecki, J Otridge, P Gollnick
RÉSUMÉ

The trp RNA-binding attenuation protein (TRAP) of Bacillus subtilis has been crystallized and examined by crystallography using X-ray synchrotron radiation diffraction data. Crystals of TRAP complexed with L-tryptophan belong to space group C2 with a = 156.8 A, b = 114.05 A, c = 105.9 A, beta = 118.2 degrees. Crystals of a potential heavy-atom derivative of TRAP complexed with 5-bromo-L-tryptophan grow in the same space group with similar cell dimensions. X-ray data for the native crystals and for the derivative have been collected to 2.9 A and 2.2 A resolution, respectively. Peaks in the self-rotation function and in the Patterson synthesis could only be explained by two 11-subunit oligomers (each formed by an 11-fold axis of symmetry) in the asymmetric unit lying with the 11-fold rotation axes parallel to each other. The consequence is that the TRAP molecule has 11-fold symmetry and contains 11 subunits.

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5-Bromo-DL-tryptophan, 99%