PMID: 2494166Apr 5, 1989Paper

Effect of guanine nucleotides on the conformation and stability of chloroplast elongation factor Tu

The Journal of Biological Chemistry
M A Lapadat, L L Spremulli

Abstract

The effect of guanine nucleotides and kirromycin on the conformation and stability of the chloroplast elongation factor Tu (EF-Tuchl) from Euglena gracilis has been investigated. Free EF-Tuchl is quite thermolabile but the protein is greatly stabilized by guanine nucleotides. The temperature dependence of the thermal inactivation of EF-Tuchl was used to calculate the amount of stabilization energy conferred by the guanine nucleotides. GDP increases the activation energy for the denaturation process by 77 kcal/mol while GTP increases the activation energy by 51 kcal/mol. The difference in heat stability of free EF-Tuchl and the EF-Tuchl.GDP complex was used to determine a dissociation constant of 1.3 x 10(-7) M at 37 degrees C. The temperature dependence of the dissociation constant allowed the calculation of a delta H degree obsd of -55 kcal/mol and a delta S degree obsd of -146 cal/(mol degree) for GDP binding to EF-Tuchl.EF-Tuchl was found to have a trypsin-sensitive region similar to that observed for Escherichia coli EF-Tu. This loop region was protected by GTP and kirromycin but not by GDP.

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