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Title: A chimeric inorganic pyrophosphatase derived from Escherichia coli and Thermus thermophilus has an increased thermostability. Author: Satoh T, Takahashi Y, Oshida N, Shimizu A, Shinoda H, Watanabe M, Samejima T. Journal: Biochemistry; 1999 Feb 02; 38(5):1531-6. PubMed ID: 9931019. Abstract: Factors contributing to the thermostability of inorganic pyrophosphatase (PPase) were investigated by examining chimeric PPases from Escherichia coli and Thermus thermophilus (Tth). Two chimeric PPase genes, T1-135E (residues 1-135 from the N terminus are comprised of Tth PPase and residues 136-173 are derived from the C terminus of E. coli PPase) and T1-149E [residues 1-149 from the N terminus are from Tth PPase and the rest (150-175) are from E. coli PPase], were constructed by random chimeragenesis. After the genes were overexpressed in the E. coli BL21(DE3) strain and the expression products were purified, we compared the characteristics of these chimeric PPases with those of the parental PPases. We found that the two chimeras had higher activity than either parent PPase at the optimum temperature. We also examined thermal stability in terms of CD spectra, fluorescence spectra, and thermal changes in enzyme activity. The results revealed that the thermal stability of T1-149E is similar to that of Tth PPase, but T1-135E is much more stable. This suggests that the four residues that are different between T1-135E and T1-149E may be critical for thermostability between the two chimeras. By comparing the three-dimensional structures of Tth and E. coli PPases, we deduced that the following two factors may contribute to differences in thermostability. (1) Two residues (Thr138 and Ala141 in the Tth PPase and His140 and Asp143 in the E. coli PPase) in the vicinity of the trimer-trimer interface were different. (2) The Ala144-Lys145 loop in the Tth PPase was deleted in the E. coli PPase and also in the T1-135E chimera. Therefore, we conclude that T1-135E was thermostabilized by these two factors, and also, the Tth PPase moiety may contribute to the structural integrity of the chimeric enzymes.[Abstract] [Full Text] [Related] [New Search]