Journal of Microbiology and Biotechnology
- Volume 8 Issue 5
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- Pages.471-477
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- 1998
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- 1017-7825(pISSN)
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- 1738-8872(eISSN)
Construction of Two Metal-ion Binding Sites to Improve the 3′-5′Exonuclease Activity of Taq DNA Polymerase
- Park, Yong-Hyun (Yeungnam University, School of Chemical Engineering & Technology) ;
- Kim, Jong-Moon (Yeungnam University, Department of Chemistry) ;
- Choi, Hye-Ja (Yeungnam University, School of Chemical Engineering & Technology) ;
- Kim, Seog-K. (Yeungnam University, Department of Chemistry) ;
- Kim, Young-Soo (Yeungnam University, School of Chemical Engineering & Technology)
- Published : 1998.10.01
Abstract
Taq DNA polymerase from Thermus aquaticus is very useful in the polymerase chain reaction. Taq DNA polymerase is classified in the pol I family, represented by E. coli DNA polymerase I. The three-dimensional structural alignment of 3'-5'exonuclease domains from the pol I family DNA polymerases explains why Taq DNA polymerase does not carry out proofreading in polymerase chain reactions. Three sequence motifs, Exo I, II, and III, must exist to carry out 3'-5'exonuclease activity for proof- reading by a 3'-5'exonuclease reaction, but these are abolished in Taq DNA polymerase. The key catalytic module in 3'-5'exonuclease is two metal ions chelated by four active-site carboxylic amino acids. Taq DNA polymerase was mutagenized to construct the catalytic module in the active site. The circular dichroism technique supported the formation of the catalytic module, and the radioactive assay showed that the 3'-5'exonuclease activity doubled in the mutant Taq DNA polymerase.