From: Thermostable enzyme research advances: a bibliometric analysis
Author | Year | Journal | Title | Total Citation | Citation |
---|---|---|---|---|---|
Holland PM, Abramson RD, Watson R, and David Gelfand H | 1991 | Proc Natl Acad Sci U S A | Detection of specific polymerase chain reaction product by utilizing the 5' -* 3' exonuclease activity of Thermus aquaticus DNA polymerase | 2147 | [81] |
Haki GD and Rakshit SK | 2003 | Bioresour Technol | Developments in industrially important thermostable enzymes: a review | 885 | [82] |
Barany, F | 1991 | Proc Natl Acad Sci U S A | Genetic disease detection and DNA amplification using cloned thermostable ligase | 647 | [83] |
Fernandez-Lafuente, R | 2010 | J Mol Catal B Enzym | Lipase from Thermomyces lanuginosus: Uses and prospects as an industrial biocatalyst | 449 | [84] |
Klibanov AM | 1983 | Adv Appl Microbiol | Stabilization of Enzymes against Thermal Inactivation | 406 | [85] |
Turner P, Mamo G and Karlsson EN | 2007 | Microb Cell Fact | Potential and utilization of thermophiles and thermostable enzymes in biorefining | 386 | [86] |
Sterner R and Liebl W | 2001 | Crit Rev Biochem Mol Biol | Thermophilic Adaptation of Proteins | 318 | [87] |
Zhulidov PA, Bogdanova EA, Shcheglov AS, Vagner LL, Khaspekov GL, Kozhemyako VB, Matz MV, Meleshkevitch E, Moroz LL, Lukyanov SA, Shagin DA | 2004 | Nucleic Acids Res | Simple cDNA normalization using kamchatka crab duplex-speci®c nuclease | 316 | [88] |
Berka RM, Grigoriev et al | 2011 | Nat Biotechnol | Comparative genomic analysis of the thermophilic biomass-degrading fungi Myceliophthora thermophila and Thielavia terrestris | 309 | [89] |
Eom S, Wang J, Steitz T | 1996 | Nature | Structure of Taq polymerase with DNA polymerase active site | 305 | [90] |