| # | Document title | Authors | Year | Source | Cited by |
| 1 | Hydrophobic Domains of Human Tropoelastin Interact in a Context-dependent Manner | Toonkool P., Jensen S.A., Maxwell A.L., Weiss A.S. | 2001 | Journal of Biological Chemistry
276(48),pp. 44575-44580 | 69 |
| 2 | Self-immobilizing fluorogenic imaging agents of enzyme activity | Kwan D., Chen H., Ratananikom K., Hancock S., Watanabe Y., Kongsaeree P., Samuels A., Withers S. | 2011 | Angewandte Chemie - International Edition
50(1),pp. 300-303 | 56 |
| 3 | Thermodynamic and hydrodynamic properties of human tropoelastin: Analytical ultracentrifuge and pulsed field-gradient spin-echo NMR studies | Toonkool P., Regan D.G., Kuchel P.W., Morris M.B., Weiss A.S. | 2001 | Journal of Biological Chemistry
276(30),pp. 28042-28050 | 42 |
| 4 | Expression and purification of dalcochinase, a β-glucosidase from Dalbergia cochinchinensis Pierre, in yeast and bacterial hosts | Toonkool P., Metheenukul P., Sujiwattanarat P., Paiboon P., Tongtubtim N., Ketudat-Cairns M., Ketudat-Cairns J., Svasti J. | 2006 | Protein Expression and Purification
48(2),pp. 195-204 | 31 |
| 5 | Identification of the acid/base catalyst of a glycoside hydrolase family 3 (GH3) β-glucosidase from Aspergillus niger ASKU28 | Thongpoo P., Thongpoo P., McKee L.S., Araújo A.C., Kongsaeree P.T., Brumer H., Brumer H. | 2013 | Biochimica et Biophysica Acta - General Subjects
1830(3),pp. 2739-2749 | 26 |
| 6 | Cloning, expression and characterization of β-xylosidase from Aspergillus Niger ASKU28 | Choengpanya K., Arthornthurasuk S., Wattana-Amorn P., Huang W., Plengmuankhae W., Li Y., Kongsaeree P. | 2015 | Protein Expression and Purification
115,pp. 132-140 | 18 |
| 7 | Functional and structural differences between isoflavonoid β-glycosidases from Dalbergia sp. | Chuankhayan P., Rimlumduan T., Tantanuch W., Mothong N., Kongsaeree P.T., Metheenukul P., Svasti J., Jensen O.N., Cairns J.R.K. | 2007 | Archives of Biochemistry and Biophysics
468(2),pp. 205-216 | 17 |
| 8 | The hydrophobic domain 26 of human tropoelastin is unstructured in solution | MacKay J., Muiznieks L., Toonkool P., Weiss A. | 2005 | Journal of Structural Biology
150(2),pp. 154-162 | 16 |
| 9 | Purification and characterization of three β-glycosidases exhibiting high glucose tolerance from Aspergillus niger ASKU28 | Thongpoo P., Srisomsap C., Chokchaichamnankit D., Kitpreechavanich V., Svasti J., Svasti J., Kongsaeree P. | 2014 | Bioscience, Biotechnology and Biochemistry
78(7),pp. 1167-1176 | 12 |
| 10 | Substrate specificity in hydrolysis and transglucosylation by family 1 β-glucosidases from cassava and Thai rosewood | Kongsaeree P., Ratananikom K., Choengpanya K., Tongtubtim N., Sujiwattanarat P., Porncharoennop C., Onpium A., Svasti J. | 2010 | Journal of Molecular Catalysis B: Enzymatic
67(3-4),pp. 257-265 | 11 |
| 11 | Mutational analysis in the glycone binding pocket of Dalbergia cochinchinensis β-glucosidase to increase catalytic efficiency toward mannosides | Ratananikom K., Choengpanya K., Tongtubtim N., Charoenrat T., Withers S., Kongsaeree P. | 2013 | Carbohydrate Research
373,pp. 35-41 | 7 |
| 12 | Structure and activity of the Streptococcus pyogenes family GH1 6-phospho-Β-glucosidase SPy1599 | Stepper J., Dabin J., Eklof J., Thongpoo P., Thongpoo P., Kongsaeree P., Taylor E., Turkenburg J., Brumer H., Davies G. | 2013 | Acta Crystallographica Section D: Biological Crystallography
69(1),pp. 16-23 | 6 |
| 13 | Enhancement of poly(L-lactide)-degrading enzyme production by Laceyella sacchari LP175 using agricultural crops as substrates and its degradation of poly(L-lactide) polymer | Lomthong T., Lomthong T., Hanphakphoom S., Kongsaeree P., Srisuk N., Guicherd M., Cioci G., Duquesne S., Marty A., Kitpreechavanich V. | 2017 | Polymer Degradation and Stability
143,pp. 64-73 | 6 |
| 14 | Molecular Characterization and Potential Synthetic Applications of GH1 β-Glucosidase from Higher Termite Microcerotermes annandalei | Arthornthurasuk S., Jenkhetkan W., Suwan E., Chokchaichamnankit D., Srisomsap C., Wattana-Amorn P., Svasti J., Svasti J., Kongsaeree P. | 2018 | Applied Biochemistry and Biotechnology
186(4),pp. 877-894 | 5 |
| 15 | Multiple mutations in the aglycone binding pocket to convert the substrate specificity of dalcochinase to linamarase | Tongtubtim N., Thenchartanan P., Ratananikom K., Choengpanya K., Svasti J., Kongsaeree P. | 2018 | Biochemical and Biophysical Research Communications
504(4),pp. 647-653 | 3 |
| 16 | Anatomical characterization and protein profiles in adventitious and storage roots of two commercial Thai cassava varieties | Wechkrajang S., Vichukit V., Toonkool P., Nakasathien S. | 2006 | Kasetsart Journal - Natural Science
40(2),pp. 297-305 | 2 |
| 17 | A metagenomic approach to discover a novel β-glucosidase from bovine rumens | Suwan E., Arthornthurasuk S., Kongsaeree P. | 2017 | Pure and Applied Chemistry
89(7),pp. 941-950 | 2 |
| 18 | Synthesis of long-chain alkyl glucosides via reverse hydrolysis reactions catalyzed by an engineered β-glucosidase | Thenchartanan P., Pitchayatanakorn P., Wattana-Amorn P., Ardá A., Svasti J., Jiménez-Barbero J., Jiménez-Barbero J., Jiménez-Barbero J., Kongsaeree P.T. | 2020 | Enzyme and Microbial Technology
140 | 1 |
| 19 | Improved synthesis of long-chain alkyl glucosides catalyzed by an engineered β-glucosidase in organic solvents and ionic liquids | Thenchartanan P., Wattana-Amorn P., Svasti J., Kongsaeree P.T. | 2020 | Biotechnology Letters
42(11),pp. 2379-2387 | 0 |