| # | Document title | Authors | Year | Source | Cited by |
| 1 | Localization of α-glucosidases I, II, and III in organs of European honeybees, Apis mellifera L., and the origin of α-glucosidase in honey | Kubota M., Tsuji M., Nishimoto M., Wongchawalit J., Okuyama M., Mori H., Matsui H., Surarit R., Svasti J., Kimura A., Chiba S. | 2004 | Bioscience, Biotechnology and Biochemistry
68(11),pp. 2346-2352 | 50 |
| 2 | Biosorption of lead from acid solution using chitosan as a supporting material for spore forming-fungal biomass encapsulation | Lang W., Lang W., Buranaboripan W., Buranaboripan W., Wongchawalit J., Parakulsuksatid P., Vanichsriratana W., Sakairi N., Pathom-aree W., Sirisansaneeyakul S. | 2013 | International Journal of Environmental Science and Technology
10(3),pp. 579-590 | 10 |
| 3 | Molecular analysis of α-glucosidase belonging to GH-family 31 | Nakai H., Okuyama M., Kim Y., Saburi W., Wongchawalit J., Mori H., Chiba S., Kimura A. | 2005 | Biologia - Section Cellular and Molecular Biology
60(SUPPL. 16),pp. 131-135 | 16 |
| 4 | Lead accumulation and isolation of rhizobacteria from maize grown in contaminated soil | Keawsringam T., Wongchawalit J., Panich-Pat T. | 2015 | Polish Journal of Environmental Studies
24(5),pp. 2017-2020 | 2 |
| 5 | Purification and characterization of α-glucosidase I from Japanese honeybee (Apis cerana japonica) and molecular cloning of Its cDNA | Wongchawalit J., Yamamoto T., Nakai H., Kim Y.M., Sato N., Nishimoto M., Okuyama M., Mori H., Saji O., Chanchao C., Wongsiri S., Surarit R., Svasti J., Chiba S., Kimura A. | 2006 | Bioscience, Biotechnology and Biochemistry
70(12),pp. 2889-2898 | 26 |
| 6 | Potential of rhizobacteria for bioremediation of lead accumulation in rice plants | Wongchawalit J., Noitanom T., Panich-Pat T. | 2020 | Polish Journal of Environmental Studies
29(5),pp. 3873-3880 | 0 |
| 7 | Molecular Mechanism of α-glucosidase | Okuyama M., Mori H., Hondoh H., Nakai H., Saburi W., Kang M.S., Kim Y.M., Nishimoto M., Wongchawalit J., Yamamoto T., Son M., Lee J.H., Mar S.S., Fukuda K., Chiba S., Kimura A. | 2008 | Carbohydrate-Active Enzymes: Structure, Function and Applications
,pp. 64-76 | 1 |
| 8 | Biosorption of local textile dyes onto acid-tolerant macro-beads of Chitosan-immobilized Rhizopus arrhizus biomass | Lang W., Lang W., Buakaew P., Buranaporipan W., Wongchawalit J., Sakairi N., Vanichsriratana W., Sirisansaneeyakul S. | 2013 | Kasetsart Journal - Natural Science
47(1),pp. 101-114 | 0 |
| 9 | Molecular cloning of cDNAs and genes for three α-glucosidases from European honeybees, Apis mellifera L., and heterologous production of recombinant enzymes in Pichia pastoris | Nishimoto M., Mori H., Moteki T., Takamura Y., Iwai G., Miyaguchi Y., Okuyama M., Wongchawalit J., Surarit R., Svasti J., Kimura A., Chiba S. | 2007 | Bioscience, Biotechnology and Biochemistry
71(7),pp. 1703-1716 | 15 |
| 10 | Molecular cloning of cDNA for trehalase from the european honeybee, Apis mellifera L., and its heterologous expression in Pichia pastoris | Lee J., Lee J., Saito S., Mori H., Nishimoto M., Okuyama M., Kim D., Wongchawalit J., Kimura A., Chiba S. | 2007 | Bioscience, Biotechnology and Biochemistry
71(9),pp. 2256-2265 | 37 |
| 11 | Lead accumulation and isolation of associated rhizobacteria in rice grown in lead contaminated soil | Krajanglikit P., Nakkao J., Wongchawalit J., Panich-Pat T. | 2018 | EnvironmentAsia
11(3),pp. 79-88 | 0 |
| 12 | Pineapple stem by-product as a feed source for growth performance, ruminal fermentation, carcass and meat quality of Holstein steers | Hattakum C., Kanjanapruthipong J., Nakthong S., Wongchawalit J., Piamya P., Sawanon S., Sawanon S. | 2019 | South African Journal of Animal Sciences
49(1),pp. 147-155 | 6 |
| 13 | Isolation and partial characterization of ruminococcus flavefaciens from the rumen of swamp buffalo | Boonsaen P., Poonko S., Kanjanapruetipong J., Wongchawalit J., Phiriyangkul P., Sawanon S., Sawanon S. | 2019 | Buffalo Bulletin
38(2),pp. 311-325 | 0 |