# | Document title | Authors | Year | Source | Cited by |
1 | Antagonistic activity against dirty panicle rice fungal pathogens and plant growth-promoting activity of bacillus amyloliquefaciens BAS23 | Saechow S., Thammasittirong A., Kittakoop P., Kittakoop P., Kittakoop P., Prachya S., Thammasittirong S. | 2018 | Journal of Microbiology and Biotechnology 28(9),pp. 1527-1535 | 53 |
2 | Lignocellulose hydrolytic enzymes production by Aspergillus flavus KUB2 using submerged fermentation of sugarcane bagasse waste | Namnuch N., Thammasittirong A., Thammasittirong S.N.R. | 2020 | Mycology
| 53 |
3 | Improvement of ethanol production by ethanoltolerant Saccharomyces cerevisiae UVNR56 | Thammasittirong S.N.R., Thirasaktana T., Thammasittirong A., Srisodsuk M. | 2013 | SpringerPlus 2(1) | 40 |
4 | PCR-based method for the detection of cry genes in local isolates of Bacillus thuringiensis from Thailand | Thammasittirong A., Attathom T. | 2008 | Journal of Invertebrate Pathology 98(2),pp. 121-126 | 36 |
5 | Enhanced xylose fermentation and hydrolysate inhibitor tolerance of Scheffersomyces shehatae for efficient ethanol production from non-detoxified lignocellulosic hydrolysate | Senatham S., Chamduang T., Kaewchingduang Y., Thammasittirong A., Srisodsuk M., Elliston A., Roberts I., Waldron K., Thammasittirong S. | 2016 | SpringerPlus 5(1) | 34 |
6 | Aedes aegypti membrane-bound alkaline phosphatase expressed in Escherichia coli retains high-affinity binding for Bacillus thuringiensis Cry4Ba toxin | Thammasittirong A., Thammasittirong A., Dechklar M., Leetachewa S., Pootanakit K., Angsuthanasombat C. | 2011 | Applied and Environmental Microbiology 77(19),pp. 6836-6840 | 26 |
7 | Evaluation of ethanol production from sugar and lignocellulosic part of energy cane | Thammasittirong S., Chatwachirawong P., Chamduang T., Thammasittirong A. | 2017 | Industrial Crops and Products 108,pp. 598-603 | 25 |
8 | Efficient polyhydroxybutyrate production from bacillus thuringiensis using sugarcane juice substrate | Thammasittirong A., Saechow S., Thammasittirong S. | 2017 | Turkish Journal of Biology 41(6),pp. 992-1002 | 23 |
9 | Evaluation of spent mushroom substrate after cultivation of Pleurotus ostreatus as a new raw material for xylooligosaccharides production using crude xylanases from Aspergillus flavus KUB2 | Seekram P., Thammasittirong A., Thammasittirong S.N.R. | 2021 | 3 Biotech 11(4) | 16 |
10 | Molecular characterization of lepidopteran-specific toxin genes in Bacillus thuringiensis strains from Thailand | Boonmee K., Thammasittirong S., Thammasittirong A. | 2019 | 3 Biotech 9(4) | 14 |
11 | Adding value to rice straw waste for high-level xylanase production using a new isolate of Bacillus altitudinis RS3025 | Ketsakhon P., Thammasittirong A., Thammasittirong S.N.R. | 2022 | Folia Microbiologica
| 12 |
12 | Mosquitocidal potential of silver nanoparticles synthesized using local isolates of Bacillus thuringiensis subsp. israelensis and their synergistic effect with a commercial strain of B. thuringiensis subsp. israelensis | Thammasittirong A., Prigyai K., Thammasittirong S. | 2017 | Acta Tropica 176,pp. 91-97 | 8 |
13 | The C-terminal domain of the Bacillus thuringiensis Cry4Ba mosquito-specific toxin serves as a potential membrane anchor | Thammasittirong A., Imtong C., Sriwimol W., Sakdee S., Angsuthanasombat C., Angsuthanasombat C. | 2019 | Toxins 11(2) | 7 |
14 | Bacillus thuringiensis cry4ba insecticidal toxinexploits leu615 in its c‐terminal domain to interact with a target receptor—aedes aegypti membrane‐bound alkaline phosphatase | Thammasittirong A., Thammasittirong S.N.R., Imtong C., Charoenjotivadhanakul S., Sakdee S., Li H.C., Okonogi S., Angsuthanasombat C. | 2021 | Toxins 13(8) | 6 |
15 | Proteomic Response of Aedes aegypti Larvae to Silver/Silver Chloride Nanoparticles Synthesized Using Bacillus thuringiensis subsp. israelensis Metabolites | Chimkhan N., Thammasittirong S.N.R., Roytrakul S., Krobthong S., Thammasittirong A. | 2022 | Insects 13(7) | 6 |
16 | High poly ε-caprolactone biodegradation activity by a new Acinetobacter seifertii isolate | Budkum J., Thammasittirong S.N.R., Thammasittirong A. | 2022 | Folia Microbiologica
| 5 |
17 | Evaluating the Potential of Newly Developed Energy Cane Clones for First- and Second-Generation Ethanol Production | Thammasittirong S.N.R., Chatwachirawong P., Khemdee K., Thammasittirong A. | 2023 | Fermentation 9(3) | 4 |
18 | Valorisation of sawdust-based spent mushroom substrate for sustainable xylooligosaccharides production using low-cost crude xylanases from Aspergillus flavus KUB2 | Supmeeprom S., Thammasittirong A., Jeennor S., Sopalun K., Thammasittirong S.N.R. | 2024 | Mycology
| 3 |
19 | Aromatic Residues on the Side Surface of Cry4Ba-Domain II of Bacillus thuringiensis subsp. israelensis Function in Binding to Their Counterpart Residues on the Aedes aegypti Alkaline Phosphatase Receptor | Thammasittirong A., Thammasittirong S.N.R. | 2023 | Toxins 15(2) | 2 |
20 | Antifungal activity of soil yeast (Lachancea kluyveri sp132) against rice pathogenic fungi and its plant growth promoting activity | Sripodok C., Thammasittirong A., Thammasittirong S. | 2019 | Journal of the International Society for Southeast Asian Agricultural Sciences 25(1),pp. 55-65 | 2 |
21 | Valorization of Sugarcane Bagasse for Co-Production of Poly(3-hydroxybutyrate) and Bacteriocin Using Bacillus cereus Strain S356 | Khamberk S., Thammasittirong S.N.R., Thammasittirong A. | 2024 | Polymers 16(14) | 1 |
22 | Cry4Ba toxin of Bacillus thuringiensis subsp. israelensis uses both domains II and III to bind to its receptor—Aedes aegypti alkaline phosphatase | Thammasittirong A., Na-Ranong Thammasittirong S. | 2023 | Heliyon 9(9) | 0 |
23 | Agricultural waste after cultivation of pleurotus ostreatus as a potential biomass resource for ethanol production | Tummo K., Thammasittirong A., Thammasittirong S. | 2018 | Journal of the International Society for Southeast Asian Agricultural Sciences 24(1),pp. 19-26 | 0 |