# | Document title | Authors | Year | Source | Cited by |
1 | Isolation and characterization of chitinase from soil fungi, Paecilomyces sp. | Homthong M., Kubera A., Srihuttagum M., Hongtrakul V. | 2016 | Agriculture and Natural Resources, 50(4), pp. 232-242 | 33 |
2 | Analysis of the Vitellogenin gene of rice moth, Corcyra cephalonica Stainton | Veerana M., Kubera A., Ngernsiri L. | 2014 | Archives of Insect Biochemistry and Physiology, 87(3), pp. 126-147 | 24 |
3 | Recombinant human osteopontin expressed in Nicotiana benthamiana stimulates osteogenesis related genes in human periodontal ligament cells | Rattanapisit K., Abdulheem S., Chaikeawkaew D., Kubera A., Mason H.S., Ma J.K.C., Pavasant P., Phoolcharoen W. | 2017 | Scientific Reports, 7(1), 17358 | 24 |
4 | Antiviral Compounds Against Nucleocapsid Protein of Porcine Epidemic Diarrhea Virus | Deejai N., Roshorm Y., Kubera A. | 2017 | Animal Biotechnology, 28(2), pp. 120-130 | 12 |
5 | Morphology and haemolymph composition changes in red sternum mud crab (Scylla serrata) | Salaenoi J., Sangcharoen A., Thongpan A., Mingmuang M. | 2006 | Kasetsart Journal - Natural Science, 40(1), pp. 158-166 | 11 |
6 | Active Compounds Against Anopheles minimus Carboxypeptidase B for Malaria Transmission-Blocking Strategy | Mongkol W., Arunyawat U., Surat W., Kubera A. | 2015 | Journal of Medical Entomology, 52(6), pp. 1322-1332 | 10 |
7 | Transcriptome analysis of Anopheles dirus and Plasmodium vivax at ookinete and oocyst stages | Boonkaew T., Mongkol W., Prasert S., Paochan P., Yoneda S., Nguitragool W., Kumpitak C., Sattabongkot J., Kubera A. | 2020 | Acta Tropica, 207, 105502 | 9 |
8 | Osteopontin induces osteogenic differentiation by human periodontal ligament cells via calcium binding domain-activin receptor-like kinase (ALK-1) interaction | Chaikiawkeaw D., Khorattanakulchai N., Nammultriputtar K., Rattanapisit K., Everts V., Everts V., Kubera A., Phoolchareon W., Pavasant P. | 2021 | Journal of Periodontology | 7 |
9 | Biofilm inhibitors targeting the outer membrane protein A of Pasteurella multocida in swine | Kubera A., Thamchaipenet A., Shoham M. | 2017 | Biofouling, 33(1), pp. 14-23 | 6 |
10 | Analysis of the α-amylase gene sequence and the enzyme activity of Indian rock oyster Saccostrea forskali | Thongsaiklaing T., Thongsaiklaing T., Sehawong W., Kubera A., Ngernsiri L. | 2014 | Fisheries Science, 80(3), pp. 589-601 | 6 |
11 | Bioactivities of crude mucus proteins from Eudrilus eugeniae (African night crawler) and Perionyx excavatus (Blue worm) | Prem-U-Domkit K., Muangman T., Klungsupya P., Chantsavang S., Kubera A. | 2017 | European review for medical and pharmacological sciences, 21(2), pp. 361-368 | 6 |
12 | Ancient DNA of pigs in Thailand: Evidence of multiple origins of Thai pigs in the late Neolithic period | Wannajuk M., Sangthong P., Natapintu S., Wonnapinij P., Vuttipongchaikij S., Kubera A., Won-In K., Mingmuang M., Surat W. | 2013 | ScienceAsia, 39(5), pp. 456-465 | 4 |
13 | Malaria Box Compounds against Anopheles gambiae (Diptera: Culicidae) Carboxypeptidase B Activity to Block Malaria Transmission | Pomun T., Wonginta P., Kubera A. | 2022 | Journal of Medical Entomology, 59(4), pp. 1355-1362 | 4 |
14 | Antimicrobial peptides of Lactobacillus salivarius K4 isolated from chicken intestine | Sangtanoo P., Choowongkomon K., Surat W., Nitisinprasert S., Kubera A. | 2014 | ScienceAsia, 40(2), pp. 135-140 | 3 |
15 | Gut bacterial diversity in plasmodium-infected and plasmodium-uninfected anopheles minimus | Surat W., Mhuantong W., Sangsrakru D., Chareonviriyaphap T., Arunyawat U., Kubera A., Sittivicharpinyo T., Siripan O., Pootakham W. | 2016 | Chiang Mai Journal of Science, 43(3), pp. 426-439 | 3 |
16 | Blood-induced differential gene expression in Anopheles dirus evaluated using RNA sequencing | Mongkol W., Nguitragool W., Sattabongkot J., Kubera A. | 2018 | Medical and Veterinary Entomology, 32(4), pp. 399-406 | 3 |
17 | Anopheles dirus yellow-g mediates Plasmodium vivax infection | Mongkol W., Pomun T., Nguitragool W., Kumpitak C., Duangmanee A., Sattabongkot J., Kubera A. | 2021 | Tropical Medicine and International Health | 2 |
18 | Biological activities of the vegetative insecticidal protein Vip3Aa against beet armyworm (Spodoptera exigua) | Ouying P., Promdonkoy B., Kubera A. | 2022 | ScienceAsia, 48(2), pp. 165-170 | 1 |
19 | Cellular enzymatic anti-oxidants of fractionated mucus proteins from Eudrilus eugeniae (African night crawler) and Perionyx excavatus (Blue worm) in MC3T3 | Prem-U-Domkit K., Muangman T., Kubera A., Klungsupya P. | 2018 | European Review for Medical and Pharmacological Sciences, 22(13), pp. 4375-4391 | 1 |
20 | Antiplatelet and fibrinogenolytic activities of a purified mucus protein from Eudrilus eugeniae (African night crawler) | Prem-U-domkit K., Suntravat M., Lucena S.E., Sánchez E.E., Kubera A. | 2019 | ScienceAsia, 45(3), pp. 236-244 | 0 |
21 | Alanine-162 of Bacillus thuringiensis Cyt2Aa2 toxin is essential for membrane binding and oligomerisation | Saitonuang P., Promdonkoy B., Kubera A. | 2016 | Biocontrol Science and Technology, 26(7), pp. 928-937 | 0 |
22 | Investigation of the unfolding pathway of Bacillus thuringiensis Cyt2Aa2 toxin reveals an unfolding intermediate | Sangcharoen A., Tepanant W., Kidsanguan S., Promdonkoy B., Krittanai C. | 2009 | Journal of Biotechnology, 141(3-4), pp. 137-141 | 0 |
23 | Knockdown of Anopheles dirus far upstream element-binding protein gene lower oocyst numbers of Plasmodium vivax | Kubera A., Putanyawiwat P., Bantuchai S., Kumpitak C., Duangmanee A., Sattabongkot J. | 2023 | Medical and Veterinary Entomology | 0 |
24 | Identification and characterization of malaria box compounds possessing inhibition effect on the SARS-CoV-2 spike protein | Sangvansindhu C., Patchimnan P., Roshorm Y.M., Kubera A. | 2024 | Chulalongkorn Medical Journal, 68(3), pp. 203-218 | 0 |
25 | Evidence of Bombyx mori (Lepidoptera: Bombycidae) odorant receptors related to oviposition behavior | Navakeatpreecha C., Nakagi H., Putanyawiwat P., Jamkratoke J., Chotimanothum B., Kubera A. | 2024 | Applied Environmental Biotechnology, 9(2), pp. 87-93 | 0 |