# | Document title | Authors | Year | Source | Cited by |
1 | Sergentomyia (Neophlebotomus) gemmea, a potential vector of Leishmania siamensis in southern Thailand | Kanjanopas K., Siripattanapipong S., Ninsaeng U., Hitakarun A., Jitkaew S., Kaewtaphaya P., Tan-ariya P., Mungthin M., Charoenwong C., Leelayoova S. | 2013 | BMC Infectious Diseases 13(1) | 71 |
2 | A proteomic analysis of the anti-dengue virus activity of andrographolide | Paemanee A., Paemanee A., Hitakarun A., Wintachai P., Roytrakul S., Smith D. | 2019 | Biomedicine and Pharmacotherapy 109,pp. 322-332 | 51 |
3 | Multilocus characterization and phylogenetic analysis of Leishmania siamensis isolated from autochthonous visceral leishmaniasis cases, southern Thailand | Leelayoova S., Siripattanapipong S., Hitakarun A., Kato H., Tan-Ariya P., Siriyasatien P., Osatakul S., Mungthin M. | 2013 | BMC Microbiology 13(1) | 43 |
4 | Evaluation of the antiviral activity of orlistat (tetrahydrolipstatin) against dengue virus, Japanese encephalitis virus, Zika virus and chikungunya virus | Hitakarun A., Khongwichit S., Wikan N., Roytrakul S., Yoksan S., Rajakam S., Davidson A.D., Smith D.R. | 2020 | Scientific Reports 10(1) | 35 |
5 | Comparison of PCR methods for detection of Leishmania siamensis infection | Hitakarun A., Tan-Ariya P., Siripattanapipong S., Mungthin M., Piyaraj P., Naaglor T., Siriyasatien P., Tiwananthagorn S., Leelayoova S. | 2014 | Parasites and Vectors 7(1) | 30 |
6 | Case report: Recurrences of visceral leishmaniasis caused by Leishmania siamensis after treatment with amphotericin B in a seronegative child | Osatakul S., Mungthin M., Siripattanapipong S., Hitakarun A., Kositnitikul R., Naaglor T., Leelayoova S. | 2014 | American Journal of Tropical Medicine and Hygiene 90(1),pp. 40-42 | 30 |
7 | A functional interaction between GRP78 and Zika virus E protein | Khongwichit S., Sornjai W., Jitobaom K., Greenwood M., Greenwood M.P., Hitakarun A., Wikan N., Murphy D., Smith D.R. | 2021 | Scientific Reports 11(1) | 30 |
8 | Screening of melatonin, α-tocopherol, folic acid, acetyl-l-carnitine and resveratrol for anti-dengue 2 virus activity | Paemanee A., Paemanee A., Hitakarun A., Roytrakul S., Smith D. | 2018 | BMC Research Notes 11(1) | 25 |
9 | Discordant activity of kaempferol towards dengue virus and Japanese encephalitis virus | Care C., Sornjai W., Jaratsittisin J., Hitakarun A., Wikan N., Triwitayakorn K., Smith D.R. | 2020 | Molecules 25(5) | 25 |
10 | Utilizing Quantitative Proteomics to Identify Species-Specific Protein Therapeutic Targets for the Treatment of Leishmaniasis | Krobthong S., Krobthong S., Yingchutrakul Y., Yingchutrakul Y., Samutrtai P., Hitakarun A., Siripattanapipong S., Leelayoova S., Mungthin M., Choowongkomon K. | 2021 | ACS Omega
| 11 |
11 | Analysis of the virus propagation profile of 14 dengue virus isolates in Aedes albopictus C6/36 cells | Hitakarun A., Ramphan S., Wikan N., Smith D.R. | 2020 | BMC Research Notes 13(1) | 5 |
12 | Cell Type Variability in the Incorporation of Lipids in the Dengue Virus Virion | Hitakarun A., Williamson M.K., Yimpring N., Sornjai W., Wikan N., Arthur C.J., Pompon J., Davidson A.D., Smith D.R. | 2022 | Viruses 14(11) | 4 |
13 | Investigation of the activity of baicalein towards Zika virus | Sawadpongpan S., Jaratsittisin J., Hitakarun A., Roytrakul S., Wikan N., Smith D.R. | 2023 | BMC Complementary Medicine and Therapies 23(1) | 3 |
14 | Expression of dengue virus and Zika virus NS2B-NS3pro constructs alter cellular fatty acids, but co-expression with a Zika virus virus-like particle is detrimental to virus-like particle expression | Ramphan S., Yimpring N., Tangsongcharoen C., Sornprasert S., Hitakarun A., Sornjai W., Roytrakul S., Panya A., Smith D.R. | 2023 | BMC Research Notes 16(1) | 0 |
15 | Upregulation of NOXA and P53 upregulated modulator of apoptosis (PUMA) in response to zika virus infection | Pokhrel D., Hitakarun A., Roytrakul S., Wikan N., Smith D.R. | 2020 | Journal of Current Science and Technology 10(1),pp. 77-83 | 0 |