# | Document title | Authors | Year | Source | Cited by |
1 | How does phytophthora infestans evade control efforts? Modern insight into the late blight disease | Leesutthiphonchai W., Vu A.L., Ah-Fong A.M.V., Judelson H.S. | 2018 | Phytopathology, 108(8), pp. 916-924 | 94 |
2 | Selective determination of homocysteine levels in human plasma using a silver nanoparticle-based colorimetric assay | Leesutthiphonchai W., Dungchai W., Siangproh W., Ngamrojnavanich N., Chailapakul O. | 2011 | Talanta, 85(2), pp. 870-876 | 60 |
3 | Identification, pathogenicity and effects of plant extracts on Neopestalotiopsis and Pseudopestalotiopsis causing fruit diseases | Darapanit A., Boonyuen N., Leesutthiphonchai W., Nuankaew S., Piasai O. | 2021 | Scientific Reports, 11(1), 22606 | 26 |
4 | A MADS-box transcription factor regulates a central step in sporulation of the oomycete Phytophthora infestans | Leesutthiphonchai W., Judelson H. | 2018 | Molecular Microbiology, 110(4), pp. 562-575 | 22 |
5 | Storage fungi and ochratoxin A associated with arabica coffee bean in postharvest processes in Northern Thailand | Maman M., Sangchote S., Piasai O., Leesutthiphonchai W., Sukorini H., Khewkhom N. | 2021 | Food Control, 130, 108351 | 21 |
6 | Defining transgene insertion sites and off-target effects of homology-based gene silencing informs the application of functional genomics tools in phytophthora infestans | Vu A., Leesutthiphonchai W., Ah-Fong A., Judelson H. | 2019 | Molecular Plant-Microbe Interactions, 32(8), pp. 915-927 | 6 |
7 | Phytophthora infestans sporangia produced in artificial media and plant lesions have subtly divergent transcription profiles but equivalent infection potential and aggressiveness | Leesutthiphonchai W., Judelson H. | 2019 | Molecular Plant-Microbe Interactions, 32(9), pp. 1077-1087 | 5 |
8 | Potential of herb crude extracts against Thai isolates of Fusarium wilt pathogens | Srihom C., Srihom C., Boonyuen N., Khewkhom N., Leesutthiphonchai W., Nuankaew S., Suetrong S., Chuaseeharonnachai C., Piasai O. | 2021 | Current Research in Environmental and Applied Mycology, 11, pp. 570-584 | 2 |
9 | Biocontrol of Colletotrichum falcatum Causing Red Rot Disease of Sugarcane Using Non-toxigenic Aspergillus sp. | Srijudanu A., Srijudanu A., Piasai O., Leesutthiphonchai W., Wanitch M., Chaisiri C., Khewkhom N. | 2023 | Chiang Mai Journal of Science, 50(3), e2023032 | 1 |
10 | Fungicides control black rot in Vanda: a strategy to avoid fungicide resistance | Piasai O., Anyong T., Khewkhom N., Leesutthiphonchai W. | 2024 | European Journal of Plant Pathology | 0 |
11 | Bacterial diversity, community structure and function in association of potato scabby tubers during storage in northern Thailand | Macharoen P., Mhuantong W., Wannawong T., Leesutthiphonchai W., Tanasupawat S., Suwannarach N., Kuncharoen N. | 2024 | Folia Microbiologica | 0 |
12 | Evaluation of efficacy of four Cinnamomum species extracts and cinnamaldehyde to control anthracnose of mango fruit | Leesutthiphonchai W., Piasai O., Vajrodaya S., Umrung S., Schinnerl J., Steinkellner S., Khewkhom N. | 2024 | European Journal of Plant Pathology | 0 |
13 | Transcription factor binding specificities of the oomycete Phytophthora infestans reflect conserved and divergent evolutionary patterns and predict function | Vo N.N.T., Yang A., Leesutthiphonchai W., Liu Y., Hughes T.R., Judelson H.S. | 2024 | BMC Genomics, 25(1), 710 | 0 |