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2017

  1. Itsathitphaisarn, O., Thitamadee, S., Weerachatyanukul, W. and Sritunyalucksana, K. (2017). Potential of RNAi applications to control viral diseases of farmed shrimp. Journal of Invertebrate Pathology, 147, 76-85.
  2. Salachan, P. V., Jaroenlak, P., Thitamadee, S., Itsathitphaisarn, O. and Sritunyalucksana, K. (2017). Laboratory cohabitation challenge model for shrimp hepatopancreatic microsporidiosis (HPM) caused by Enterocytozoon hepatopenaei (EHP). BMC Veterinary Research, 13, 9.
  3. Stentiford ,G. D., Sritunyalucksana , K., Flegel, T.W.,  Williams,  B. A. P., Withyachumnarnkul, B., Itsathitphaisarn, O. and Bass, D. (2017). New paradigms to help solve the global aquaculture disease crisis. PLoS Pathogens, 13(2), e1006160.
  4. Ke, H-M.,  Prachumwat,  A.,  Yu, C-P., Yang, Y-T., Promsri, S., Liu,  K-F.,  Lo, C-F.,  Lu, M-Y. J., Lai,  M-C.,   Tsai, I. J. and & Li, W-H. (2017). Comparative genomics of Vibrio campbellii strains and core species of the Vibrio Harveyi clade. Scientific Reports, 7, 41394 .
  5. Wangman, P., Chaivisuthangkura, P., Sritunyalucksana, K., Taengchaiyaphum, S., Senapin, S., Pengsuk, C., Sithigorngul, P. and Longyant, S. (2017). Development of monoclonal antibodies specific to ToxA and ToxB of Vibrio parahaemolyticus that cause acute hepatopancreatic necrosis disease (AHPND). Aquaculture, 474, 75-81.
  6. Taengchaiyaphuma, S., Nakayamab, H., Srisala, J., Khiev, R., Aldama-Canoa, D.J, Thitamadee, S. and Sritunyalucksana, S. (2017). Vaccination with multimeric recombinant VP28 induces high protection against white spot syndrome virus in shrimp. Developmental and Comparative Immunology, 76, 56-64.
  7. Phiwsaiya, K., Charoensapsri, W., Taengphu, S., Dong, H.T., Sangsuriya, P., Nguyen, G.T.T., Pham, H.Q., Amparyup, P., Sritunyalucksana, K., Taengchaiyaphum, S., Chaivisuthangkura, P., Longyant, S., Sithigorngul, P. and Senapin, S. (2017). A natural Vibrio parahaemolyticus PirvpA-B+ mutant kills shrimp but produces no Pirvp toxins or AHPND lesions. Applied and Environmental Microbiology, 83(16), e00680-17.

2016

  1. Jaroenlak, P., Sanguanrut, P., Williams, B.A.P., Stentiford, G.D., Flegel, T.W., Sritunyalucksana, K. and Itsathitphaisarn, O. (2016). A nested PCR assay to avoid false positive detection of the microsporidian Enterocytozoon hepatopenaei (EHP) in environmental samples in shrimp farms. PLOS one, 11(11), e0166320.

2015

  1. Ananphongmanee, V., Srisala, J., Sritunyalucksana, K. and Boonchird, C. (2015). Yeast surface display of two proteins previously shown to be protective against White Spot Syndrome Virus (WSSV) in shrimp. PLOS one, 10(6), e0128764.
  2. Sirikharin, R., Taengchaiyaphum, S., Sanguanrut, P., Chi, T.D., Mavichak, R., Proespraiwong, P., Nuangsaeng, B., Thitamadee, S., Flegel, T.W. and Sritunyalucksana, K. (2015). Characterization and PCR detection of binary, pir-like toxins from vibrio parahaemolyticus Isolates that cause acute hepatopancreatic necrosis disease (AHPND) in shrimp. PLOS one, 10(5), e0126987.
  3. Havanapan, P., Taengchaiyaphum, S., Ketterman, A.J. and Krittanai, C. (2016). Yellow head virus infection in black tiger shrimp reveals specific interaction with granule-containing hemocytes and crustinPm1 as a responsive protein. Developmental and Comparative Immunology, 54(1), 126–136.

2014

  1. Mangkalanan, S.,  Sanguanrat, P.,  Utairangsri, T.,  Sritunyalucksana, K. and  Krittanai, C. (2014). Characterization of the circulating hemocytes in mud crab (Scylla olivacea) revealed phenoloxidase activity. Developmental and Comparative Immunology, 44(1), 116-123.  
  2. Thitamadee, S., Srisala, J., Taengchaiyaphum, S. and Sritunyalucksana, K. (2014). Double-dose β-glucan treatment in WSSV-challenged shrimp reduces viral replication but causes mortality possibly due to excessive ROS production. Fish and Shellfish Immunology, 40(2), 478–484. 
  3. Udompetcharaporn, A., Junkunlo, K., Senapin, S., Roytrakul, S., Flegel, T.W. and Sritunyalucksana, K. (2014). Identification and characterization of a QM protein as a possible peptidoglycan recognition protein (PGRP) from the giant tiger shrimp Penaeus monodon. Developmental and Comparative Immunology, 46(2), 146-154.  
  4. Korshkari, P., Vaiwsri, S., Flegel, T.W., Ngamsuriyaroj, S., Sonthayanon, B. and Prachumwat, A. (2014). ShrimpGPAT: a gene and protein annotation tool for knowledge sharing and gene discovery in shrimp. BMC Genomics, 15, 506.
  5. Joshia, J., Srisala, J., Truong, V.H., Chen, I.T., Nuangsaeng, B., Suthienkul, O., Lo, C.F., Flegel, T.W., Sritunyalucksana, K. and Thitamadee, S . (2014). Variation in Vibrio parahaemolyticus isolates from a single Thai shrimp farm experiencing an outbreak of acute hepatopancreatic necrosis disease (AHPND). Aquaculture, 428-429, 297-302.

2013

  1. Taengchaiyaphum, S., Havanapan, P., Roytrakul, S., Lo, C.F., Sritunyalucksana, K. and Krittanai, C. (2013). Phosphorylation is required for myosin regulatory light chain (PmMRLC) to control yellow head virus infection in shrimp hemocytes. Fish and Shellfish Immunology, 34(5), 1042-1049.
  2. Suebsing, R., Prombun, P., Srisala, J. and Kiatpathomchai, W. (2013). Loop-mediated isothermal amplification combined with colorimetric nanogold for detection of the microsporidian Enterocytozoon hepatopenaei in penaeid shrimp. Journal of Applied Microbiology, 114(5), 1254-1263.
  3. Tangprasittipap, A., Srisala, J., Chouwdee, S., Somboon, M., Chuchird, N., Limsuwan, C., Srisuvan, T., Flegel, T.W. and Sritunyalucksana, K. (2013). The microsporidian Enterocytozoon hepatopenaei is not the cause of white feces syndrome in whiteleg shrimp Penaeus (Litopenaeus) vannamei. BMC Veterinary Research, 9, 139.

2012

  1. Junkunlo, K., Prachumwat, A., Tangprasittipap, A., Senapin, S., Borwornpinyo, S., Flegel, T.W. and Sritunyalucksana, K. 2012. A novel lectin domain-containing protein (LvCTLD) associated with response of the whiteleg shrimp Penaeus (Litopenaeus) vannamei
  2. Tangprasittipap, A., Chouwdee, S., Phiwsaiya, K., Laiphrom, S., Senapin, S., Flegel, T.W. Sritunyalucksana, K. 2012. Structure and expression of a shrimp prohormone convertase 2. Gen Comp Endocr.178(2):185-193.
  3. Khemayan, K., Prachumwat, A., Sonthayanon, B., Intaraprasong, A., Sriurairatana, S. and Flegel, T.W. 2012. Complete genome sequence of virulence-enhancing Siphophage VHS1 from Vibrio harveyi. Appl Environ Microb.78(8):2790-2796.
  4. Thagun, C., Srisala, J., Sritunyalucksana, K., Narangajavana, J. and Sojikul, P. 2012. Arabidopsis-derived shrimp viral-binding protein, PmRab7 can protect white spot syndrome virus infection in shrimp. J Biotechnol.161(1):60-67.
  5. Sritunyalucksana, K., Utairungsee, T. and Sirikharin, R. and Srisala, J. (2012). Virus-binding proteins and their roles in shrimp innate immunity. Fish and Shellfish Immunology, 33(6), 1269-1275.

2011

  1. Sritunyalucksana, K., Intaraprasong, A., Sa-Nguanrut, P., Filer, K. and Fegan, D.F. 2011. Organic selenium supplementation promotes shrimp growth and disease resistance to Taura Syndrome virus. Scienceasia. 37(1):24-30.
  2. Flegel, T.W. and Sritunyalucksana, K. 2011. Shrimp molecular responses to viral pathogens. Mar Biotechnol.13(4):587-607.
  3. Jupatanakul, N., Wannapapho, W., Eurwilaichitr, L., Flegel, T.W. and Sritunyalucksana, K. 2011. Cloning and expression of recombinant shrimp PmRab7 (a virus-binding protein) in Pichia pastoris. Protein Expres Purif. 76(1):1-6.

2010

  1. Somboonna, N., Mangkalanan, S., Udompetcharaporn, A., Krittanai, C., Sritunyalucksana, K. and Flegel, T.W. 2010. Mud crab susceptibility to disease from white spot syndrome virus is species-dependent. BMC Res Not. 3:315

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