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Piyada Wachirawongsakorn 《人类与生态风险评估》2016,22(3):611-622
This study aimed to investigate the Pb and Cd contamination and health risk assessment for population via consumption of vegetables sold in fresh markets around the lower north of Thailand. The concentrations of Pb and Cd in various vegetables such as root/tuber, stem, inflorescence, fruit, and leaf vegetables were analyzed using an atomic absorption spec-trophotometer. Human health risks of these metals in vegetables were assessed based on target hazard quotient (THQ). The results indicated that more than 80% of the Pb and Cd in almost all vegetable samples exceeded the maximum allowable concentration by National Food Institute criteria with an average range of 0.96–3.39 and 0.48–1.40 mg/kg, respectively. The estimated daily intakes (EDI) of Pb and Cd via dietary consumption of vegetables were between 0.001–0.010 and 0.002–0.008 mg/kg/d, respectively. All EDIs of Pb contaminated vegetables were higher than the reference dose recommended by the USEPA except for leaf edible vegetables, while all EDIs of Cd contaminated vegetables were higher than the reference dose recommended by the USEPA. THQ indicated that the consumption of Pb contaminated root/tuber, stem, inflorescence, and fruit edible vegetables and Cd contaminated leaf vegetable for the local population in the lower north of Thailand could be a severe health risk problem. 相似文献
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Wanwisa Dejnirattisai Daming Zhou Helen M. Ginn Helen M.E. Duyvesteyn Piyada Supasa James Brett Case Yuguang Zhao Thomas S. Walter Alexander J. Mentzer Chang Liu Beibei Wang Guido C. Paesen Jose Slon-Campos César López-Camacho Natasha M. Kafai Adam L. Bailey Rita E. Chen Baoling Ying Gavin R. Screaton 《Cell》2021,184(8):2183-2200.e22
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Oythip Poolsawat Chitpan Kativat Kitiya Arsakit Piyada Alisha Tantasawat 《Molecular breeding : new strategies in plant improvement》2017,37(12):150
To identify the powdery mildew (PM) resistance gene in mungbean, inter-simple sequence repeat (ISSR) markers and newly developed ISSR-anchored resistance gene analog (ISSR-RGA) markers were evaluated. When F2:7 and F2:8 recombinant inbred line populations derived from a cross between CN72 (susceptible cultivar in Thailand) and V4718 (resistant line from Asian Vegetable Research and Development Center) were evaluated for PM resistance under field conditions, the PM resistance gene from V4718 was found to be inherited as a single major gene. Fifteen out of 75 ISSR primers produced 27 DNA bands putatively associated with PM resistance in bulk segregant analysis (BSA). Ten ISSR primers were combined with four RGA primers homologous to the nucleotide-binding site and kinase domains of resistance (R) genes to generate 40 ISSR-RGA primer combinations. When these 40 ISSR-RGA primer combinations and 10 corresponding ISSR primers were used in BSA, 873 ISSR and 756 ISSR-RGA loci were amplified. Fifty-two of 756 ISSR-RGA loci were new, and 11 of these 23 ISSR-RGA loci were putatively associated with the PM resistance. Simple linear regression confirmed that 5 of the 27 ISSR markers and 3 of the 11 ISSR-RGA markers were significantly associated with the PM resistance gene. When these eight ISSR and ISSR-RGA markers were used for quantitative trait loci (QTL) analysis, multiple interval mapping identified a major QTL, qPMC72V18-1, explaining up to 92.4% of the phenotypic variation, flanked by I42PL229 and I85420 markers at the distance of 4 and 9 cM, respectively. These results suggest that ISSR and ISSR-RGA markers are highly efficient tools for mapping PM resistance gene in mungbean. The markers closely linked to the PM resistance gene will be useful for future marker-assisted selection to develop mungbean varieties resistant to PM. 相似文献
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Piyada Wangroongsarb Tomoko Kohda Chutima Jittaprasartsin Karun Suthivarakom Thanitchi Kamthalang Kaoru Umeda Pathom Sawanpanyalert Shunji Kozaki Kazuyoshi Ikuta 《PloS one》2014,9(1)
Background
Thailand has had several foodborne outbreaks of botulism, one of the biggest being in 2006 when laboratory investigations identified the etiologic agent as Clostridium botulinum type A. Identification of the etiologic agent from outbreak samples is laborious using conventional microbiological methods and the neurotoxin mouse bioassay. Advances in molecular techniques have added enormous information regarding the etiology of outbreaks and characterization of isolates. We applied these methods in three outbreaks of botulism in Thailand in 2010.Methodology/Principal Findings
A total of 19 cases were involved (seven each in Lampang and Saraburi and five in Maehongson provinces). The first outbreak in Lampang province in April 2010 was associated with C. botulinum type F, which was detected by conventional methods. Outbreaks in Saraburi and Maehongson provinces occurred in May and December were due to C. botulinum type A1(B) and B that were identified by conventional methods and molecular techniques, respectively. The result of phylogenetic sequence analysis showed that C. botulinum type A1(B) strain Saraburi 2010 was close to strain Iwate 2007. Molecular analysis of the third outbreak in Maehongson province showed C. botulinum type B8, which was different from B1–B7 subtype. The nontoxic component genes of strain Maehongson 2010 revealed that ha33, ha17 and botR genes were close to strain Okra (B1) while ha70 and ntnh genes were close to strain 111 (B2).Conclusion/Significance
This study demonstrates the utility of molecular genotyping of C. botulinum and how it contributes to our understanding the epidemiology and variation of boNT gene. Thus, the recent botulism outbreaks in Thailand were induced by various C. botulinum types. 相似文献7.
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Park SH Chung PJ Juntawong P Bailey-Serres J Kim YS Jung H Bang SW Kim YK Do Choi Y Kim JK 《Plant physiology》2012,159(3):1111-1124
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Piyada Supasa Daming Zhou Wanwisa Dejnirattisai Chang Liu Alexander J. Mentzer Helen M. Ginn Yuguang Zhao Helen M.E. Duyvesteyn Rungtiwa Nutalai Aekkachai Tuekprakhon Beibei Wang Guido C. Paesen Jose Slon-Campos César López-Camacho Bassam Hallis Naomi Coombes Kevin R. Bewley Sue Charlton Gavin R. Screaton 《Cell》2021,184(8):2201-2211.e7
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Nantawan Kanawapee Jirawat Sanitchon Watanachai Lontom Piyada Threerakulpisut 《Plant and Soil》2012,358(1-2):235-249