R. Pongpisutta scite author profile

The mycotoxin fumonisin (FB) has become a major problem in maize products in southeastern Asia. Fumonisin can affect the health of humans and many animals. Fumonisin contamination can be reduced by detoxifying microbial enzyme. Screening of 95 potent natural sources resulted in 5.3% of samples yielding a total of five bacterial isolates that were a promising solution, reducing approximately 10.0–30.0% of fumonisin B1 (FB1). Serratia marcescens, one of the dominant degrading bacteria, was identified with Gram staining, 16S rRNA gene, and MALDI-TOF/TOF MS. Cell-free extract showed the highest fumonisin reduction rates, 30.3% in solution and 37.0% in maize. Crude proteins from bacterial cells were analyzed with a label-free quantification technique. The results showed that hydrolase enzymes and transferase enzymes that can cooperate in the fumonisin degradation process were highly expressed in comparison to their levels in a control. These studies have shown that S. marcescens 329-2 is a new potential bacterium for FB1 reduction, and the production of FB1-reducing enzymes should be further explored.

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RFLP Identification of Colletotrichum Species Isolated From Chilli in Thailand

Pongpisutta¹,

Winyarat²,

Rattanakreetakul³

2013

Acta Hortic.

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Omnipresence of Partitiviruses in Rice Aggregate Sheath Spot Symptom-Associated Fungal Isolates from Paddies in Thailand

Neang

Bincader

Rangsuwan

et al. 2021

Viruses

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Partitiviruses are one of the most prevalent double-stranded RNA viruses that have been identified mostly in filamentous fungi and plants. Partitiviruses generally infect host fungi asymptomatically but infrequently exert significant effect(s) on morphology and virulence, thus being considered a potential source of biological control agents against pathogenic fungi. In this study, we performed a screening for mycoviruses of a collection of Thai isolates of rice fungal pathogen Rhizoctonia oryzae-sativae, a causal agent of rice aggregated sheath spot disease. As a result, 36% of tested isolates carried potentially viral double-stranded RNAs with sizes ranging from 2 to 3 kbp. By conventional cDNA library construction and RNA-seq, we determined six new alphapartitiviruses that infected three isolates: tentatively named Rhizoctonia oryzae-sativae partitivirus 1 to 6 (RosPV1-6). Furthermore, RT-PCR detection of each virus revealed their omnipresent nature in different R. oryzae-sativae isolates. Although virus-curing of basidiomycetous fungi is generally difficult, our repeated attempts successfully obtained virus-free (for RosPV1, RosPV2, and uncharacterized partitiviruses), isogenic strain of R. oryzae-sativae TSS190442. The virus-cured strain showed slightly faster colony growth on the synthetic media and severe symptom development on the rice sheath compared to its virus-infected counterpart. Overall, this study shed light on the distribution of partitiviruses in R. oryzae-sativae in a paddy environment and exemplified a virus-curing protocol that may be applicable for other basidiomycetous fungi.

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Polymerase Chain Reaction Based Detection of Chilli Anthracnose Disease

Imjit¹,

Rattanakreetakul²,

Pongpisutta³

2013

Acta Hortic.

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Diversity of Colletotrichum Species causing Anthracnose Disease from Mango cv. Nam Dork Mai See Tong based on ISSR-PCR

Bincader

Pongpisutta

Rattanakreetakul

2021

IJARe

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Background: Anthracnose disease caused by the genus Colletotrichum is one of the crucial problems occurring in the field, along with postharvest diseases and affects mango quality in Thailand. In particular, the Nam Dork Mai See Tong cultivar, which is highly susceptible to the disease, is an important product for exportation. Methods: In this research, thirty-seven Colletotrichum species isolate were obtained from anthracnose disease in mango cv. Nam Dork Mai See Tong in three provinces in Thailand. Morphological studies and molecular techniques using species-specific primers were investigated; moreover, the diversity of pathogens was analyzed using PCR amplification of inter simple sequence repeats (ISSRs) with 6 primers, including pathogenicity tests. Result: Morphological studies and molecular detection with species-specific primers revealed that 32 isolates belonged to the C. gloeosporioides species complex and 5 isolates to the C. acutatum species complex. The genetic diversity of pathogens was analyzed. PCR amplification using 6 ISSR primers produced 35 polymorphic bands. These bands were used to construct UPGMA, in which cluster analysis divided the 37 isolates into 3 main groups and 8 subgroups at 61-73% Jaccard similarity coefficient with cophenetic correlation (r) = 0.6781. The ISSR technique showed the greatest genetic variation among isolates collected from different locations. Hence, a study based on ISSR markers was profitable to investigate the phylogenetic relationship of the genus Colletotrichum. Pathogenicity tests revealed that PC006 (Ca) and CS005 (Cg) showed the highest aggressiveness, with disease incidences of 84.74 and 80.90%, respectively. This study indicates that the diversity of pathogenic Colletotrichum species related to mango plantations in Thailand is increasing.

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Two Newly Identified Colletotrichum Species Associated with Mango Anthracnose in Central Thailand

Rattanakreetakul

Keawmanee

Bincader

et al. 2023

Plants

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Anthracnose caused by Colletotrichum spp. is one of the major problems in mango production worldwide, including Thailand. All mango cultivars are susceptible, but Nam Dok Mai See Thong (NDMST) is the most vulnerable. Through a single spore isolation method, a total of 37 isolates of Colletotrichum spp. were obtained from NDMST showing anthracnose symptoms. Identification was performed using a combination of morphology characteristics, Koch’s postulates, and phylogenetic analysis. The pathogenicity assay and Koch’s postulates on leaves and fruit confirmed that all Colletotrichum spp. tested were causal agents of mango anthracnose. Multilocus analysis using DNA sequences of internal transcribed spacer (ITS) regions, β-tubulin (TUB2), actin (ACT), and chitin synthase (CHS-1) was performed for molecular identification. Two concatenated phylogenetic trees were constructed using either two-loci of ITS and TUB2, or four-loci of ITS, TUB2, ACT, and CHS-1. Both phylogenetic trees were indistinguishable and showed that these 37 isolates belong to C. acutatum, C. asianum, C. gloeosporioides, and C. siamense. Our results indicated that using at least two loci of ITS and TUB2, were sufficient to infer Colletotrichum species complexes. Of 37 isolates, C. gloeosporioides was the most dominant species (19 isolates), followed by C. asianum (10 isolates), C. acutatum (5 isolates), and C. siamense (3 isolates). In Thailand, C. gloeosporioides and C. acutatum have been reported to cause anthracnose in mango, however, this is the first report of C. asianum and C. siamense associated with mango anthracnose in central Thailand.

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Protease Activity for Identification of Colletotrichum Species Causing Chilli Anthracnose in Thailand

Winyarat¹,

Pongpisutta²,

Rattanakreetakul³

2013

Acta Hortic.

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Colletotrichum Species Related To “Nam Dork Mai See Tong” Mango In Central Thailand And Risk Detection of Carbendazim-Resistant Strains

Bincader

Pongpisutta

Rattanakreetakul

2021

Preprint

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Nam Dork Mai See Tong mango is a deluxe commercial fruit in Thailand, however anthracnose disease becoming a major problem affecting market-driven. Fungicide treatment is the main component in the mango anthracnose management, notwithstanding the appearance of fungal-resistance has been become a factor of fungicide limition and can affect to increasingly higher costs. Thirty-two isolates of the Colletotrichum species complex were obtained from anthracnose-diseased mango cv. Nam Dork Mai See Tong in 3 provinces of Thailand. Fungal identification based on morphological and molecular markers was investigated. All isolates were divided into 3 species: C. asianum , C. gloeosporioides and C. siamense . Pathogenicity tests revealed that all 3 species caused symptoms on artificially unwounded mango fruits and leaves. Only C. gloeosporioides have previously been reported on mango, while C. asianum and C. siamense were first reports associated with mango in Thailand. The responsiveness of Colletotrichum isolates to carbendazim was evaluated using an MIC assay. Nine isolates of C. asianum were highly resistant, while 5 and 8 isolates of C. gloeosporioides were resistant (R) and highly resistant (HR), respectively. Moreover, all isolates of C. siamense were HR. Mutations were detected by PCR of a partial sequence of the β-tubulin gene. The sequence of β-tubulin gene in HR strains showed a single nucleotide transversion of adenine to cytosine, resulting in a substitution at codon 198. However, R strains were found to have only an amino acid change at codon 200. Additionally, PCR-RFLP was applied as a rapid technique to detect carbendazim resistance. The results demonstrated that only the Bsh 1236I restriction enzyme generated two bands (200 and 300 bp) in the highly resistant strain, but these bands were absent in the sensitive (S) and R strains. Hence, PCR-RFLP technique showed the potential to specifically detect benzimidazole fungicide resistance in 3 species of Colletotrichum. Moreover, this technique is accessible and feasible for laboratory assessment

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R. Pongpisutta

Microbial Reduction of Fumonisin B1 by the New Isolate Serratia marcescens 329-2

RFLP Identification of Colletotrichum Species Isolated From Chilli in Thailand

Omnipresence of Partitiviruses in Rice Aggregate Sheath Spot Symptom-Associated Fungal Isolates from Paddies in Thailand

Polymerase Chain Reaction Based Detection of Chilli Anthracnose Disease

Diversity of Colletotrichum Species causing Anthracnose Disease from Mango cv. Nam Dork Mai See Tong based on ISSR-PCR

Two Newly Identified Colletotrichum Species Associated with Mango Anthracnose in Central Thailand

Protease Activity for Identification of Colletotrichum Species Causing Chilli Anthracnose in Thailand

Colletotrichum Species Related To “Nam Dork Mai See Tong” Mango In Central Thailand And Risk Detection of Carbendazim-Resistant Strains

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