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  1. Zulperi D, Sijam K
    Plant Dis, 2014 Feb;98(2):275.
    PMID: 30708756 DOI: 10.1094/PDIS-03-13-0321-PDN
    During March 2011 to June 2012, 50 banana plants of cultivar Musa × paradisiaca 'Horn' with Moko disease symptoms were randomly sampled in 12 different locations of 5 outbreak states in Peninsular Malaysia comprising Kedah, Selangor, Pahang, Negeri Sembilan, and Johor, with disease incidence exceeding 90% in some severely affected plantations. The disease symptoms observed in the infected plants included yellowing and wilting of the oldest leaves, which became necrotic, and eventually led to their dieback or collapse. The pulp of banana fruits also became discolored and exuded bacterial ooze. Vascular tissues in pseudostems were discolored. Fragments from symptomatic plant samples were excised and cultured on Kelman's-tetrazolium salt (TZC) medium. Twenty positive samples produced fluidal colonies that were either entirely white or white with pink centers after incubation for 24 to 48 h at 28°C on Kelman's-TZC medium and appeared as gram-negative rods after Gram staining. They were also positive for potassium hydroxide (KOH), Kovacs oxidase, and catalase tests, but negative for utilization of disaccharides and hexose alcohols, which are characteristics of biovar 1 Ralstonia solanacearum. For the pathogenicity test, 30 μl of 108 CFU/ml bacterial suspension of three selected virulent strains were injected into banana (Musa × paradisiaca 'Horn') leaves explants grown in plastic pots of 1,440 cm3 volume in a greenhouse, with temperature range from 26 to 35°C. Leaves that were infiltrated with sterile distilled water served as a negative control. Inoculations with all isolates were performed in three replications, as well as the uninoculated control leaves explants. The inoculated plants produced the same symptoms as observed on naturally diseased samples, whereas control plants remained asymptomatic. Strain cultures were re-isolated and possessed the morphological and biochemical characteristics as previously described. PCR amplification using race 2 R. solanacearum primers ISRso19-F (5'-TGGGAGAGGATGGCGGCTTT-3') and ISRso19-R (5'-TGACCCGCCTTTCGGTGTTT-3') (3) produced a 1,900-bp product from DNA of all bacterial strains. BLAST searches resulted that the sequences were 95 to 98% identical to published R. solanacearum strain race 2 insertion sequence ISRso19 (GenBank Accession No. AF450275). These genes were later deposited in GenBank (KC812051, KC812052, and KC812053). Phylotype-specific multiplex PCR (Pmx-PCR) and Musa-specific multiplex PCR (Mmx-PCR) were performed to identify the phylotype and sequevar of all isolates (4). Pmx-PCR showed that all isolates belonged to phylotype II, whereas Mmx-PCR showed that they belonged to phylotype II sequevar 4 displaying 351-bp amplicon. Although there were previously extensive studies on R. solanacearum associated with bacterial wilt disease of banana crops in Malaysia, none related to Moko disease has been reported (1,2). The result has a great importance to better understand and document R. solanacearum race 2 biovar 1, since banana has been identified as the second most important commercial fruit crop with a high economic value in Malaysia. References: (1) R. Khakvar et al. Plant Pathol. J. 7:162, 2008. (2) R. Khakvar et al. Am. J. Agri. Biol. Sci. 3:490, 2008. (3) Y. A. Lee and C. N. Khor. Plant Pathol. Bull. 12:57, 2003. (4) P. Prior et al. Pages 405-414 in: Bacterial Wilt Disease and the Ralstonia solanacearum Species Complex. The American Phytopathological Society, St. Paul, MN, 2005.
  2. Hata EM, Yusof MT, Zulperi D
    Plant Pathol J, 2021 Apr;37(2):173-181.
    PMID: 33866759 DOI: 10.5423/PPJ.OA.05.2020.0083
    The genus Streptomyces demonstrates enormous promise in promoting plant growth and protecting plants against various pathogens. Single and consortium treatments of two selected Streptomyces strains (Streptomyces shenzhenensis TKSC3 and Streptomyces sp. SS8) were evaluated for their growth-promoting potential on rice, and biocontrol efficiency through induced systemic resistance (ISR) mediation against Xanthomonas oryzae pv. oryzicola (Xoc), the causal agent of rice bacterial leaf streak (BLS) disease. Seed bacterization by Streptomyces strains improved seed germination and vigor, relative to the untreated seed. Under greenhouse conditions, seed bacterization with consortium treatment TKSC3 + SS8 increased seed germination, root length, and dry weight by 20%, 23%, and 33%, respectively. Single and consortium Streptomyces treatments also successfully suppressed Xoc infection. The result was consistent with defense-related enzyme quantification wherein single and consortium Streptomyces treatments increased peroxidase (POX), polyphenol oxidase, phenylalanine ammonia-lyase, and β,1-3 glucanase (GLU) accumulation compared to untreated plant. Within all Streptomyces treatments, consortium treatment TKSC3 + SS8 showed the highest disease suppression efficiency (81.02%) and the lowest area under the disease progress curve value (95.79), making it the best to control BLS disease. Consortium treatment TKSC3 + SS8 induced the highest POX and GLU enzyme activities at 114.32 μmol/min/mg protein and 260.32 abs/min/mg protein, respectively, with both enzymes responsible for plant cell wall reinforcement and resistant interaction. Our results revealed that in addition to promoting plant growth, these Streptomyces strains also mediated ISR in rice plants, thereby, ensuring protection from BLS disease.
  3. Ismail SI, Noor Asha NA, Zulperi D
    Plant Dis, 2020 Nov 02.
    PMID: 33135990 DOI: 10.1094/PDIS-06-20-1380-PDN
    Rockmelon, (Cucumis melo L.) is an economically important crop cultivated in Malaysia. In October 2019, severe leaf spot symptoms with a disease incidence of 40% were observed on the leaves of rockmelon cv. Golden Champion at Faculty of Agriculture, Universiti Putra Malaysia (UPM). Symptoms appeared as brown necrotic spots, 10 to 30 mm in diameter, with spots surrounded by chlorotic halos. Pieces (5 x 5 mm) of diseased tissue were sterilized with 0.5% NaOCl for 1 min, rinsed three times with sterile distilled water, plated onto potato dextrose agar (PDA) and incubated at 25°C for 7 days with a 12-h photoperiod. Nine morphologically similar isolates were obtained by using single spore isolation technique and a representative isolate B was characterized further. Colonies were abundant, whitish aerial mycelium with orange pigmentation. The isolates produced macroconidia with 5 to 6 septa, a tapered with pronounced dorsiventral curvature and measured 25 to 30 μm long x 3 to 5 μm wide. Microconidia produced after 12 days of incubation were single-celled, hyaline, ovoid, nonseptate, and 1.0 to 3.0 × 4.0 to 10.0 µm. Morphological characteristics of the isolates were similar to the taxonomic description of Fusarium equiseti (Leslie and Summerell 2006). Genomic DNA was extracted from fresh mycelium using DNeasy Plant Mini kit (Qiagen, USA). To confirm the identity of the fungus, two sets of primers, ITS4/ITS5 (White et al. 1990) and TEF1-α, EF1-728F/EF1-986R (Carbone and Kohn 1999) were used to amplify complete internal transcribed spacer (ITS) and partial translation elongation factor 1-alpha (TEF1-α) genes, respectively. BLASTn search in the NCBI database using ITS and TEF-1α sequences revealed 99 to 100% similarities with species of both F. incarnatum and F. equiseti. BLAST analysis of these in FUSARIUM-ID database showed 100% and 99% similarity with Fusarium incarnatum-F. equiseti species complex (FIESC) (NRRL34059 [EF-1α] and NRRL43619 [ITS]) respectively (Geiser et al. 2004). The ITS and TEF1-α sequences were deposited in GenBank (MT515832 and MT550682). The isolate was identified as F. equiseti, which belongs to the FIESC based on morphological and molecular characteristics. Pathogenicity was conducted on five healthy leaves of 1-month-old rockmelon cv. Golden Champion grown in 5 plastic pots filled with sterile peat moss. The leaves were surface-sterilized with 70% ethanol and rinsed twice with sterile-distilled water. Then, the leaves were wounded using 34-mm-diameter florist pin frog and inoculated by pipetting 20-μl conidial suspension (1 × 106 conidia/ml) of 7-day-old culture of isolate B onto the wound sites. Control leaves were inoculated with sterile-distilled water only. The inoculated plants were covered with plastic bags for 5 days and maintained in a greenhouse at 25 °C, 90% relative humidity with a photoperiod of 12-h. After 7 days, inoculated leaves developed necrotic lesions similar to the symptoms observed in the field while the control treatment remained asymptomatic. The fungus was reisolated from the infected leaves and was morphologically identical to the original isolate. F. equiseti was previously reported causing fruit rot of watermelon in Georgia (Li and Ji 2015) and China (Li et al. 2018). This pathogen could cause serious damage to established rockmelon as it can spread rapidly in the field. To our knowledge, this is the first report of a member of the Fusarium incarnatum-F.equiseti species complex causing leaf spot on Cucumis melo in Malaysia.
  4. Ismail SI, Rahim NA, Zulperi D
    Plant Dis, 2020 Dec 21.
    PMID: 33349005 DOI: 10.1094/PDIS-06-20-1371-PDN
    Thai basil (Ocimum basilicum L.) is widely cultivated in Malaysia and commonly used for culinary purposes. In March 2019, necrotic lesions were observed on the inflorescences of Thai basil plants with a disease incidence of 60% in Organic Edible Garden Unit, Faculty of Agriculture in the Serdang district (2°59'05.5"N 101°43'59.5"E) of Selangor province, Malaysia. Symptoms appeared as sudden, extensive brown spotting on the inflorescences of Thai basil that coalesced and rapidly expanded to cover the entire inflorescences. Diseased tissues (4×4 mm) were cut from the infected lesions, surface disinfected with 0.5% NaOCl for 1 min, rinsed three times with sterile distilled water, placed onto potato dextrose agar (PDA) plates and incubated at 25°C under 12-h photoperiod for 5 days. A total of 8 single-spore isolates were obtained from all sampled inflorescence tissues. The fungal colonies appeared white, turned grayish black with age and pale yellow on the reverse side. Conidia were one-celled, hyaline, subcylindrical with rounded end and 3 to 4 μm (width) and 13 to 15 μm (length) in size. For fungal identification to species level, genomic DNA of representative isolate (isolate C) was extracted using DNeasy Plant Mini Kit (Qiagen, USA). Internal transcribed spacer (ITS) region, calmodulin (CAL), actin (ACT), and chitin synthase-1 (CHS-1) were amplified using ITS5/ITS4 (White et al. 1990), CL1C/CL2C (Weir et al. 2012), ACT-512F/783R, and CHS-79F/CHS-345R primer sets (Carbone and Kohn 1999), respectively. A BLAST nucleotide search of ITS, CHS-1, CAL and ACT sequences showed 100% similarity to Colletotrichum siamense ex-type cultures strain C1315.2 (GenBank accession nos. ITS: JX010171 and CHS-1: JX009865) and isolate BPDI2 (CAL: FJ917505, ACT: FJ907423). The ITS, CHS-1, CAL and ACT sequences were deposited in GenBank as accession numbers MT571330, MW192791, MW192792 and MW140016. Pathogenicity was confirmed by spraying a spore suspension (1×106 spores/ml) of 7-day-old culture of isolate C onto 10 healthy inflorescences on five healthy Thai basil plants. Ten infloresences from an additional five control plants were only sprayed with sterile distilled water and the inoculated plants were covered with plastic bags for 2 days and maintained in a greenhouse at 28 ± 1°C, 98% relative humidity with a photoperiod of 12-h. Blossom blight symptoms resembling those observed in the field developed after 7 days on all inoculated inflorescences, while inflorescences on control plants remained asymptomatic. The experiment was repeated twice. C. siamense was successfully re-isolated from the infected inflorescences fulfilling Koch's postulates. C. siamense has been reported causing blossom blight of Uraria in India (Srivastava et al. 2017), anthracnose on dragon fruit in India and fruits of Acca sellowiana in Brazil (Abirami et al. 2019; Fantinel et al. 2017). This pathogen can cause a serious threat to cultivation of Thai basil and there is currently no effective disease management strategy to control this disease. To our knowledge, this is the first report of blossom blight caused by C. siamense on Thai basil in Malaysia.
  5. Wong CKF, Saidi NB, Vadamalai G, Teh CY, Zulperi D
    J Appl Microbiol, 2019 Aug;127(2):544-555.
    PMID: 31077517 DOI: 10.1111/jam.14310
    AIMS: This study sought to investigate the effect of bioformulation on the biocontrol efficacy, microbial viability and storage stability of a consortium of Pseudomonas aeruginosa DRB1 and Trichoderma harzianum CBF2 against Foc Tropical Race 4 (Foc-TR4).

    MATERIALS AND RESULTS: Four bioformulations consisting of dry (pesta granules, talc powder and alginate beads) and liquid formulations were evaluated for their ability to control Foc-TR4, sustain microbial populations after application and maintain microbial stability during storage. All tested bioformulations reduced disease severity (DS) by more than 43·00% with pesta granules producing the highest reduction in DS by 66·67% and the lowest area under the disease progress curve value (468·75) in a glasshouse trial. Microbial populations of DRB1 and CBF2 were abundant in the rhizosphere, rhizoplane and within the roots of bananas after pesta granules application as compared to talc powder, alginate beads and liquid formulations 84 days after inoculation (DAI). The stability of both microbial populations after 180 days of storage at 4°C was the greatest in the pesta granule formulation.

    CONCLUSION: The pesta granule formulation was a suitable carrier of biological control agents (BCA) without compromising biocontrol efficacy, microbial population and storage stability as compared to other bioformulations used in this study.

    SIGNIFICANCE AND IMPACT OF THE STUDY: Pesta granules could be utilized to formulate BCA consortia into biofertilizers. This formulation could be further investigated for possible applications under agricultural field settings.

  6. Ismail SI, Ahmad Dahlan K, Abdullah S, Zulperi D
    Plant Dis, 2020 Aug 04.
    PMID: 32748717 DOI: 10.1094/PDIS-06-20-1267-PDN
    Guava (Psidium guajava L.) is an economically important fruit crop in Malaysia with annual production of 67,087 tons in 2018 (FAO 2018). In February 2019, fruit rot symptoms were observed postharvest on approximately 30% of guava cv. Lohan collected from a commercial orchard in the Rawang district (3°23'22.8"N 101°26'55.7"E) of Selangor province, Malaysia. Symptoms on the fruits appeared as small, circular brown spots (ranging 5 to 20 mm in diameter) that coalesced and rapidly expanded to cover the entire fruit. Severely infected fruits became soft and rotted. Ten diseased guava fruits were collected from the sampling location. Small pieces (5x5x5 mm) of symptomatic fruit tissues were excised from the lesion margin, surface-sterilized with 0.5% sodium hypochlorite (NaOCl) for 1 min, rinsed twice with sterile distilled water, plated on potato dextrose agar (PDA) and incubated at 25 °C for 5 days. A Scytalidium-like fungus was consistently isolated from symptomatic tissues on PDA after 4 days. For morphological identification, single-spore cultures were grown on PDA at 25 °C and a representative isolate LB1 was characterized further. The fungal colonies were initially white, powdery, and later turned grayish-black with the onset of sporulation. The mycelia were branched with septa, pigmented, and brown in color. Fungal colonies produced dark-brown arthroconidia with thick-walled, 0 to 1-septa, averaged 9 μm x 5 μm (n=20), and cylindrical to oblong in shape. For molecular identification, genomic DNA was extracted from fresh mycelium of isolate LB1 using DNeasy Plant Mini kit (Qiagen, Germantown, MD, USA). The internal transcribed spacer (ITS) region of rDNA and translation elongation factor 1-alpha (TEF1-α) gene were amplified using ITS5/ITS4 (White et al. 1990) and EF1-728F/EF1-986R primer set (Carbone and Kohn 1999), respectively. Both ITS (954 bp) and TEF1-α (412 bp) sequences exhibited 100% identity to Neoscytalidium dimidiatum with GenBank accession numbers FM211432 and MK495414, respectively. The resulting sequences were deposited in GenBank (ITS: Accession no. MT565490; TEF1-α Accession no. MT572846). Based on the morphological and molecular data, the pathogen was identified as N. dimidiatum (Penz.) Crous & Slippers (Crous et al. 2006). A pathogenicity test was conducted on 5 healthy detached mature guava fruits cv. Lohan by wound-inoculating using a sterile needle and pipetting 10-µl of a conidial suspension (1 × 106 conidia/ml) of isolate LB1 to the wound. Five additional fruits were wounded and pipetted 10-µl sterile distilled water to serve as controls. Inoculated fruits were placed in sterilized plastic container and incubated at 25 ± 1 °C, 90% relative humidity with a photoperiod of 12 h, and the experiment was conducted twice. All inoculated fruits developed symptoms as described above 4 to 7 days post-inoculation, while the control fruits remained asymptomatic. N. dimidiatum was re-isolated from all symptomatic tissues confirming Koch's postulates. N. dimidiatum has been reported causing brown spot disease on pitaya (Lan et al. 2012), and stem canker on dragon fruit in Malaysia and Florida (Mohd et al. 2013; Sanahuja et al. 2016) but this is the first report of N. dimidiatum causing postharvest fruit rot on guava in Malaysia. This disease can cause significant postharvest losses to guava production which could lower marketable yield and proper control strategies should be implemented.
  7. Wong CKF, Zulperi D, Saidi NB, Vadamalai G
    Trop Life Sci Res, 2021 Mar;32(1):23-45.
    PMID: 33936549 DOI: 10.21315/tlsr2021.32.1.2
    Fusarium wilt of banana cannot be effectively controlled by current control strategies. The most virulent form that caused major losses in the banana production is Fusarium oxysporum f. sp. cubense Tropical Race 4 (Foc-TR4). Biocontrol of Foc-TR4 using microbial antagonists offers a sustainable and eco-friendly alternative. A consortium of biocontrol agents (BCAs), Pseudomonas aeruginosa DRB1 and Trichoderma harzianum CBF2 was formulated into pesta granules, talc powder, alginate beads and liquid bioformulations. Previous study indicated bioformulations containing both BCAs successfully reduced the disease severity of Foc-TR4. To date, the biocontrol mechanism and plant growth promoting (PGP) traits of a consortium of BCAs on infected bananas have not been explored. Therefore, the study was undertaken to investigate the effect of a consortium of DRB1 and CBF2 in the growth and biochemical changes of Foc-TR4 infected bananas. Results indicated pesta granules formulation produced bananas with higher biomass (fresh weight: 388.67 g), taller plants (80.95 cm) and larger leaves (length: 39.40 cm, width: 17.70 cm) than other bioformulations. Applying bioformulations generally produced plants with higher chlorophyll (392.59 μg/g FW-699.88 μg/g FW) and carotenoid contents (81.30 μg/g FW-120.01 μg/g FW) compared to pathogen treatment (chlorophyll: 325.96 μg/g FW, carotenoid: 71.98 μg/g FW) which indicated improved vegetative growth. Bioformulation-treated plants showed higher phenolic (49.58-93.85 μg/g FW) and proline contents (54.63 μg/g FW-89.61 μg/g FW) than Foc-TR4 treatment (phenolic: 46.45 μg/g FW, proline: 28.65 μg/g FW). The malondialdehylde (MDA) content was lower in bioformulation treatments (0.49 Nm/g FW-1.19 Nm/g FW) than Foc-TR4 treatment (3.66 Nm/g FW). The biochemical changes revealed that applying bioformulations has induced host defense response by increasing phenolic and proline contents which reduced root damage caused by Foc-TR4 resulting in lower MDA content. In conclusion, applying bioformulations containing microbial consortium is a promising method to improve growth and induce significant biochemical changes in bananas leading to the suppression of Foc-TR4.
  8. Husni AAA, Ismail SI, Jaafar NM, Zulperi D
    Plant Pathol J, 2021 Jun;37(3):243-257.
    PMID: 34111914 DOI: 10.5423/PPJ.OA.02.2021.0017
    Bacillus pumilus is the causal agent of trunk bulges disease affecting rubber and rubberwood quality and yield production. In this study, B. pumilus and other closely related species were included in B. pumilus group, as they shared over 99.5% similarity from 16S rRNA analysis. Multilocus sequence analysis (MLSA) of five housekeeping genes and repetitive elements-based polymerase chain reaction (rep-PCR) using REP, ERIC, and BOX primers conducted to analyze the diversity and systematic relationships of 20 isolates of B. pumilus group from four rubber tree plantations in Peninsular Malaysia (Serdang, Tanah Merah, Baling, and Rawang). Multi rep-PCR results revealed the genetic profiling among the B. pumilus group isolates, while MLSA results showed 98-100% similarity across the 20 isolates of B. pumilus group species. These 20 isolates, formerly established as B. pumilus, were found not to be grouped with B. pumilus. However, being distributed within distinctive groups of the B. pumilus group comprising of two clusters, A and B. Cluster A contained of 17 isolates close to B. altitudinis, whereas Cluster B consisted of three isolates attributed to B. safensis. This is the first MLSA and rep-PCR study on B. pumilus group, which provides an in-depth understanding of the diversity of these rubber-pathogenic isolates in Malaysia.
  9. Zakaria N, Ruzmi R, Moosa S, Asib N, Zulperi D, Ismail SI, et al.
    Physiol Mol Biol Plants, 2021 May;27(5):969-983.
    PMID: 34108823 DOI: 10.1007/s12298-021-00987-3
    Limnocharis flava (L.) Buchenau is a problematic weed in rice fields and water canals of Southeast Asia, and in Malaysia this invasive aquatic weed species has evolved multiple resistance to synthetic auxin herbicide and acetohydroxyacid synthase (AHAS) inhibitors. In this study, it was revealed that, a single nucleotide polymorphism (SNP) at amino acid position 376, where C was substituted to G at the third base of the same codon (GAC to GAG), resulting in Aspartate (Asp) substitution by Glutamate (Glu) was the contributing resistance mechanism in the L. flava population to AHAS inhibitors. In vitro assay further proved that, all the L. flava individuals carrying AHAS resistance mutation exhibited decreased-sensitivity to AHAS inhibitors at the enzyme level. In the bensulfuron-methyl whole-plant bioassay, high resistance indices (RI) of 328- and 437-fold were recorded in the absence and presence of malathion (the P450 inhibitor), respectively. Similarly, translocation and absorption of bensulfuron-methyl in both resistant and susceptible L. flava populations showed no remarkable differences, hence eliminated the possible co-existence of non-target-site resistance mechanism in the resistant L. flava. This study has confirmed another new case of a target-site resistant weed species to AHAS-inhibitors.
  10. Rincon-Florez VA, Ray JD, Carvalhais LC, O'Dwyer CA, Subandiyah S, Zulperi D, et al.
    Plant Dis, 2021 Oct 20.
    PMID: 34668403 DOI: 10.1094/PDIS-07-21-1436-RE
    Blood disease in bananas caused by Ralstonia syzygii subsp. celebesensis (Rsce) is a bacterial wilt disease that causes major yield losses of banana in Indonesia and peninsular Malaysia. The disease has significantly increased its geographic distribution in the last decade. Diagnostic methods are an important component of disease management in vegetatively propagated crops such as banana to constrain incursions of plant pathogens. Therefore, the objectives of this study were: i) to design and rigorously validate a novel banana Blood disease (BBD) real-time PCR assay with a high level of specificity and sensitivity of detection. ii) to validate published PCR based diagnostic methods targeting either the intergenic region in the megaplasmid ("121 assay" with primer set 121) or the phage tail protein coding sequence in the bacterial chromosome ("Kubota assay" and "BDB2400 assay" with primer set BDB2400). Assay validation included 339 samples (174 Blood disease bacterium, 51 bacteria associated with banana plants, 51 members of the Ralstonia solanacearum species complex and 63 samples from symptomatic and healthy plant material). Validation parameters were analytical specificity (inclusivity and exclusivity), selectivity, limit of detection, accuracy, and ruggedness. The "121 assay" and our newly developed "BBD real-time PCR assay" detected all Rsce strains with no cross specificity during validation. Two different PCR assays using the primer set BDB2400 lacked specificity and selectivity. This study reveals that our novel "BBD real-time PCR assay" and the conventional PCR "121 assay" are reliable methods for Blood disease diagnostics as they comply with all tested validation parameters.
  11. Ngalimat MS, Mohd Hata E, Zulperi D, Ismail SI, Ismail MR, Mohd Zainudin NAI, et al.
    Microorganisms, 2021 Mar 26;9(4).
    PMID: 33810209 DOI: 10.3390/microorganisms9040682
    As a major food crop, rice (Oryza sativa) is produced and consumed by nearly 90% of the population in Asia with less than 9% produced outside Asia. Hence, reports on large scale grain losses were alarming and resulted in a heightened awareness on the importance of rice plants' health and increased interest against phytopathogens in rice. To serve this interest, this review will provide a summary on bacterial rice pathogens, which can potentially be controlled by plant growth-promoting bacteria (PGPB). Additionally, this review highlights PGPB-mediated functional traits, including biocontrol of bacterial rice pathogens and enhancement of rice plant's growth. Currently, a plethora of recent studies address the use of PGPB to combat bacterial rice pathogens in an attempt to replace existing methods of chemical fertilizers and pesticides that often lead to environmental pollutions. As a tool to combat bacterial rice pathogens, PGPB presented itself as a promising alternative in improving rice plants' health and simultaneously controlling bacterial rice pathogens in vitro and in the field/greenhouse studies. PGPB, such as Bacillus, Pseudomonas, Enterobacter, Streptomyces, are now very well-known. Applications of PGPB as bioformulations are found to be effective in improving rice productivity and provide an eco-friendly alternative to agroecosystems.
  12. Ibrahim R, Ismail-Suhaimy NW, Shu-Qing T, Ismail SI, Ina-Salwany MY, Yusof MT, et al.
    Data Brief, 2020 Jun;30:105634.
    PMID: 32395592 DOI: 10.1016/j.dib.2020.105634
    A Gram-negative bacterium, Pantoea stewartii subspecies stewartii (P. stewartii subsp. stewartii) has been recognized as the causative agent for jackfruit bronzing disease in Malaysia. Here, we report the whole genome sequencing dataset of P. stewartii subsp. stewartii strain SQT1 isolated from local infected jackfruit. The paired-end libraries with an insert size of 350 bp was subjected to the Illumina Hiseq 4000, generating a genome size of 4,783,993 bp with a G+C content of 53.7%. A total protein of 4,671 was identified including virulence factors, resistance factors and secretion systems. Pantoea stewartii subsp. stewartii strain DC283 (NCBI accession no. CP017581.1) was used as a reference genome, where the query hit 72% coverage and average sequencing depth of 68. In total, 28,717 nucleotide polymorphisms, 520 small insertion/deletions and 142 structure variants were identified. The complete genome was deposited at the European Nucleotide Archive under the sample accession number ERP119356 and study accession number PRJEB36196.
  13. Johari MIH, Zulperi D, Saad N, Ismail SI, Jamian S, Abdullah S, et al.
    Plant Dis, 2023 Nov 08.
    PMID: 37938907 DOI: 10.1094/PDIS-07-23-1278-PDN
    Ceylon ironwood (Mesua ferrea Linn.) or Penaga lilin is one of Asia's most popular tropical herbal plants, including Malaysia (Sharma et al., 2017). The trees are cultivated for their aesthetic value and pharmacological properties, especially as traditional remedies for asthma, dermatopathy, inflammation, and rheumatic conditions (Adib et al., 2019). In August 2022, a disease survey was conducted on Ceylon ironwood trees ranging from 5 to 12 years old in Botanical Park, Putrajaya, Malaysia, with 80% exhibiting shoot dieback disease of the 15 trees exhibiting shoot dieback disease. Symptoms include irregular, water-soaked with brown lesions on young leaves and shoots, where the small lesion coalesced and formed broad necrotic regions, subsequently causing dieback and gradual defoliation. Three infected shoots were collected from each tree, excised into small pieces (10 to 20 mm), immersed with 75% ethanol for 3 min, washed with 2% NaOCl solution for 1 min, and rinsed twice for 1 min in sterilized distilled water. A 10 µl aliquot of the sample suspension was streaked onto nutrient agar (NA) and incubated for 24 h to 48 h at 35 °C. A total of 15 isolates with similar morphology were obtained, and each isolate was re-streaked three times to obtain pure colonies that were round, smooth, with irregular edges, and produced yellow pigment in culture. All isolates were Gram-negative, negative for indole production, and utilized glucose, maltose, trehalose, sucrose, D-lactose, and pectin. Three representative isolates (C001, C002, and C003) with similar morphology were selected for further characterization. The total genomic DNA of all isolates was extracted from overnight cultures using Geneaid™ DNA Isolation Kit (Geneaid Biotech Ltd., Taiwan). PCR amplification of 16S rDNA (Zhou et al., 2015) and species-specific infB (Brady et al., 2008) genes was performed, and each of the ~1500 bp and ~900 bp amplicons were sequenced. BLASTn and phylogenetic analyses revealed all isolates were 100% identical to Pantoea anthophila (P. anthophila) LGM 2558 strains (Accession Nos. NR_116749 and NR_116113) for the 16S rDNA gene. They were 99% identical to P. anthophila CL1 strain (Accession Number CP110473) for infB gene. These sequences were later deposited in the GenBank (Accession Nos. OQ772233, OQ772234, and OQ772235 for 16S rDNA gene, and OQ803527, OQ803528, and OQ803529 for infB gene). For the pathogenicity test, healthy Ceylon ironwood seedlings' shoots were inoculated with 10 mL of each isolate suspension (1 x 108 CFU/ml) by spraying the inoculum on the young shoots using a sterilized spray bottle. Control seedlings were inoculated with sterile water. The inoculated shoots were covered with a sealed plastic bag to maintain the moisture and were kept in the greenhouse with temperatures ranging from 26 to 35 °C. The experiments were repeated twice, with three replicates for each treatment. Inoculated shoots showed dieback symptoms like natural infection, including irregular, water-soaked, and brown lesions on leaves and young shoots at 10 days post-inoculation. Control seedlings remained asymptomatic. The pathogen was re-isolated and identified via sequencing of the 16S rDNA and infB genes, thus fulfilling Koch's postulates. Previously, P. anthophila has been reported to cause soft rot in wampee plants in China (Zhou et al., 2015) and leaf blight of cotton in Pakistan (Tufail et al., 2020). To our knowledge, this is the first report of P. anthophila causing shoot dieback disease of Ceylon ironwood trees in Malaysia. Plant disease management strategies need to be established to reduce losses due to P. anthophila infection since the pathogen could limit Ceylon ironwood tree production in Malaysia.
  14. Ngalimat MS, Mohd Hata E, Zulperi D, Ismail SI, Ismail MR, Mohd Zainudin NAI, et al.
    J Basic Microbiol, 2023 Nov;63(11):1180-1195.
    PMID: 37348082 DOI: 10.1002/jobm.202300182
    Bacterial panicle blight (BPB) disease is a dreadful disease in rice-producing countries. Burkholderia glumae, a Gram-negative, rod-shaped, and flagellated bacterium was identified as the primary culprit for BPB disease. In 2019, the disease was reported in 18 countries, and to date, it has been spotted in 26 countries. Rice yield has been reduced by up to 75% worldwide due to this disease. Interestingly, the biocontrol strategy offers a promising alternative to manage BPB disease. This review summarizes the management status of BPB disease using biological control agents (BCA). Bacteria from the genera Bacillus, Burkholderia, Enterobacter, Pantoea, Pseudomonas, and Streptomyces have been examined as BCA under in vitro, glasshouse, and field conditions. Besides bacteria, bacteriophages have also been reported to reduce BPB pathogens under in vitro and glasshouse conditions. Here, the overview of the mechanisms of bacteria and bacteriophages in controlling BPB pathogens is addressed. The applications of BCA using various delivery methods could effectively manage BPB disease to benefit the agroecosystems and food security.
  15. Abidin N, Ismail SI, Vadamalai G, Yusof MT, Hakiman M, Karam DS, et al.
    PLoS One, 2020;15(6):e0234350.
    PMID: 32530926 DOI: 10.1371/journal.pone.0234350
    Jackfruit-bronzing is caused by bacteria Pantoea stewartii subspecies stewartii (P. stewartii subsp. stewartii), showing symptoms of yellowish-orange to reddish discolouration and rusty specks on pulps and rags of jackfruit. Twenty-eight pure bacterial strains were collected from four different jackfruit outbreak collection areas in Peninsular Malaysia (Jenderam, Maran, Muadzam Shah and Ipoh). Positive P. stewartii subsp. stewartii verification obtained in the study was based on the phenotypic, hypersensitivity, pathogenicity and molecular tests. Multilocus sequence analysis (MLSA) was performed using four housekeeping genes (gyrB, rpoB, atpD and infB) on all 28 bacterial strains. Single gyrB, rpoB, atpD and infB phylogenetic trees analyses revealed the bootstrap value of 99-100% between our bacterial strains with P. stewartii subsp. stewartii reference strains and P. stewartii subsp. indologenes reference strains. On the other hand, phylogenetic tree of the concatenated sequences of the four housekeeping genes revealed that our 28 bacterial strains were more closely related to P. stewartii subsp. stewartii (99% similarities) compared to its close relative P. stewartii subsp. indologenes, although sequence similarity between these two subspecies were up to 100%. All the strains collected from the four collection areas clustered together, pointing to no variation among the bacterial strains. This study improves our understanding and provided new insight on the genetic diversity of P. stewartii subsp. stewartii associated with jackfruit-bronzing in Malaysia.
  16. Amalina NZ, Santha S, Zulperi D, Amal MNA, Yusof MT, Zamri-Saad M, et al.
    BMC Microbiol, 2019 11 11;19(1):251.
    PMID: 31711432 DOI: 10.1186/s12866-019-1624-2
    BACKGROUND: Numerous prevalence studies of Vibrio spp. infection in fish have been extensively reported worldwide, including Malaysia. Unfortunately, information on the prevalence of Vibrio spp. in groupers (Epinephelus spp.) is limited. In this study, groupers obtained from nine farms located at different geographical regions in Malaysia were sampled for the presence of pathogenic Vibrio spp. and their susceptibility profiles against seven antibiotics.

    RESULTS: Out of 270 grouper samples, 195 (72%) were detected with the presence of Vibrio spp. Vibrio communis showed highest prevalence in grouper (28%), followed by V. parahaemolyticus (25%), V. alginolyticus (19%), V. vulnificus (14%), V. rotiferianus (3%), Vibrio sp. (3%), V. campbellii (2%), V. mytili (2%), V. furnissii (2%), V. harveyi (1%), V. tubiashii (1%), V. fluvialis (0.3%) and V. diabolicus (0.3%). Assessment on the antibiotic susceptibility profiles of the Vibrio spp. revealed that majority of the isolates were susceptible to tetracycline, streptomycin, erythromycin and bacitracin, but resistance to ampicillin, penicillin G and vancomycin. The mean MAR index of the Vibrio isolates was 0.51, with 85% of the isolates showed MAR index value of higher than 0.2. Results indicate that the Vibrio spp. were continuously exposed to antibiotics. Furthermore, the plasmid profiles of Vibrio spp. showed that 38.7% of the isolates harbored plasmid with molecular weight of more than 10 kb, while 61.3% were without plasmid. During curing process, Vibrio spp. lost their plasmid, but remained resistant to ampicillin, penicillin G, bacitracin and vancomycin while a few isolates remained resistant to erythromycin, streptomycin and tetracycline. The results suggested that the resistance to antibiotics in isolated Vibrio spp. might be due to chromosomal and plasmid borne.

    CONCLUSIONS: This study demonstrates the prevalence of Vibrio spp. in groupers and the distribution of multidrug resistance strains that could be of concern to the farmers in Malaysia. In addition, data from this study can be further used in fish disease management plan.

  17. Md Zali AZ, Ja'afar Y, Paramisparan K, Ismail SI, Saad N, Mohd Hata E, et al.
    Plant Dis, 2022 Jun 24.
    PMID: 35748735 DOI: 10.1094/PDIS-03-22-0650-PDN
    Rice (Oryza sativa) is a staple food for most of the world's populations, particularly in Asia (Gumma et al. 2011). The rice sector provides Malaysians with a food supply, food sufficiency, and income for growers (Man et al. 2009). From January to February 2022, panicle samples showing symptoms of bacterial panicle blight (BPB) disease, including reddish-brown, linear lesions with indistinct margins on flag-leaf sheaths and blighted, upright, grayish straw-colored florets with sterile and aborted grains on panicles were collected in granary areas in Sekinchan, Selangor, Malaysia with 90% disease incidence in fields. Surface-sterilization of infected leaf tissue was performed using 75% ethanol and 1% sodium hypochlorite, followed by rinsing three times in sterilized water. Leaf tissue was macerated in sterilized water and aliquots were spread on King's B agar medium, then cultured for 24 h to 48 h at 35 °C. All isolated bacteria were Gram-negative rods, positive for catalase and gelatinase but negative for indole, oxidase and hydrogen sulfide (H2S), and utilized sucrose, inositol, mannitol, glucose, and citrate. Colonies were circular and smooth-margined, producing a diffusible yellowish-green pigment on King's B agar medium, which are characteristics of Burkholderia species (Keith et al. 2005). Five representative isolates (UPMBG7, UPMBG8, UPMBG9, UPMBG15, UPMBG17) were selected for molecular and pathogenicity tests. PCR using specific primers targeting the gyrB gene for molecular characterization was performed, and the ∼470 bp amplicons were sequenced (Maeda et al. 2006) and deposited in GenBank (OM824438 to OM824442). A BLASTn analysis revealed that the five isolates were 99% identical to the B. gladioli reference strains MAFF 302533, GRBB15041, and LMG19584 in GenBank (AB190628, KX638432, and AB220898). A phylogenetic tree using Maximum-likelihood analysis of the gyrB gene sequences showed that the five isolates were 99% identical to B. gladioli reference strains (AB190628, KX638432, and AB220898). To verify the identification of these isolates, the 16S rDNA gene was amplified using 16SF/16SR primers (Ramachandran et al. 2021), producing ~1,400 bp amplicons. The resulting sequences of the five isolates (OM869953 to OM869957) were 98% identical to the reference strains of B. gladioli (NR113629 and NR117553). To confirm pathogenicity, 10 ml suspensions of the five isolates at of 108 CFU/ml were inoculated into the panicles and crowns of 75-day-old rice seedlings of local rice varieties MR269 and MR219 grown in a glasshouse with temperatures ranging from 37 °C to 41 °C (Nandakumar et al. 2009). Control rice seedlings were inoculated with sterilized water. All isolates produced BPB disease symptoms like those originally found in the rice fields at four weeks after inoculation. Control seedlings remained asymptomatic. To fulfill Koch's postulates, the bacteria were reisolated from symptomatic panicles and were confirmed as B. gladioli by sequence analysis of the gyrB and 16S rDNA genes. To our knowledge, this is the first report of B. gladioli causing BPB disease of rice in Malaysia. Since BPB disease causes a significant threat to the rice industry, it is crucial to investigate the diversity of this destructive pathogen for effective disease management strategies in Malaysia.
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