Orthosiphon stamineus (Java tea) is a perennial herbaceous plant in the family Lamiaceae and is cultivated extensively in Southeast Asia for its medicinal value (Arifullah et al. 2014). During October 2018, leaf blight symptoms were observed on leaves of ~210 plants O. stamineus grown in experimental plots of a research farm at Faculty of Engineering, Serdang, Selangor, Malaysia (3°00'30.4"N 101°43'19.9"E) with 80% disease incidence. Initial symptoms were brown-to-black lesions on the leaves that enlarged and coalesced until the leaf withered and abscissed. Diseased tissues (4 × 4 mm) of six infected leaves were excised, surface disinfected with 0.5% NaOCl for 1 min, rinsed twice with sterile distilled water, placed onto potato dextrose agar (PDA) plates, and incubated at 25°C with a 12-h photoperiod under fluorescent light for 7 days. A total of six single-spore isolates were obtained from sampled leaves. All isolates exhibited similar morphology and two representative isolates, MK and MK1, were characterized further. Colonies on PDA were initially white then turned dark gray with age and had a pale green underside. Hyphae were branched, septate and hyaline to pale brown. The conidia were one-celled, black, smooth-walled, spherical to subspherical in shape measuring 11.0 μm × 16.5 μm in diameter (n=30) and which are borne on hyaline vesicles at the tip of each conidiophore or formed directly from the mycelia. Based on morphological characteristics, the fungal isolates were identified as Nigrospora osmanthi (Wang et al. 2017). Total genomic DNA of the isolates was extracted from fresh mycelium using DNeasy Plant Mini kit (Qiagen, USA) and the internal transcribed spacer (ITS), translation elongation factor 1-alpha (TEF1) and Beta-tubulin (TUB2) gene regions were amplified using ITS5/ITS4 (White et al. 1990), EF1-728F/EF1-986R (Carbone and Kohn 1999) and Bt-2a/Bt-2b primer set (Glass and Donaldson 1995), respectively. BLASTn analysis showed that the ITS, TEF1 and TUB sequences of the isolates shared 99%-100% identity with Nigrospora osmanthi ex-type strain CGMCC 3.18126 (GenBank accession nos. KX986010, KY019421, KY019461). The sequences of two representative isolates (MK and MK1) were deposited in GenBank (ITS: accession nos. MT645782, MW363019; TEF1: MW366861, MW366862; TUB: MW366863, MW366864). Phylogenetic analysis by the maximum likelihood method based on the concatenated ITS-TEF1-TUB sequences showed that the isolates in this study were clustered in a strongly supported group 98% maximum likelihood with type strain N. osmanthi (Kumar et al. 2016). The pathogenicity of all isolates was confirmed by inoculation on ten healthy leaves of five potted 4-week-old O. stamineus plants using a conidial suspension (1 x 106 spores/ml) produced on 7-days-old PDA cultures. An equal number of plants were sprayed with sterile distilled water only to serve as a control and the treated plants were kept in a growth chamber for 2 weeks at 28 ± 1°C and 95% relative humidity. The experiment was repeated twice. The inoculated leaves developed brown lesions which enlarged into blight symptoms similar to those observed on naturally infected leaves after 5 days of inoculation, while control plants remained healthy. Nigrospora osmanthi was successfully re-isolated from the infected leaves, but not from leaves of non-inoculated control plants, thus satisfying Koch's postulates. . N. osmanthi has been recently reported to cause leaf blight on Ficus pandurata (Liu et al. 2019) and Stenotaphrum secundatum in China (Mei et al. 2019). This disease can cause a significant threat to the cultivation of O. stamineus which has been extensively grown for the production of herbal Java tea. Accurate identification of this pathogen could assist in developing an effective disease management strategy to control this disease.
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