A systematic review on physical mutagens in rice breeding in Southeast Asia.

In the 1920s, Lewis Stadler initiated the introduction of permanent improvements to the genetic makeup of irradiated plants. Since then, studies related to breeding mutations have grown, as efforts have been made to expand and improve crop productivity and quality. Stadler's discovery began with x-rays on corn and barley and later extended to the use of gamma-rays, thermal, and fast neutrons in crops. Radiation has since been shown to be an effective and unique method for increasing the genetic variability of species, including rice. Numerous systematic reviews have been conducted on the impact of physical mutagens on the production and grain quality of rice in Southeast Asia. However, the existing literature still lacks information on the type of radiation used, the rice planting materials used, the dosage of physical mutagens, and the differences in mutated characteristics. Therefore, this article aims to review existing literature on the use of physical mutagens in rice crops in Southeast Asian countries. Guided by the PRISMA Statement review method, 28 primary studies were identified through a systematic review of the Scopus, Science Direct, Emerald Insight, Multidisciplinary Digital Publishing, and MDPI journal databases published between 2016 and 2020. The results show that 96% of the articles used seeds as planting materials, and 80% of the articles focused on gamma-rays as a source of physical mutagens. The optimal dosage of gamma-rays applied was around 100 to 250 Gy to improve plant development, abiotic stress, biochemical properties, and nutritional and industrial quality of rice.

First Report of Athelia rolfsii Causing Damping-Off and Leaf Blight on Basella alba in Malaysia.

Basella alba is an evergreen perennial vine that grows as an edible leafy vegetable in Malaysia (Nordin et al. 2007). During January 2021, a cottony white hypha associated with aggregates of white to brown sclerotia and symptoms of damping-off were visualized on the stem base of B. alba at the soil surface in an isolated field (~0.03 ha) located in the district of Penampang, Sabah province, Malaysia (5°56'51.0"N 116°04'31.8"E). Yellowing and wilting of leaves, and defoliation were observed after four days of the development of damping-off. Survey was conducted on 100 plants which 30 were found infected. The disease severity (90%) on stems was estimated using IMAGEJ. Symptomatic stem tissues were surface sterilized with 75% of ethanol for 1 min, washed with 2% of sodium hypochlorite solution for 1 min, rinsed thrice with sterile distilled water, air dried and plated on potato dextrose agar (PDA). Plates were incubated for 7 days at 25°C in the dark. After 7 days, fungi were isolated; colony color was white and had a cottony appearance. On day 14, white to brown sclerotia 1.0 to 2.2 mm in diameter were produced. Hyaline septate hyphae with clamp connections and multiple nuclei were seen. Conidia and conidiophores were absent from the colony on PDA. Genomic DNA of fungi was extracted based on Khoo et al. (2022a and 2022b). PCR amplification (Khoo et al. 2022b) was performed using primer set ITS1/ITS4, EF983/EF2218 and LR0R/LR05 to amplify the internal transcribed spacer (ITS) region of rDNA, partial translation elongation factor 1 alpha (TEF-1α) gene and partial large subunit ribosomal RNA (LSU rRNA) gene, respectively (Vilgalys and Hester 1990; White et al. 1990; Carbone and Kohn, 1999; Rehner 2001). Phylogenetic analysis indicated that the isolates formed a supported clade to the related Athelia rolfsii sequences. The sequencing result (GenBank Accession Nos. OK465460, OP809607, OP857217) had a 99% identity over 625 bp, 941 bp, and 1,101 bp with the corresponding gene sequence of A. rolfsii (GenBank Accession Nos. MN622806, AY635773, MW322687) after analysis in BLASTn program. Pathogenicity test was performed based on Le (2011). Three 8-week-old B. alba plants cultivated on sterilized soil were inoculated with 5-mm mycelia plugs from 7-day-old culture. A plug was put on the upper soil surface layer 2 cm away from the base of the stem of B. alba plant before fully covered with a layer of sterilized soil. Plants that were inoculated with sterile PDA plugs served as the control treatment. Plastic bags were used to cover the plants after inoculation for 24 h before keeping them in a glasshouse under ambient conditions. Water-soaked and brown lesions were visualized on the stem base of all inoculated plants after four days of inoculation. Symptom of damping-off and leaf blight was observed after another 3 days. No symptoms developed on the mock controls. The pathogenicity test was repeated twice. Re-isolation was performed from the symptomatic tissues of inoculated plants and mock controls. The isolates reisolated from the symptomatic tissues were verified as A. rolfsii based on morphology and molecular characterization, thus fulfilling Koch's postulates. No pathogens were isolated from the mock controls. To our knowledge, this is the first report of A. rolfsii causing damping-off and leaf blight on B. alba in Malaysia, as well as worldwide. Our findings documented the wider geographical and host range of A. rolfsii and indicate its potential threat to B. alba production in Malaysia.