The antagonistic and enzymatic activities of non-pathogenic hymenomycetes naturally occurring on oil palm (Elaeis guineensis) trunks were assessed to determine their potential as biocontrol agents against G. boninense. Twenty-five Basidiomycota were isolated on a Ganodermaselective medium and identified using internal transcribed spacer (ITS) sequencing. The three fungi with potentially higher antagonistic activity against G. boninense, based on the percentage inhibition of radial mycelial growth (PIRG) in dual culture, were Pycnoporus sanguineus (84%), Trametes lactinea (82%) and Grammothele fuligo (81%). In addition to these three isolates, Lentinus tigrinus and a Rigidoporus sp. were also able to invade sterilized oil palm blocks previously colonized by G. boninense despite having lower PIRG values. Colonization of oil palm blocks by G. fuligo, P. sanguineus, Rigidoporus sp., T. lactinea and L. tigrinus resulted in mass losses of 32. 50, 30.78, 27.64, 25.20 and 19.33%, respectively, probably due to an ability to produce one or more lignocellulolytic enzyme. Further work is needed to determine the enzymatic degradation potential of these fungi under natural conditions and their possible use in the prevention of colonization of oil palm by G. boninense.
Bud rot disease or "Pudricion del cogollo" (PC) of oil palm is a major constraint on production in Colombia and neighbouring countries such as Brazil, Costa Rica, Ecuador, Nicaragua, Panama, Peru and Surinam. To date, there are no documented reports of Phytophthora disease of oil palm in South-East Asia. This research, therefore, was conducted to determine the pathogenic potential of Phytophthora palmivora and Phytophthora nicotianae on oil palm using both in vitro and nursery inoculation experiments. In vitro inoculation of both P. palmivora and P. nicotianae on immature oil palm leaflets caused discoloration within 2 days of inoculation and incubation at 25 ± 1.5°C, 100% RH. Similarly, in nursery trials, lesions formed on the buds (unopened leaflets) 3 days after inoculation with P. palmivora or P. nicotianae zoospore suspensions. No lesions developed on untreated leaflets in either in vitro or nursery inoculation experiments. Phytophthora spp. were re-isolated from leaflet lesions and confirmed as the inoculated pathogens.
ABSTRACT. Rice (Oryza sativa L.) blast disease is one of the most destructive rice diseases in the world. The fungal pathogen, Magnaporthe oryzae, is the causal agent of rice blast disease. Development of 2 N. Hasan et al. Genetics and Molecular Research 16 (1): gmr16019280 resistant cultivars is the most preferred method to achieve sustainable rice production. However, the effectiveness of resistant cultivars is hindered by the genetic plasticity of the pathogen genome. Therefore, information on genetic resistance and virulence stability are vital to increase our understanding of the molecular basis of blast disease resistance. The present study set out to elucidate the resistance pattern and identify potential simple sequence repeat markers linked with rice blast disease. A backcross population (BC 2 F 1 ), derived from crossing MR264 and Pongsu Seribu 2 (PS2), was developed using marker-assisted backcross breeding. Twelve microsatellite markers carrying the blast resistance gene clearly demonstrated a polymorphic pattern between both parental lines. Among these, two markers, RM206 and RM5961, located on chromosome 11 exhibited the expected 1:1 testcross ratio in the BC 2 F 1 population. The 195 BC 2 F 1 plants inoculated against M. oryzae pathotype P7.2 showed a significantly different distribution in the backcrossed generation and followed Mendelian segregation based on a single-gene model. This indicates that blast resistance in PS2 is governed by a single dominant gene, which is linked to RM206 and RM5961 on chromosome 11. The findings presented in this study could be useful for future blast resistance studies in rice breeding programs.
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