Evaluation of rice genotypes for brown planthopper (BPH) resistance using molecular markers and phenotypic methods

Twenty eight (28) rice genotypes were used to evaluate the genetic variability based on known BPH resistant loci spread through most of the genome (chromosomes 2, 3, 4, 5, 6, 8, 10, 11 and 12), using closely linked simple sequence repeat (SSR) markers and by different phenotypic screening methods. A total number of 155 alleles were detected by 30 polymorphic markers with an average of 4.6 per locus. The genetic diversity, polymorphic information content (PIC) ranged from 0.15 to 0.89 and 0.13 to 0.88, respectively and the allele frequency ranged from 0.21 to 0.89. These microsatellite markers linked to BPH resistance loci classified rice genotypes into three clusters with additional sub groups and sub sub groups. Our study reveals high genetic variation and clear genotypic relationship for BPH resistance based on BPH resistance linked markers and known phenotypic screening methods such as standard seedbox screening technique, honey dew test and nymphal survival method. Phenotypic evaluation showed clear distinction between resistant and susceptible type by clearly revealing moderately resistant types as well. Combined use of phenotypic and genotypic evaluation methods can improve the efficiency of marker assisted selection and utilization of resistant genotypes for crop improvement by rice breeders.Keywords: Nilaparvata Lugens, microsatellite markers, polymorphism, genetic diversityAfrican Journal of Biotechnology Vol. 12(19), pp. 2515-252

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Not AvailableDrought has been one of the most important limiting factors for rice productivity, particularly in the rainfed ecosystem. It is important to understand the genetic basis of drought tolerance in donor lines and develop drought tolerant rice cultivars, based on this information. We earlier identified the rice line, Rasi as tolerant to drought and developed a recombinant inbred line (RIL) mapping population consisting of 209 lines. These lines along with their parents were grown under well-watered and drought stress conditions in a two-year experiment (wet season 2020 and 2021) with drought stress imposed during reproductive stage. The study revealed high genetic variability for 12 key agro morphological traits associated with drought tolerance among the RILs. Of the 209 RILs, 59 showed superior performance over the checks and even the tolerant parent, Rasi under severe drought condition. Two RILs, RIL-33 and RIL-58 showed exceptional drought tolerance along with greater plot yield and grain weight under drought condition and they possessed medium slender grain type. These two lines can be a new novel genetic resource for drought tolerance in breeding programmes.Not Availabl

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Not AvailableMTU1010 is a high-yielding mega-variety of rice grown extensively in India. However, it does not perform well in soils with low phosphorus (P) levels. With an objective to improve MTU 1010 for tolerance to low soil P, we have transferred Pup1, a major quantitative trait locus (QTL) associated with tolerance from another mega-variety, Swarna, through marker-assisted back cross breeding (MABB). Foreground selection of the F1 and backcross plants was performed with the codominant, closely linked CAPS marker, K20-2, while two flanking markers RM28011 and RM28157 were utilized for recombinant selection. At each backcross generation, positive plants were also analyzed with a set of 85 parental polymorphic SSR markers to identify theQTL-positive plants possessing maximum introgression of MTU 1010 genome. At BC2F1, the best backcross plant was selfe dtogenerate BC2F2s. Among them, the plants homozygous for Pup1 (n = 22) were reconfirmed using the functional marker for Pup1, viz., K46-1, and they were advanced through pedigree method of selection until BC2F6 generation. A total of five elite BC2F6 lines, possessing Pup1 and phenotypically similar to MTU 1010, were screened in the low soil P plot and normal plot (with optimum soil P levels) during wet season, 2016. All the selected lines showed better performance under low P soil with more number of productive tillers,better root system architecture,and significantly higher yield (>390%) as compared to MTU 1010. Further, under normal soil, the lines were observed to be similar to or better than MTU 1010 for most of the agro-morphological traits and yield. This study represents the successful application of marker assisted selection for improvement of tolerance to low soil P in a high-yielding Indian rice variety.The authors received financial support provided by the Department of Biotechnology (DBT), Government of India, for execution of the research study through the Grant # BT/PR4665/AGII/106/854/2012 dated: 19/02/2013