TY - BOOK AU - T Anusha AU - P Sindhumole (Guide) TI - Incorporation of blast resistance into Jyothi and Kanchana rice (Oryza sativa L.) varieties through marker assisted breeding U1 - 630.28 PY - 2022/// CY - Vellanikkara PB - Department of Plant Breeding and Genetics, College of Agriculture KW - Plant Breeding and Genetics N1 - MSc N2 - Rice blast caused by Magnoporthe oryzae is one of the most devastating diseases that is reported repeatedly from the rice growing areas of Kerala. The most effective strategy to combat this is development of resistant varieties. Jyothi (Ptb39), one of the most popular high yielding rice variety of Kerala, with very good cooking and nutritional qualities, is highly susceptible to blast disease. Similarly, Kanchana (Ptb50), another high yielding variety suitable for both upland and wetland cultivation, is also highly susceptible to blast. The present study entitled ‘Incorporation of blast resistance into Jyothi and Kanchana rice (Oryza sativa L.) varieties through Marker Assisted breeding’ was attempted to transfer blast resistant genes from ‘Parambuvattan’, the traditional rice variety of Kerala, carrying two genes for resistance Pi-1 and Pikh genes for resistance using tightly linked microsatellite markers. Studies were conducted during January 2020 to February 2022. The parents were evaluated for the agro-morphological characters from 20 plants for each variety. Observations recorded were plant height, number of tillers per plant, panicles per plant, panicle length, days to flowering, filled grains per panicle, sterile grains per panicle, 100 seed weight and grain weight per plant. The polymorphic SSR markers, RM224 for Pi-1 and RM206 for Pikh, were able to differentiate between the parents with the expected amplicon sizes of 148 and 146 bp in donor parent and the product size in susceptible parents was 170 and 160 bp, respectively. For recovering the recurrent parent genome in the segregating generations, background markers were identified by screening the parents with 42 primer (distributed all over the chromosomes). Results indicated that eleven primers were polymorphic and produced distinct reproducible amplicon patterns for Parambuvattan and Jyothi while fifteen were polymorphic for Parambuvattan and Kanchana. F1 seeds were developed by crossing Parambuvattan with Jyothi and Kanchana to transfer the blast resistance genes. A total of 52 F1 seeds were developed from the cross Jyothi x Parambuvattan and 48 from Kanchana x Parambuvattan. Among eighteen F1 seedlings of Jyothi x Parambuvattan only, four plants (Plant No. 3, 9, 13 and 18) exhibited the presence of both Pi-1 and Pikh genes in heterozygous condition whereas, among the fifteen F1 seedlings of Kanchana x Parambuvattan only, three plants (Plant No. 1, 4 and 13) exhibited the presence of both Pi-1 and Pikh genes in heterozygous condition. Seeds of the parents and F1s of both the crosses were germinated and artificially inoculated. The inoculated seedlings were observed 6 and 10 DAI. Disease scoring was done using 0-9 scores as described in IRRI-SES scale. Per cent Disease Severity (PDS) was calculated for parents by taking total number of seedlings and for F1 seedlings total number of leaves were taken into consideration. The donor Parambuvattan had a PDS of 26.6 whereas Jyothi and Kanchana were highly susceptible with PDS of 68.8 and 78.8, respectively. PDS score of F1 seedlings of the cross Jyothi x Parambuvattan was 34.3 while Kanchana x Parambuvattan had 32.4. PDS score of F1 seedlings was similar to the donor Parambuvattan, indicating their partial resistance. Four F1 seedlings of Jyothi x Parambuvattan (Plant No. 3, 9, 13 and 18) had the PDS 24.8, 31.1, 28.8 and 29.7, respectively. Three F1 seedlings of Kanchana x Parambuvattan (Plant No. 1, 4 and 13) had the PDS of 26.6, 31.3 and 28.9. The results indicated that the selected plants were showing presence of both Pi-1 and Pikh genes and partial resistance when inoculated. Hence, these selected plants can be forwarded for further generations to develop high yielding blast resistant rice lines ER -