G. S. Mangat

Development of high yielding IR64 × Oryza rufipogon (Griff.) introgression lines and identification of introgressed alien chromosome segments using SSR markers

Modern rice varieties that ushered in the green revolution brought about dramatic increase in rice production worldwide but at the cost of genetic diversity at the farmers’ fields. The wild species germplasm can be used for broadening the genetic base and improving productivity. Mining of alleles at productivity QTL from related wild species under simultaneous backcrossing and evaluation, accompanied by molecular marker analysis has emerged as an effective plant breeding strategy for utilization of wild species germplasm. In the present study, a limited backcross strategy was used to introgress QTL associated with yield and yield components from Oryza rufipogon (acc. IRGC 105491) to cultivated rice, O. sativa cv IR64. A set of 12 BC2F6 progenies, selected from among more than 100 BC2F5 progenies were evaluated for yield and yield components. For plant height, days to 50% flowering and tillers/plant, the introgression lines did not show any significant change compared to the recurrent parent IR64. For yield, 9 of the 12 introgression lines showed significantly higher yield (19–38%) than the recurrent parent IR64. Four of these lines originating from a common lineage showed higher yield due to increase in grain weight and another three also from a common lineage showed yield increase due to increase in grain number per panicle. For analyzing the introgression at molecular level all the 12 lines were analyzed for 259 polymorphic SSR markers. Of the total 259 SSR markers analyzed, only 18 (7.0%) showed introgression from O. rufipogon for chromosomes 1, 2, 3, 5, 6 and 11. Graphical genotypes have been prepared for each line and association between the introgression regions and the traits that increased yield is reported. Based on marker trait association it appears that some of the QTL are stable across the environments and genetic backgrounds and can be exploited universally.

DNA fingerprinting and virulence analysis of Xanthomonas oryzae pv. oryzae isolates from Punjab, northern India

AbstractDNAs of 693 isolates of bacterial blight pathogen of rice, Xanthomonas oryzae pv. oryzae (Xoo), were characterized using PCR-based primers pJEL1 and pJEL2. The pathogen populations were grouped into 97 haplotypes based on DNA-banding patterns. An un-weighted pair-group method using arithmetic averages (UPGMA) indicated a high level of diversity in the pathogen isolates (51 lineages of Xoo at a 70% similarity level). Among these, lineages 5, 7, 27, and 29 are widely distributed and others are localized in the northern region of India. The isolates represent lineage-27, were prevalent in the entire disease-prone area in the region except at Ferozepur. Pathotyping data of the representative isolates of each lineage also indicate 17 different reaction patterns on a set of isogenic lines. Resistance genes xa8 and Xa21 were the most effective followed by xa5, and Xa7 against Xoo isolates prevalent in northern India. Different genes in combinations (xa5+xa13, xa5+Xa21, xa13+Xa21, and xa5+xa13+Xa21) in IR24 genetic background provided better protection against all the pathogen isolates tested in this study than did the component genes.

Red pericarp introgression lines derived from interspecific crosses of rice: physicochemical characteristics, antioxidative properties and phenolic content

BACKGROUND Antioxidative properties and physicochemical characteristics of introgression lines (ILs) and their recurrent parents were analyzed. In addition, catalase (CAT) and superoxide dismutase (SOD) activities and free radical-scavenging capacity were evaluated, since these are important antioxidative properties for developing nutraceutical and functional foods. RESULTS Comparative analysis of the brown and milled rice fractions of ILs with their respective recurrent parents revealed 2.26- and 1.22-fold increase in total phenolics, 1.95- and 2.09-fold increase in flavonoids, 8.38- and 6.80-fold increase in proanthocyanidins and 1.55- and 1.20-fold increase in tannins in brown and milled rice fractions respectively. Higher CAT (1.36- and 1.89-fold) and SOD (1.71- and 2.02-fold) activities and Trolox equivalent antioxidant capacity (TEAC, 7.13- and 1.98-fold) were observed in brown and milled rice fractions respectively of ILs compared with their respective recurrent parents. A high and positive correlation was obtained between TEAC and total phenols (0.73, P ≤ 0.01), flavonoids (0.66, P ≤ 0.05) and proanthocyanidins (0.69, P ≤ 0.05). The yield parameters and physicochemical characteristics of the grains, in general, were comparable in the ILs and their respective recurrent parents. CONCLUSION The ILs of rice reported in the present study exhibited significant positive differences in the content of phenolic constituents and antioxidant properties with good grain quality characteristics over their recurrent parents, indicating their potential as a natural source of phytochemicals for nutraceutical and functional food development.

Evaluation of rice germplasm for multiple disease resistance under artificial inoculation conditions

One thousand and eighteen rice germplasm lines were evaluated against the prevalent pathotypes viz., PbXo-7 and PbXo-10 of Xanthomonas oryzae pv. oryzae causing bacterial blight, brown spot and sheath blight diseases under artificial inoculation conditions. Virulence/avirulence of the two pathotypes to Xa/xa genes indicated that all the pathotypes were virulent on the most of bacterial blight resistant single Xa/xa gene (s). Pathotype PbXo-7 was virulent to known Xa genes namely Xa 1, Xa 3, Xa 4, xa 5, Xa 7, xa 8, Xa 10 and Xa 11 and cultivars PR 114, PR 116 and PR 118 growing in Northern regions of India. PbXo-10 was virulent on all these genes including newly identified gene Xa38. None of the single gene is effective against the pathotypes prevalent in Punjab. Two years data revealed that 46 lines (5.4%) showed resistant reaction to pathotype PbXo-7 and 30 lines (2.9%) showed resistance to newly emerged pathotype PbXo-10. Twenty two lines showed resistant reaction to both the pathotypes. Most of the entries which were resistant to PbXo-10 also showed resistant to the PbXo-7. Germplasm line IC No.346207 showed resistant reaction and IC Nos. 114315 and 320826 showed moderately resistant reaction to brown spot. None of the germplasm line showed resistance to sheath blight. These resistant entries can either be released as new varieties or further utilized as donors in multiple disease resistance breeding programmes.

Induction of useful variability for pericarp colour and bacterial blight resistance in rice (Oryza sativa L.) cv. PAU 201 through EMS based mutagenesis

PAU 201, a high yielding variety of rice released by Punjab Agricultural University in 2007, was withdrawn from cultivation in the year 2010 mainly due to its red coloured pericarp. It also became susceptible to a new pathotype (PbXo-8) of bacterial blight (BB) pathogen. To improve these specific defects, PAU 201 was mutagenized with ethyl methane sulphonate in different concentrations of 0.6, 0.8 and 1.0% in water (v/v). A total of 841 M1 single panicles were harvested and advanced to M4 generation following selfing and selection for white pericarp colour in each generation. A set of promising 68 M4 progenies was also screened for BB resistance and one putative mutant possessing white pericarp colour as well as BB resistance (designated as RYT 3207) was identified. On further evaluation, RYT 3207 was found to be resistant to all the ten pathotypes of BB pathogen prevalent in the Punjab state and it yielded at par with the PAU 201 in multi-location trials during 2011 to 2013. Molecular marker analysis showed presence of xa13 locus in RYT 3207. The acquired resistance to all the ten pathotypes in RYT 3207, compared to nine pathotypes in PAU 201, could be due to modified function of xa13 gene. The new genotype RYT 3207 is a mutagenized version of the high yielding rice cultivar PAU 201 possessing white pericarp and enhanced resistance to bacterial blight.