Resistance Characterization of Cultivated Varieties and Rice Wild Species in Response to Bacterial Blight

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Research Paper 01/12/2015
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Resistance Characterization of Cultivated Varieties and Rice Wild Species in Response to Bacterial Blight

Abdul Waheed, Habib Ahmad, Fida. M. Abbasi, Azhar H. Shah, Hamid Ali, F. S. Hamid, Saqib Mumtaz
Int. J. Biosci.7( 6), 103-110, December 2015.
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Abstract

Bacterial leaf blight (BB) of rice caused by (Xanthomonas oryzae pv oryzae) is converting into a critical threat almost in all rice growing countries of the world. In order to catagorize resistant sources to virulent isolates of BB, an experiment comprising 02 species of wild rice (Oryza sp.) and four most common cultivated varieties i.e., Bas-385 , Swat-1 , JP-5 and Fakhar Malakand of rice in Pakistan was conducted in the green house of Genetic Department Garden campus ,Hazara University in the rice growing season during 2012. Bacterial suspension of concentration 108 CFU/ml was prepared from mixture of (Xanthomonas oryzae pv oryzae) prevailing in Khyber Puktunkhawa,Pakistan i.e., X00-1, X00-2 and X00-3. Clip method of artifical inoculation was used. Both tested wild relatives of rice O. longistaminata and O. rufipogon showed highly resistance to all the isolate. F3 genotypes Bas-385 x O. rufipogon was found highly susceptible to most of the isolates among all others genotypes. The use of resistant wild species O. rufipogon is therefore recommended in rice breeding program for transfer of bacterial blight resistant genes to cultivated varieties to enhance the relative characters.

VIEWS 9

Adhikari TB, Vera CCM, Zhang Q, Nelson RJ, Skinner DZ, Mew TW, Leach JE. 1995. Genetic diversity of Xanthomonas oryzae pv. oryzae in Asia. Appl. Environ. Microbiol 61, 966-971.

Akhtar MA. 2005. Studies on genetic variation in Xanthomonas Oryzae pv. Oryzae in relation to resistance in rice. In: 3rd annual progress report ALP-Project. Inst. Plg. and Env. Protect. National Agricultural Research Center, Islamabad, 31.

Akhtar MA, Zakria M, Abbassi FM, Masod MA. 2003. Incidence of bacterial blight of rice in Pakistan during 2002. Pakistan Journal Botany, 35(5), 993-997.

Akhtar MA, Akram M.1987. Incidence of bacterial blight of rice in the Punjab, Pakistan, IRRN, 5, 5.

Brar DS, Khush GS. 1997. Alien introgression in rice. Plant Mol. BioI. (35), 35-47.

Chakravarthi BK, Naravaneni R. 2006. SSR marker based DNA finger-printing and diversity study in rice (Oryza sativa L.). African Journal of Biotechnology. 5(9), 684-688.

Chaudry RC. 1996. Standard evaluation system for rice. Genetic Res. Cent. Intl. Rice Res. Institute. Manila, Philippines, 52.

Eizenga GC, Agrama HA, Lee FN, Jia Y. 2009. Exploring genetic diversity and potential novel disease resistance genes in a collection of rice (Oryza spp) wild relatives. Gen. Resource. Genetic Resources and Crop Evolution. 56, 65-76.

Ezuka A, Kaku H, 2000. A historical review of bacterial blight of rice. National Inst. Agrobio. Res. Bull. Japan, 207.

IRRI (International Rice Research Institute). 1993. Rice Almanac. IRRI-WARDA-CIAT, Los Banos, Laguna, Philippines.

Khan TZ, Gill MA, Khan MG. 2000. Screening of rice varieties/lines for resistance to bacterial leaf blight, Pakistan Journal of Phytopathology. 12(1),71-72.

Leach JE, Rhoads ML, VeraCruz CM, White FF, Mew TW, Leung H. 1992. Assessment of genetic diversity and population structure of Xanthomonas oryzae pv. oryzae with a repetitive DNA. Applied Environmental Microbiology. 58, 2188–2195.

Mew TW. 1987. Current status of future prospects of research on bacterial blight of rice. Annual Review of Phytopathology, 25: 359-382.

Mew TW, Majid A. 1977. Bacterial blight of rice in Pakistan. IRRN, 2, 5-7.

Mew TW, Alvarez AM, Leach JE, Swings J. 1993. Focus on bacterial blight of rice. Pl. Disease, 77, 5-12.

Nelson RJ, Baraoidan MR, VeraCruz CM, Yap IV, Leach JE, Mew TW, Leung H. 1994. Relationship between phylogeny and pathotype for the bacterial blight pathogen of rice. Applied Environmental Microbiology. 60, 3275-3283.

Ou SH. 1985. Rice diseases. 2nd ed. Commonwealth Mycological Institute, Kew, Surrey, England, 61-96.

Sodhi M, Vikal Y, George MLC, Bala GS, Mangat GS, Garg M, Sidhu JS, Dhaliwal HS. 2003. DNA fingerprinting and virulence analysis of Xanthomonas oryzae pv. Oryzae isolates from Punjab, northern India. Euphytica. 130 (1) 107-115.

Swings J, Mooter MV, Vauterin L, Hoste B, Gills M, Mew TW, Kersters K. 1990.Reclassification of the causal agents of bacterial blight (Xanthomonas campestris pv. oryzae)and bacterial leaf streak (Xanthomonas campestris pv. oeyzicol) of rice as pathovars of Xanthomonas oryzae (ex. Ishiyama, 1922) sp. Now. Nom. Rev. International journal of systematic bacteriology. 40, 309-311.

Tabie H, Mukoo H. 1960. Anatomical studies of rice plant leaves affected with bacterial leaf blight, in particular reference to the structure of water exudation system. Scholarly articles for Bull National Institute Agricultural Science. 11, 37-43.

VeraCruz CM, Ardales DZ, Skinner JT, Nelson RJ, Louws FJ, Mew TW, Leach JE. 1996. Measurement of Haplotypic variation in Xanthomonas oryzae pv oryzae within a single field by rep PCR and RFLP analysis. Phytopathology. 86, 1352-1359.

Waheed M, Inamullah A, Habib A, Sirajuddin K. 2009. Xanthomonas Oryzae pv. Oryzae. Pakistan. Journal of Bototany. 38(1) 193-203.