Rice Blast Management Through Host-Plant Resistance: Retrospect and Prospects

Sharma, Tilak Raj; K., A.; Gupta, Santosh Kumar; Vijayan, Joshitha; Kumar, Awadhesh; Ray, Soham

doi:10.1007/s40003-011-0003-5

Cited by 258 publications

(190 citation statements)

References 113 publications

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“…Searching and stacking R genes with different resistance specificities has been a priority for rice breeders and pathologists worldwide (Hao et al, 2009). To date, over hundreds of major and minor rice blast R genes have been identified, 19 of which (including Pi-d2) have been cloned (Ballini et al, 2008;Sharma et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

Natural variation of rice blast resistance gene Pi-d2

Li¹,

Sun²,

Liu³

et al. 2015

Genet. Mol. Res.

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ABSTRACT. Studying natural variation in rice resistance genes of cultivated and wild rice relatives can predict resistance stability to rice blast fungus. In the present study, the protein coding regions of the rice R nucleotide differences were found in the open reading frames (ORFs) of Pi-d2. Translation of these ORFs revealed 9 variants; 3 were novel Pi-d2 variants. Variants H2 and H5 were identified in accessions of cultivated rice and O. nivara, H1, H3, H4, H6, and H8 were only identified in cultivated rice. H2 and H5 were the common types of IND and O. nivara, H8 was the common type of TRJ and AUS, H6 was the specific type of AUS, and H3 was the specific type of ARO. H7 and H9 were specific haplotypes of O. nivara and O. rufipogon, respectively. These findings demonstrate that Pi-d2 variants are useful indicators for each subgroup, and Pi-d2 is an ancient gene that predates speciation of rice subgroups.

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Section: Introductionmentioning

confidence: 99%

Natural variation of rice blast resistance gene Pi-d2

Li¹,

Sun²,

Liu³

et al. 2015

Genet. Mol. Res.

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“…In this research, to identify polymorphism in Sri Lankan rice germplasm, simple sequence repeats markers (RM206, RM246) and gene marker (YL87/YL155) were incorporated based on a genealogy study that was conducted on the highly blast resistant variety Tetep by us prior to this study. It identified several IR varieties such as IR64, IR24, IR8, IR36 and mainly a Vietnamese variety Tetep (Sharma et al, 2012) contributed blast resistant genes to Sri Lankan germplasm. The markers RM206, RM246 and YL87/YL155 are linked to the blast resistant genes, Pita, Pit (p) and Pikh respectively in variety Tetep (McCouch et al, 1997).…”

Section: Introductionmentioning

confidence: 99%

Evaluation of DNA markers linked to blast resistant genes, Pikh, Pit (p), and Pita, for parental selection in Sri Lankan rice breeding

Jayawardana¹,

Jayasekera²,

Wijesundera³

et al. 2015

Trop. Agric. Res.

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“…The identification and isolation of additional host R-genes and pathogen avirulence genes is important to understand the molecular mechanisms involved in the hostÁpathogen interaction. So far, about 100 major rice blast resistance genes have been identified, and few of them have been characterized (Sharma et al 2012). All the cloned R-genes have been classified into five groups based on their predicted protein structure (Hammond-Kosack & Jones 1997).…”

Section: Introductionmentioning

confidence: 99%

“…From the present study, it can be concluded that the LRR domain is more diversified as compared to the NB-ARC domain. Most isolated R genes encode proteins possessing a LRR domain, of which the majority also contains a NBS domain (Sharma et al 2012). Two basic strategies have evolved for an R protein to recognize a pathogen effector (which is also called avirulence [Avr] factor): direct physical interaction and indirect interaction via association with other host proteins targeted by the Avr factor.…”

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confidence: 99%

Positive selection pressure on rice blast resistance allelePiz-tmakes it divergent in Indian land races

Thakur¹,

Singh²,

Rathour³

et al. 2013

Journal of Plant Interactions

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Allelic variants of the broad-spectrum blast resistance gene, Piz-t, have been analyzed in 48 rice lines selected after phenotyping across three blast hot-spot regions of India. Single Nucleotide Polymorhisms in the form of transitions were more frequent than the transversions in the alleles. On the basis of nucleotide polymorphism, 46 haplotypes have been identified, with major haplotypes forming three main haplogroups. The Piz-t alleles formed mostly region-specific clusters. Resistant and susceptible Piz-t alleles were grouped into separate sub-clusters. The value of Tajima's D was negative indicating positive selection on Piz-t locus. Sequence variations were more abundant in the leucine rich repeats (LRR) region than in the NB-ARC (nucleotide-binding adaptor shared by APAF-1,R proteins, and CED-4) region, indicating that the LRR region has played a more important role in the evolution of this allele. The detailed molecular analysis of the Piz-t locus provide insights to high degree of interand intra-specific relationship among the Indian land races of rice which will help in the selection of better alleles for future rice breeding programs.

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Rice Blast Management Through Host-Plant Resistance: Retrospect and Prospects

Cited by 258 publications

References 113 publications

Natural variation of rice blast resistance gene Pi-d2

Natural variation of rice blast resistance gene Pi-d2

Evaluation of DNA markers linked to blast resistant genes, Pikh, Pit (p), and Pita, for parental selection in Sri Lankan rice breeding

Positive selection pressure on rice blast resistance allelePiz-tmakes it divergent in Indian land races

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