Moytri RoyChowdhury scite author profile

Moytri RoyChowdhury

4Publications

86Citation Statements Received

58Citation Statements Given

How they've been cited

162

How they cite others

Affiliations

California Department of Public Health, Arkansas Biosciences Institute, Arkansas State University

Publications

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Analysis of rice blast resistance gene Pi-z in rice germplasm using pathogenicity assays and DNA markers

et al. 2011

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The Pi-z gene in rice confers resistance to a wide range of races of the rice blast fungus, Magnaporthe oryzae. The objective of this study was to characterize Pi-z in 111 rice germplasm accessions using DNA markers and pathogenicity assays. The existence of Pi-z in rice germplasm was detected by using four simple sequence repeat (SSR) markers (RM527, AP4791, AP5659-1, AP5659-5) closely linked to Pi-z, and was verified using pathogenicity assays with an avirulent strain (IE1k) and two virulent races (IB33 and IB49). Among 111 germplasm accessions evaluated, 73 were found to contain the Pi-z gene using both SSR markers and pathogenicity assays. The remaining 38 germplasm accessions were found to be inconsistent in their responses to the blast races IB33, IEIk and IB49 with expected SSR marker alleles, suggesting the presence of unexpected SSR alleles and additional R gene(s). These characterized germplasm can be used for genetic studies and markerassisted breeding for improving blast resistance in rice.

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Microwave-assisted extraction of scutellarin from Erigeron breviscapus Hand-Mazz and its determination by high-performance liquid chromatography

Gao

Huang

RoyChowdhury

et al. 2007

Analytica Chimica Acta

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Detection and Molecular Characterization of a 16SrII‐A* Phytoplasma in Grapefruit (Citrus paradisi) with Huanglongbing‐like Symptoms in China

Lou

XianJin

Bai

et al. 2013

Journal of Phytopathology

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In the year 2010, in a survey in Guangxi Province, China, to detect and characterize phytoplasmas in a huanglongbing (HLB)-infected grapefruit (Citrus paradisi) orchard, 87 leaf samples with symptoms of blotchy mottle were collected from symptomatic grapefruit trees, and 320 leaf samples from symptomless trees adjacent to the symptomatic trees. Nested polymerase chain reaction (PCR) using universal phytoplasma primer set P1/ P7 followed by primer set fU5/rU3 identified 7 (8.0%) positive samples from symptomatic samples but none from symptomless samples. Of the 87 symptomatic samples, 77 (88.5%) were positive for 'Candidatus Liberibacter asiaticus' and 5 for both phytoplasma and 'Ca. L. asiaticus'. Sequence analysis indicated that seven 881-bp amplicons, amplified by nested phytoplasma primer sets P1/P7 and fU5/rU3, shared 100.0% sequence identity with each other. Genome walking was then performed based on the 881 bp known sequences, and 5111 bp of upstream and downstream sequences were obtained. The total 5992 bp sequences contained a complete rRNA operon, composed of a 16S rRNA gene, a tRNA Ile gene, a 23S rRNA gene and a 5S rRNA gene followed by eight tRNA genes. Phylogenetic analysis and virtual restriction fragment length polymorphism analysis confirmed the phytoplasma was a variant (16SrII-A*) of phytoplasma subgroup 16SrII-A. As phytoplasmas were only detected in blotchy-mottle leaves, the 16SrII-A* phytoplasma identified was related to HLB-like symptoms. J Phytopathol

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Identification of the Rice Blast Resistance Gene Pib in the National Small Grains Collection

RoyChowdhury¹,

Jia²,

Jia³

et al. 2012

Phytopathology®

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The Pib gene in rice confers resistance to a wide range of races of the rice blast pathogen, Magnaporthe oryzae, including race IE1k that overcomes Pita, another broad-spectrum resistance gene. In this study, the presence of Pib was determined in 164 rice germplasm accessions from a core subset of the National Small Grains Collection utilizing DNA markers and pathogenicity assays. The presence of Pib was evaluated with two simple sequence repeat (SSR) markers and a dominant marker (Pib-dom) derived from the Pib gene sequence. Pathogenicity assays using two avirulent races (IE1k and IB1) and a virulent race (IB54) were performed to verify the resistance responses of accessions. Of the 164 accessions evaluated, 109 contained the Pib gene as determined using both SSR markers and pathogenicity assays, albeit different haplotypes were detected. The remaining 52 germplasm accessions were different in their responses to the blast races IB54, IE1k, and IB1, thus indicating the presence of R gene(s) other than Pib. The accessions characterized in this study could be used for marker-assisted breeding to improve blast resistance in indica and japonica cultivars worldwide.

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