Mangu Venkata Ramana Rao scite author profile

Mangu Venkata Ramana Rao

3Publications

18Citation Statements Received

31Citation Statements Given

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Affiliations

Madurai Kamaraj University, Central Rice Research Institute

Publications

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Transgene stacking and marker elimination in transgenic rice by sequential Agrobacterium-mediated co-transformation with the same selectable marker gene

et al. 2011

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Rice chitinase (chi11) and tobacco osmotin (ap24) genes, which cause disruption of fungal cell wall and cell membrane, respectively, were stacked in transgenic rice to develop resistance against the sheath blight disease. The homozygous marker-free transgenic rice line CoT23 which harboured the rice chi11 transgene was sequentially re-transformed with a second transgene ap24 by co-transformation using an Agrobacterium tumefaciens strain harbouring a single-copy cointegrate vector pGV2260::pSSJ1 and a multi-copy binary vector pBin19∆nptII-ap24 in the same cell. pGV2260::pSSJ1 T-DNA carried the hygromycin phosphotransferase (hph) and β-glucuronidase (gus) genes. pBin19∆nptII-ap24 T-DNA harboured the tobacco osmotin (ap24) gene. Co-transformation of the gene of interest (ap24) with the selectable marker gene (SMG, hph) occurred in 12 out of 18 T(0) plants (67%). Segregation of hph from ap24 was accomplished in the T(1) generation in one (line 11) of the four analysed co-transformed plants. The presence of ap24 and chi11 transgenes and the absence of the hph gene in the SMG-eliminated T(1) plants of the line 11 were confirmed by DNA blot analyses. The SMG-free transgenic plants of the line 11 harboured a single copy of the ap24 gene. Homozygous, SMG-free T(2) plants of the transgenic line 11 harboured stacked transgenes, chi11 and ap24. Northern blot analysis of the SMG-free plants revealed constitutive expression of chi11 and ap24. The transgenic plants with stacked transgenes displayed high levels of resistance against Rhizoctonia solani. Thus, we demonstrate the development of transgene-stacked and marker-free transgenic rice by sequential Agrobacterium-mediated co-transformation with the same SMG.

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Agrobacterium-mediated transformation of indica rice under Acetosyringone-free conditions

Rao

2007

Plant Biotechnology

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Transgenic indica rice cultivar ‘Swarna’ expressing a potato chymotrypsin inhibitor pin2 gene show enhanced levels of resistance to yellow stem borer

Rao

Behera

Baisakh

et al. 2009

Plant Cell Tiss Organ Cult

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Transgenic rice was developed from 'Swarna', the most popular indica rice cultivar (Oryza sativa L.) in South East Asia, with a potato chymotrypsin inhibitor gene (pin2) through Agrobacteriummediated transformation. Four out of nine primary transgenic plants had a single-copy T-DNA insertion while other five plants had two copies. Mendelian pattern of inheritance of the transgene (pin2) was observed in the T 1 generation progeny plants. Whole plant bioassays conducted at both vegetative and reproductive stages and cut stem assays showed enhanced levels of resistance of transgenic rice against yellow stem borer. The transgenic rice lines with plant derived proteinase inhibitor genes would develop into resistant cultivars to fit into resistance breeding strategies as an important component of integrated pest management in rice.

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