Ishwar Singh scite author profile

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Comparative analysis of double-stranded RNA degradation and processing in insects

Singh

Mogilicherla

et al. 2017

Sci Rep

148

129

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RNA interference (RNAi) based methods are being developed for pest management. A few products for control of coleopteran pests are expected to be commercialized soon. However, variability in RNAi efficiency among insects is preventing the widespread use of this technology. In this study, we conducted research to identify reasons for variability in RNAi efficiency among thirty-seven (37) insects belonging to five orders. Studies on double-stranded RNA (dsRNA) degradation by dsRNases and processing of labeled dsRNA to siRNA showed that both dsRNA degradation and processing are variable among insects belonging to different orders as well as among different insect species within the same order. We identified homologs of key RNAi genes in the genomes of some of these insects and studied their domain architecture. These data suggest that dsRNA digestion by dsRNases and its processing to siRNAs in the cells are among the major factors contributing to differential RNAi efficiency reported among insects.

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Advances in Maize Transformation Technologies and Development of Transgenic Maize

et al. 2017

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Maize is the principal grain crop of the world. It is also the crop where genetic engineering has been employed to a great extent to improve its various traits. The ability to transform maize is a crucial step for application of gene technology in maize improvement. There have been constant improvements in the maize transformation technologies over past several years. The choice of genotype and the explant material to initiate transformation and the different types of media to be used in various stages of tissue culture can have significant impact on the outcomes of the transformation efforts. Various methods of gene transfer, like the particle bombardment, protoplast transformation, Agrobacterium-mediated, in planta transformation, etc., have been tried and improved over years. Similarly, various selection systems for retrieval of the transformants have been attempted. The commercial success of maize transformation and transgenic development is unmatched by any other crop so far. Maize transformation with newer gene editing technologies is opening up a fresh dimension in transformation protocols and work-flows. This review captures the various past and recent facets in improvement in maize transformation technologies and attempts to present a comprehensive updated picture of the current state of the art in this area.

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Reactive oxygen species-mediated signaling during abiotic stress

et al. 2019

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Protease inhibitors: recent advancement in its usage as a potential biocontrol agent for insect pest management

Singh

Kumar

et al. 2018

Insect Science

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Plant-derived protease inhibitors (PIs) are a promising defensin for crop improvement and insect pest management. Although agronomist made significant efforts in utilizing PIs for managing insect pests, the potentials of PIs are still obscured. Insect ability to compensate nutrient starvation induced by dietary PI feeding using different strategies, that is, overexpression of PI-sensitive protease, expression of PI-insensitive proteases, degradation of PI, has made this innumerable collection of PIs worthless. A practical challenge for agronomist is to identify potent PI candidates, to limit insect compensatory responses and to elucidate insect compensatory and resistance mechanisms activated upon herbivory. This knowledge could be further efficiently utilized to identify potential targets for RNAi-mediated pest control. These vital genes of insects could be functionally annotated using the advanced gene-editing technique, CRISPR/Cas9. Contemporary research is exploiting different in silico and modern molecular biology techniques to utilize PIs in controlling insect pests efficiently. This review is structured to update recent advancements in this field, along with its chronological background.

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Physiological and Molecular Effects of 24-Epibrassinolide, a Brassinosteroid on Thermotolerance of Tomato

2005

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Brassinosteroids are naturally occurring plant growth regulators, which exhibit structural similarities to animal steroid hormones. Recent studies have indicated that besides an essential role in plant growth and development, brassinosteroids also exert anti-stress effects on plants. We show here that tomato plants treated with 24-epibrassinolide (EBR) are more tolerant to high temperature than untreated plants. An analysis of mitochondrial small heat shock proteins (MT-sHSP) in tomato leaves by western blotting revealed that the MT-sHSP did not preferentially accumulate in EBR treated plants at 25°C. However, treatment of plants at 38°C induced much more accumulation of MT-sHSP in EBR treated than in untreated plants. Results of this study provide the first direct evidence for EBR induced expression of MTsHSP, which possibly induced thermotolerance in tomato plants. EBR treated tomato plants had better photosynthetic efficiency. We also observed significantly higher in vitro pollen germination, enhanced pollen tube growth and low pollen bursting in the presence of EBR at 35°C, a temperature high enough to induce heat-stress symptoms in tomato, indicating a possible role of EBR during plant reproduction.

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Potassium nutrition for improving stubble bud sprouting, dry matter partitioning, nutrient uptake and winter initiated sugarcane (Saccharum spp. hybrid complex) ratoon yield

Shukla

Yadav

Singh

et al. 2009

European Journal of Agronomy

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Post-harvest deterioration of sugarcane and chemical methods to minimize sucrose losses

et al. 2006

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Ishwar Singh

Insights into SARS-CoV-2 genome, structure, evolution, pathogenesis and therapies: Structural genomics approach

Comparative analysis of double-stranded RNA degradation and processing in insects

Advances in Maize Transformation Technologies and Development of Transgenic Maize

Reactive oxygen species-mediated signaling during abiotic stress

Protease inhibitors: recent advancement in its usage as a potential biocontrol agent for insect pest management

Physiological and Molecular Effects of 24-Epibrassinolide, a Brassinosteroid on Thermotolerance of Tomato

Potassium nutrition for improving stubble bud sprouting, dry matter partitioning, nutrient uptake and winter initiated sugarcane (Saccharum spp. hybrid complex) ratoon yield

Post-harvest deterioration of sugarcane and chemical methods to minimize sucrose losses

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