Browsing by Author "Deepti Singh"

Now showing 1 - 6 of 6

Genetic variability, heritability and genetic advance in marigold
(Indian Academy of Horticultural Sciences, 2010) A.K. Singh; Deepti Singh
[No abstract available]
Glycine betaine modulates chromium (VI)-induced morpho-physiological and biochemical responses to mitigate chromium toxicity in chickpea (Cicer arietinum L.) cultivars
(Nature Research, 2022) Deepti Singh; Chandan Kumar Singh; Dharmendra Singh; Susheel Kumar Sarkar; Saroj Kumar Prasad; Nathi Lal Sharma; Ishwar Singh
Chromium (Cr) accumulation in crops reduces yield. Here, we grew two chickpea cultivars, Pusa 2085 (Cr-tolerant) and Pusa Green 112 (Cr-sensitive), in hydroponic and pot conditions under different Cr treatments: 0 and 120 µM Cr and 120 µM Cr + 100 mM glycine betaine (GB). For plants grown in the hydroponic media, we evaluated root morphological attributes and plasma membrane integrity via Evans blue uptake. We also estimated H+-ATPase activity in the roots and leaves of both cultivars. Plants in pots under conditions similar to those of the hydroponic setup were used to measure growth traits, oxidative stress, chlorophyll contents, enzymatic activities, proline levels, and nutrient elements at the seedling stage. Traits such as Cr uptake in different plant parts after 42 days and grain yield after 140 days of growth were also evaluated. In both cultivars, plant growth traits, chlorophyll contents, enzymatic activities, nutrient contents, and grain yield were significantly reduced under Cr stress, whereas oxidative stress and proline levels were increased compared to the control levels. Further, Cr uptake was remarkably decreased in the roots and leaves of Cr-tolerant than in Cr-sensitive cultivars. Application of GB led to improved root growth and morpho-physiological attributes and reduced oxidative stress along with reduced loss in plasma membrane integrity and subsequently increase in H+-ATPase activity. An increment in these parameters shows that the exogenous application of GB improves the Cr stress tolerance in chickpea plants. © 2022, The Author(s).
Hydrogen Sulfide and Silicon Together Alleviate Chromium (VI) Toxicity by Modulating Morpho-Physiological and Key Antioxidant Defense Systems in Chickpea (Cicer arietinum L.) Varieties
(Frontiers Media S.A., 2022) Deepti Singh; Chandan Kumar Singh; Manzer H. Siddiqui; Saud Alamri; Susheel Kumar Sarkar; Abhishek Rathore; Saroj Kumar Prasad; Dharmendra Singh; Nathi Lal Sharma; Hazem M. Kalaji; Adam Brysiewicz
Extensive use of chromium (Cr) in anthropogenic activities leads to Cr toxicity in plants causing serious threat to the environment. Cr toxicity impairs plant growth, development, and metabolism. In the present study, we explored the effect of NaHS [a hydrogen sulfide; (H2S), donor] and silicon (Si), alone or in combination, on two chickpea (Cicer arietinum) varieties (Pusa 2085 and Pusa Green 112), in pot conditions under Cr stress. Cr stress increased accumulation of Cr reduction of the plasma membrane (PM) H+-ATPase activity and decreased in photosynthetic pigments, essential minerals, relative water contents (RWC), and enzymatic and non-enzymatic antioxidants in both the varieties. Exogenous application of NaHS and Si on plants exposed to Cr stress mitigated the effect of Cr and enhanced the physiological and biochemical parameters by reducing Cr accumulation and oxidative stress in roots and leaves. The interactive effects of NaHS and Si showed a highly significant and positive correlation with PM H+-ATPase activity, photosynthetic pigments, essential minerals, RWC, proline content, and enzymatic antioxidant activities (catalase, peroxidase, ascorbate peroxidase, dehydroascorbate reductase, superoxide dismutase, and monodehydroascorbate reductase). A similar trend was observed for non-enzymatic antioxidant activities (ascorbic acid, glutathione, oxidized glutathione, and dehydroascorbic acid level) in leaves while oxidative damage in roots and leaves showed a negative correlation. Exogenous application of NaHS + Si could enhance Cr stress tolerance in chickpea and field studies are warranted for assessing crop yield under Cr-affected area. Copyright © 2022 Singh, Singh, Siddiqui, Alamri, Sarkar, Rathore, Prasad, Singh, Sharma, Kalaji and Brysiewicz.
Molecular phylogeny of heterotrophic nitrifiers and aerobic denitrifiers and their potential role in ammonium removal
(Wiley-VCH Verlag, 2016) Meenakshi Srivastava; Manish Singh Kaushik; Anumeha Singh; Deepti Singh; Arun Kumar Mishra
To investigate the physiology and taxonomic composition of the key players of nitrification and denitrification processes in paddy fields, culture dependent and independent studies have been carried out. A total of 28 bacterial strains have been screened in which six were capable of reducing nitrate and nitrite as well as having significant ammonium removal potential. 16S rRNA-PCR-DGGE-based molecular typing of enriched batch culture was done with time duration to explore and identify dominant and stable soil denitrifiers. Notably, three isolates namely PDN3, PDN19, PDN14 were found to be efficiently involved in the removal of 70.32, 71.46, and 81.50% of NH4 (+) and showed closest similarity (>98%) with Bacillus cereus, Bacillus subtilis, and Pseudomonas aeruginosa strains, respectively. The bacterial strain PDN14 showed maximum growth with highest ammonium removal rate (2.78 gN/(m(3) ·h) has also been characterized based on nosZ gene which showed similarity to uncultured γ- Proteobacteria, P. aeruginosa sp. B3. Median joining (MJ) network and rRNA secondary structure have been analyzed for their detailed taxonomic diversity and derived haplotype-based co-occurrence. Results demonstrated that such strains can serve as good candidate for in situ nitrogen transformation in paddy soils and improvingly characterized by physiological and detailed phylogenetic approaches. © 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.
“What do Ayurveda Postgraduate Entrance Examinations actually assess?” – Results of a five-year period question-paper analysis based on Bloom's taxonomy
(Elsevier B.V., 2016) Deepti Singh; Piyush Kumar Tripathi; Kishor Patwardhan
Background The standards of Ayurveda education in India are being questioned in the recent years and many suggestions related to educational reforms are being put forth by educators and health policy experts. However, the Post Graduate Entrance Examinations (PGEEs) that are carried out to select the candidates to pursue postgraduate programs have received little attention in this context. Objectives The objective of this study was to classify the Multiple Choice Questions (MCQs) from Ayurveda PGEEs conducted in different universities of India during the five year period (ranging from 2010 to 2014) into six levels of Bloom's Taxonomy in cognitive domain. Methods This is a retrospective observational study. The sampling method followed was purposive sampling. Totally, 3299 MCQs obtained out of 25 question papers from seven universities spread across four zones of India (North, South, West and East) were included in the study and were classified based on the Bloom's taxonomy. Results About 93.3% of MCQs assessed only the ‘recall’ component whereas 6.2% of the MCQs assessed ‘comprehension’. Percentage of MCQs that assessed ‘application’ level was a mere 0.3% whereas the percentage of MCQs that assessed the ‘analysis’ component was found to be only 0.2%. There was not even a single question to assess the ‘synthesis’ and ‘evaluation’ components. Conclusions We conclude that an appropriate proportion of MCQs assessing ‘higher order thinking’ are required to be included in Ayurveda PGEEs. While it is possible to frame MCQs to assess all six levels of Bloom's taxonomy in cognitive domain, the teachers are required to be trained well in the skills of MCQ writing. We propose that our study may be taken as a lead to introduce the required reforms in PGEEs. Clinical Trial Registration No.: Not applicable. © 2016 Transdisciplinary University, Bangalore and World Ayurveda Foundation
Zinc oxide nanoparticles alleviate chromium-induced oxidative stress by modulating physio-biochemical aspects and organic acids in chickpea (Cicer arietinum L.)
(Elsevier Masson s.r.l., 2024) Deepti Singh; Nathi Lal Sharma; Dharmendra Singh; Manzer H. Siddiqui; Susheel Kumar Sarkar; Abhishek Rathore; Saroj Kumar Prasad; Abdel-Rhman Z. Gaafar; Sadam Hussain
Extensive chromium (Cr) release into water and soil severely impairs crop productivity worldwide. Nanoparticle (NP) technology has shown potential for reducing heavy metal toxicity and improving plant physicochemical profiles. Herein, we investigated the effects of exogenous zinc oxide NPs (ZnO-NPs) on alleviating Cr stress in Cr-sensitive and tolerant chickpea genotypes. Hydroponically grown chickpea plants were exposed to Cr stress (0 and 120 μM) and ZnO-NPs (25 μM, 20 nm size) twice at a 7-day interval. Cr exposure reduced physiochemical profiles, ion content, cell viability, and gas exchange parameters, and it increased organic acid exudate accumulation in roots and the Cr content in the roots and leaves of the plants. However, ZnO-NP application significantly increased plant growth, enzymatic activities, proline, total soluble sugar, and protein and gas exchange parameters and reduced malondialdehyde and hydrogen peroxide levels, Cr content in roots, and organic acid presence to improve root cell viability. This study provides new insights into the role of ZnO-NPs in reducing oxidative stress along with Cr accumulation and mobility due to low levels of organic acids in chickpea roots. Notably, the Cr-tolerant genotype exhibited more pronounced alleviation of Cr stress by ZnO-NPs. These findings highlight the potential of ZnO-NP in regulating plant growth, reducing Cr accumulation, and promoting sustainable agricultural development. © 2023 Elsevier Masson SAS