Institution
Sher-e-Kashmir University of Agricultural Sciences and Technology
About: Sher-e-Kashmir University of Agricultural Sciences and Technology is a based out in . It is known for research contribution in the topics: Population & Pollination. The organization has 824 authors who have published 586 publications receiving 6523 citations.
Topics: Population, Pollination, Pollinator, Agriculture, Crop yield
Papers published on a yearly basis
Papers
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TL;DR: This review is written with the purpose of giving an overview of current knowledge about the antimicrobial properties of essential oils and their mechanisms of action, components ofessential oils, nano-encapsulated essential oils, and synergistic combinations of essential oil so as to find research areas that can facilitate applications of essential Oil to overcome the problem of multidrug-resistant micro-organisms.
Abstract: Extensive documentation on the antimicrobial properties of essential oils and their constituents has been carried out by several workers. Although the mechanism of action of a few essential oil components has been elucidated in many pioneering works in the past, detailed knowledge of most of the compounds and their mechanism of action is still lacking. This knowledge is particularly important for the determination of the effect of essential oils on different microorganisms, how they work in combination with other antimicrobial compounds, and their interaction with food matrix components. Also, recent studies have demonstrated that nanoparticles (NPs) functionalized with essential oils have significant antimicrobial potential against multidrug- resistant pathogens due to an increase in chemical stability and solubility, decreased rapid evaporation and minimized degradation of active essential oil components. The application of encapsulated essential oils also supports their controlled and sustained release, which enhances their bioavailability and efficacy against multidrug-resistant pathogens. In the recent years, due to increasingly negative consumer perceptions of synthetic preservatives, interest in essential oils and their application in food preservation has been amplified. Moreover, the development of resistance to different antimicrobial agents by bacteria, fungi, viruses, parasites, etc. is a great challenge to the medical field for treating the infections caused by them, and hence, there is a pressing need to look for new and novel antimicrobials. To overcome these problems, nano-encapsulation of essential oils and exploiting the synergies between essential oils, constituents of essential oils, and antibiotics along with essential oils have been recommended as an answer to this problem. However, less is known about the interactions that lead to additive, synergistic, or antagonistic effects. A contributing role of this knowledge could be the design of new and more potent antimicrobial blends, and understanding of the interplay between the components of crude essential oils. This review is written with the purpose of giving an overview of current knowledge about the antimicrobial properties of essential oils and their mechanisms of action, components of essential oils, nano-encapsulated essential oils, and synergistic combinations of essential oils so as to find research areas that can facilitate applications of essential oils to overcome the problem of multidrug-resistant micro-organisms.
714 citations
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TL;DR: This review summarizes and critically assess the roles that phytohormones play in plant growth and development and abiotic stress tolerance, besides their engineering for conferring abiotics stress tolerance in transgenic crops, and describes the recent progress and future prospects.
Abstract: Abiotic stresses including drought, salinity, heat, cold, flooding, and ultraviolet radiation causes crop losses worldwide. In recent times, preventing these crop losses and producing more food and feed to meet the demands of ever-increasing human populations have gained unprecedented importance. However, the proportion of agricultural lands facing multiple abiotic stresses is expected only to rise under a changing global climate fueled by anthropogenic activities. Identifying the mechanisms developed and deployed by plants to counteract abiotic stresses and maintain their growth and survival under harsh conditions thus holds great significance. Recent investigations have shown that phytohormones, including the classical auxins, cytokinins, ethylene, and gibberellins, and newer members including brassinosteroids, jasmonates, and strigolactones may prove to be important metabolic engineering targets for producing abiotic stress-tolerant crop plants. In this review, we summarize and critically assess the roles that phytohormones play in plant growth and development and abiotic stress tolerance, besides their engineering for conferring abiotic stress tolerance in transgenic crops. We also describe recent successes in identifying the roles of phytohormones under stressful conditions. We conclude by describing the recent progress and future prospects including limitations and challenges of phytohormone engineering for inducing abiotic stress tolerance in crop plants.
624 citations
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TL;DR: The utilization of bioactive rich citrus residues can provide an efficient, inexpensive, and environment friendly platform for the production of novel nutraceuticals or for the improvement of older ones.
305 citations
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TL;DR: Recent updates on plant miRNAs, their biogenesis and functions, target prediction and identification, computational tools and databases available, and their roles in abiotic stress-responses and adaptive mechanisms in major crop plants are provided.
Abstract: The microRNAs (miRNAs) are small (20-24 nt) sized, non-coding, single stranded riboregulator RNAs abundant in higher organisms. Recent findings have established that plants assign miRNAs as critical post-transcriptional regulators of gene expression in sequence-specific manner to respond to numerous abiotic stresses they face during their growth cycle. These small RNAs regulate gene expression via translational inhibition. Usually, stress induced miRNAs downregulate their target mRNAs, whereas, their downregulation leads to accumulation and function of positive regulators. In the past decade, investigations were mainly aimed to identify plant miRNAs, responsive to individual or multiple environmental factors, profiling their expression patterns and recognizing their roles in stress responses and tolerance. Altered expressions of miRNAs implicated in plant growth and development have been reported in several plant species subjected to abiotic stress conditions such as drought, salinity, extreme temperatures, nutrient deprivation, and heavy metals. These findings indicate that miRNAs may hold the key as potential targets for genetic manipulations to engineer abiotic stress tolerance in crop plants. This review is aimed to provide recent updates on plant miRNAs, their biogenesis and functions, target prediction and identification, computational tools and databases available for plant miRNAs, and their roles in abiotic stress-responses and adaptive mechanisms in major crop plants. Besides, the recent case studies for overexpressing the selected miRNAs for miRNA-mediated enhanced abiotic stress tolerance of transgenic plants have been discussed.
279 citations
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TL;DR: Actinobacteria help sustainably in improving soil health by formation and stabilization of compost piles, formation of stable humus and combine with other soil microorganisms in breaking down the tough plant residues to maintain the biotic equilibrium of soil by cooperating with nutrient cycling.
260 citations
Authors
Showing all 824 results
Name | H-index | Papers | Citations |
---|---|---|---|
Kuldeep Dhama | 54 | 698 | 15088 |
Anil Bhushan | 35 | 58 | 5362 |
Shabir H. Wani | 27 | 201 | 3619 |
Reyazul Rouf Mir | 27 | 81 | 2706 |
Muneeb U. Rehman | 25 | 122 | 1980 |
Sushil Kumar | 22 | 72 | 1631 |
Neelesh Sharma | 21 | 71 | 1326 |
S.A. Wani | 21 | 104 | 1286 |
Beena Kumari | 19 | 60 | 1101 |
Sajad Mohd Wani | 19 | 56 | 1221 |
Sanjay Guleria | 17 | 36 | 1557 |
Hina F. Bhat | 17 | 36 | 835 |
Pawan Kumar Verma | 17 | 92 | 1114 |
Rohitashw Kumar | 16 | 162 | 973 |
Rouf Ahmad Bhat | 16 | 54 | 639 |