Institution
Department of Biotechnology
Government•New Delhi, India•
About: Department of Biotechnology is a government organization based out in New Delhi, India. It is known for research contribution in the topics: Population & Silver nanoparticle. The organization has 4800 authors who have published 5033 publications receiving 82022 citations.
Topics: Population, Silver nanoparticle, DPPH, Gene, Oxidative stress
Papers published on a yearly basis
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TL;DR: In this paper, the characteristics, recent technologies, risk assessment and management of emerging concern (CECs) have been discussed and the primary aim is to highlight the new innovative and cost-effective technologies for the remediations of CEC in all forms.
88 citations
TL;DR: First and second instars were more susceptible to leaf extract than older insects, and clear dose-response relationships were established, with the highest dose of 4% plant extract causing 97% mortality of first instars.
88 citations
TL;DR: In this article, a review of the potential organic waste sources and the way in which the bioenergy is produced through efficient conversion processes is presented, focusing on providing a keen view on the potential organics sources and how they can be converted to bioenergy.
88 citations
TL;DR: Cinnamaldehyde increased adipose tissue lipolysis, decreased fasting-induced hyperphagia, normalized circulating levels of leptin/ghrelin ratio, and reduced inflammation in HFD-fed mice, which augurs well for its antiobesity role.
Abstract: Cinnamaldehyde, a bioactive component of cinnamon, is increasingly gaining interest for its preventive and therapeutic effects against metabolic complications like type-2 diabetes. This study is an attempt to understand the effect of cinnamaldehyde in high-fat diet (HFD)-associated increase in fasting-induced hyperphagia and related hormone levels, adipose tissue lipolysis and inflammation, and selected cecal microbial count in mice. Cinnamaldehyde, at 40 µM dose, prevented lipid accumulation and altered gene expression toward lipolytic phenotype in 3T3-L1 preadipocyte cell lines. In vivo, cinnamaldehyde coadministration prevented HFD-induced body weight gain, decreased fasting-induced hyperphagia, as well as circulating leptin and leptin/ghrelin ratio. In addition to that, cinnamaldehyde altered serum biochemical parameters related to lipolysis, that is, glycerol and free fatty acid levels. At transcriptional level, cinnamaldehyde increased anorectic gene expression in hypothalamus and lipolytic gene expression in visceral white adipose tissue. Furthermore, cinnamaldehyde also decreased serum IL-1β and inflammatory gene expression in visceral white adipose tissue. However, cinnamaldehyde did not modulate the population of selected gut microbial (Lactobacillus, Bifidibaceria, and Roseburia) count in cecal content. In conclusion, cinnamaldehyde increased adipose tissue lipolysis, decreased fasting-induced hyperphagia, normalized circulating levels of leptin/ghrelin ratio, and reduced inflammation in HFD-fed mice, which augurs well for its antiobesity role.
88 citations
TL;DR: In this paper, an eco-friendly, rapid and easy method for synthesis of silver nanoparticles (AgNPs) using Tinospora cordifolia as a reducing and capping agent was reported.
88 citations
Authors
Showing all 4812 results
| Name | H-index | Papers | Citations |
|---|---|---|---|
| Ashok Pandey | 96 | 796 | 43038 |
| Klaus Becker | 79 | 320 | 27494 |
| Bansi D. Malhotra | 75 | 375 | 19419 |
| Ashwani Kumar | 66 | 703 | 18099 |
| Sanjay K. Banerjee | 62 | 798 | 30044 |
| M. Michael Gromiha | 56 | 352 | 10617 |
| Swaran J.S. Flora | 55 | 267 | 11434 |
| Mallappa Kumara Swamy | 54 | 864 | 14508 |
| Pulok K. Mukherjee | 54 | 296 | 10873 |
| Mukesh Doble | 51 | 364 | 9826 |
| Jaya Narayan Sahu | 49 | 157 | 9569 |
| Pradeep Das | 49 | 426 | 10118 |
| Jon R. Lorsch | 48 | 117 | 7661 |
| Rakesh Tuli | 47 | 165 | 7497 |
| Amit K. Goyal | 47 | 157 | 5749 |