Emmagouni Sharath Kumar Goud scite author profile

Music is known for reducing stress, anxiety and depression, improving cognitive performance, and enhancing oestrogen levels. However, its effect on non‐auditory mammalian cell system and the molecular events leading to higher oestrogen levels is less explored. Therefore, the present study targeted to know the direct effects of a peaceful Vedic music on 3D cultured buffalo granulosa cell spheroids. The spheroids were daily exposed to the Mahamrityunjaya mantra, a kind of Vedic chants, for 1.5 hr for 6 days. After 6 days, the music effect was analysed by the expression analysis of steroidogenic (CYP19A1, STAR and HSD17β1) and proliferative marker (PCNA) genes. Interestingly, the CYP19A1 gene expression was significantly upregulated by 3.464 ± 0.15 folds in the music exposed spheroids than the non‐exposed spheroids. However, the expression of other steroidogenic and proliferative genes was unaltered. These observations provided a transcriptional clue for higher estradiol levels by the music and a scope to use Vedic chants for increasing the CYP19A1 expression to help tackle some pathophysiological conditions.

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Non-Typhoidal Salmonellosis: A Major Concern for Poultry Industry

Pandey¹,

Goud²

2021

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Salmonella is the most important gastrointestinal pathogen distributed ubiquitously. The major serovars involved in Non-typhoidal salmonellosis are S. Typhimurium and S. Enteritidis. In the viewpoint of ban in the export and import of the Salmonella contaminated poultry food and poultry products, the need for rapid detection and mitigation of Salmonella has increased mani-folds. The major problem associated with its control is the growing incidence of antimicrobial resistance, which has been reported worldwide in the recent years. From causing self limiting gastroenteritis they have found to be responsible for several fatal diseases like endocarditis, meningitis, lung infestations, appendicitis, pneumonia, and cerebral abscess in human beings. Targeting several proteins such as adhesive proteins, lipoproteins, outer membrane proteins (Omps) etc. as vaccine candidates may pave a way in its control. So, continuous monitoring using one health approach and development of effective treatment and control strategies are critical.

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Effect of Dioxins in Milk on the 3D Cultured Primary Buffalo Hepatocyte Model System

Goud

Pandey

Singh

et al. 2019

J. Agric. Food Chem.

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Cow and human milk have been reported to contain dioxins ranging from 0.023 to 26.46 and 0.88 to 19 pg/g of fat, respectively. However, the toxic effects of the dioxins in the milk in this range of concentrations were not explored. Therefore, considering the outbred livestock tissues as better models than inbred laboratory animals, the present study targeted to study the effect of dioxins present in the milk on three-dimensionally (3D) cultured buffalo primary hepatocyte spheroids. The spheroids were treated with a model dioxin, 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), directly and also through milk fat at different concentrations (i.e, 0.02−20 pg/mL) for 24 h. Among the liver-cell-specific (ALB, HNF4α, and AFP) genes, a similar ALB and upregulated HNF4α expression at all treatments indicated the functional and transcriptionally active hepatocyte spheroids. Supportingly, no significant difference in the antiapoptotic gene expression between the treatments of milk fat and milk fat containing dioxins indicated the survivability of the spheroids during dioxin treatments. Among the selected TCDD responsive (CYP1A1, CYP1A2, AHR, CYP1B1, and TIPARP) genes, a nonsignificant increasing trend of the CYP1A1 expression was observed from 0.2 to 10 pg/mL of TCDD concentration through milk fat. This pattern was similar to the reported insensitive response of human primary hepatocytes toward dioxins than that of rat primary hepatocytes. This may indicate that the buffalo hepatocyte spheroids could be better models than rats for TCDD hepatotoxic studies. Further, TCDD in the milk in the range of 0.02−20 pg/mL concentration may not be very hepatotoxic.

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Identification and Characterization of Biosynthetic Gene Clusters from Halophilic Marine Fungus Eurotium rubrum

Bandapali¹,

Hansen²,

Parveen³

et al. 2020

Preprint

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Eurotium rubrum is a halophilic marine ascomycete, which can bear the hypersalinities of the Red Sea and proliferate, while most living entities cannot bear this condition. Recently, a 26.2 Mb assembled genome of this fungus had become available. Marine fungi are fascinating organisms capable of harboring several biosynthetic gene clusters (BGCs), which enables them to produce several natural compounds with antibiotic and anticancerous properties. Understanding the BGCs are critically important for the development of biotechnological applications and the discovery of future drugs. There is no knowledge available on the BGCs of this halophilic marine ascomycete. Herein, we set out to explore and characterize BGCs and the corresponding genes from E. rubrum using bioinformatic methods. We deciphered 36 BGCs in the genome of E. rubrum. These 36 BGCs can be grouped into four non-ribosomal peptide synthetase (NRPS) clusters, eight NRPS-like (NRPSL) BGCs, eight type I polyketide synthase (T1PKS), 11 terpene BGCs including one β-lactone cluster, four hybrid BGCs, and two siderophore BGCs. This study is an example of marine genomics application into potential future drug-like compound discovery.

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Detection of endocrine and metabolism disrupting xenobiotics in milk-derived fat samples by fluorescent protein-tagged nuclear receptors and live cell imaging

Thakur

Goud

Jawa

et al. 2022

Toxicology Mechanisms and Methods

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