Your search keyword '"Vasisth R"' showing total 10 results

1. Mediastinal masses—Six years’ experience

Author

Dey AK, Vasisth R, Chakrabarti A, Guha I, Dey S, Sengupta G, Saha T, Maiti N, Roy BC, Mukherjee S, Pal MS, and Chakraborty S

Published

2004

2. Hepatic Amyloidosis Presenting with Severe Intrahepatic Cholestasis

Author

Goenka, M. K., primary, Bhasin, D. K., additional, Vasisth, R. K., additional, and Dhawan, S., additional

Published

1996

3. A New Method of Separation of Organic Compounds.

Author

VASISTH, R. C. and MUTHANA, M. S.

Published

1953

4. Polymorphism detection and characterization of sperm cells chromatin remodeling associated genes in Murrah buffalo.

Author

Kaur H, Chitkara M, Mathai E, Gurao A, Vasisth R, Dige MS, Mukesh M, Sriranga KR, Singh P, and Kataria RS

Subjects

Animals, Male, Protamines genetics, Protamines metabolism, Seasons, Semen Analysis veterinary, Polymorphism, Genetic, Chromosomal Proteins, Non-Histone, Buffaloes genetics, Chromatin Assembly and Disassembly, Spermatozoa physiology

Abstract

Seasonal variations significantly impact buffalo bull semen production and quality, particularly during the summer months. Understanding the genetic basis of these changes is important for managing bull fertility and improving sperm quality. The present study focused on characterizing and identifying polymorphisms in chromatin remodeling genes, protamines (PRMs) and Transition Nuclear Proteins (TNPs) in Murrah buffalo bulls with varying semen quality due to seasonal effects. Our findings revealed none of the coding region variation in PRM1, PRM2, TNP1, and TNP2, these genes are highly conserved in buffalo. Two intronic variants were identified, including G16C in PRM1 intron 1 and intronic SNP in PRM2 intron 1 (G96A). The complete CDS of consensus sequence of bubaline PRM1 was 86.3% identical and 94.1% similar to the bovine PRM1. Whereas the complete CDS of consensus sequence of bubaline TNP2 was 78.2% identical and 91.0% similar to bovine TNP2. Further, no statistically significant differences in the fold change of TNP1, TNP2, PRM1, and PRM2 levels between the hot summer SNA and SA groups and the winter SNA and SA groups This study represents the first comprehensive report on the characterization of bubaline PRM1 (complete CDS), PRM2 (partial CDS), TNP1 (partial CDS), and TNP2 (complete CDS) genes in buffalo sperm cells. Results of the study, clearly indicate that the genes associated with protamine (PRM1 and TNP2) are highly conserved in Bubalus bubalis. Understanding these genetic underpinnings can have implications for improving buffalo bull fertility and semen quality., (© 2024. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2024

5. Identification of KIT gene transcript variants in white spotted river buffalo (Bubalus bubalis).

Author

Gurao A, Vasisth R, Kumari N, Chitkara M, Singh R, Mukesh M, Vohra V, Kumar S, Dige MS, and Kataria RS

Published

2024

6. Selection of reference genes for normalizing gene expression data across seasons in spermatozoa of water buffalo (Bubalus bubalis).

Author

Vasisth R, Gurao A, Chitkara M, Kumar G, Sriranga KR, Mukesh M, Dige MS, Singh P, Aggarwal RAK, and Kataria RS

Subjects

Animals, Male, Gene Expression, Temperature, Real-Time Polymerase Chain Reaction, Gene Expression Profiling, Semen Analysis veterinary, Humidity, Reference Standards, Buffaloes genetics, Spermatozoa metabolism, Seasons

Abstract

Selection of the most stably expressed reference genes is key to monitoring accurate target gene expression across any tissue or cell type. The mRNA in spermatozoa stores valuable information related to changes in spermatogenesis due to variations in environmental conditions, especially during heat stress, which affects various sperm functions. Semen quality in buffalo bulls is significantly influenced by the seasons. In the study, a panel of nine genes was evaluated to identify the most stably expressed internal control gene (ICG) for the normalization of real-time gene expression data generated across various seasons for Murrah buffalo bulls' spermatozoa. Sperm cells were purified from the semen samples collected during different seasons, with temperature-humidity index (THI) ranging from 80.80 ± 1.47 (hot summer) to 55.88 ± 1.98 (winter), using the BoviPure™ gradient purification method. The RNA isolated from the purified spermatozoa fraction was quality checked prior to reverse transcription and subjected to qPCR (quantitative real-time PCR) based expression analysis. An automated 'endoGene' pipeline was employed to apply the geNorm, NormFinder, and BestKeeper algorithms for data analysis. The result indicated that GAPDH and PP1A were the most stably expressed among the gene panel, whereas ATPSF1 and ACTB were the two least stable expressed reference genes. Further, the most suitable ICGs identified were validated by normalization of real time expression data of heat stress and sperm quality genes, HSFY2 and AKAP4, respectively. The genes identified would help in generating the most reliable results for the expression profiling of the genes dictating sperm quality and heat stress cope-up mechanism in buffalo spermatozoa, collected during different seasons., (© 2024. The Author(s) under exclusive licence to International Society of Biometeorology.)

Published

2024

7. Genome-wide 5'-C-phosphate-G-3' methylation patterns reveal the effect of heat stress on the altered semen quality in Bubalus bubalis.

Author

Kumar G, Gurao A, Vasisth R, Chitkara M, Singh R, Ranganatha Sriranga K, Shivanand Dige M, Mukesh M, Singh P, and Singh Kataria R

Subjects

Animals, Male, Cattle genetics, Buffaloes genetics, Phosphates, Spermatozoa, DNA Methylation, Heat-Shock Response genetics, Sperm Motility, Semen Analysis, Semen physiology

Abstract

Semen production and quality are closely correlated with different environmental factors in bovines, particularly for the buffalo (Bubalus bubalis) bulls reared under tropical and sub-tropical conditions. Factors including DNA methylation patterns, an intricate process in sperm cells, have an impact on the production of quality semen in buffalo bulls under abiotic stress conditions. The present study was conducted to identify DNA methylome signatures for semen quality in Murrah buffalo bulls, acclaimed as a major dairy breed globally, under summer heat stress. Based on semen quality parameters that significantly varied between the two groups over the seasons, the breeding bulls were classified into seasonally affected (SA = 6) and seasonally non-affected (SNA = 6) categories. DNA was isolated from purified sperm cells and sequenced using the RRBS (Reduced Representation Bisulfite Sequencing) technique for genome-wide methylome data generation. During the hot summer months, the physiological parameters such as scrotal surface temperature, rectal temperature, and respiration rate for both the SA and SNA bulls were significantly higher in the afternoon than in the morning. Whereas, the global CpG% of SA bulls was positively correlated with the afternoon's scrotal surface and rectal temperature. The RRBS results conveyed differentially methylated cytosines in the promoter region of the genes encoding the channels responsible for Ca 2+ exchange, NPTN, Ca 2+ activated chloride channels, ANO1, and a few structure-related units such as septins (SEPT4 and SEPT6), SPATA, etc. Additionally, the hypermethylated set of genes in SA was significantly enriched for pathways such as the FOXO signaling pathway and oocyte meiosis. The methylation patterns suggest promoter methylation in the genes regulating the sperm structure as well as surface transporters, which could contribute to the reduced semen quality in the Murrah buffalo bulls during the season-related heat stress., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

8. Development and validation of most efficient RNA isolation method from buffalo bull spermatozoa.

Author

Vasisth R, Gurao A, Kumari N, Kumar G, Kumar A, Sriranga KR, Dige MS, Mukesh M, Aggarwal RAK, Singh P, and Kataria RS

Subjects

Animals, Male, Buffaloes genetics, Buffaloes metabolism, Semen metabolism, Spermatozoa metabolism, Cryopreservation methods, RNA metabolism, Semen Preservation methods

Abstract

Background: Being highly fragmented and low in concentration, isolation of good quality RNA from sperm cells is a big challenge. Attempts have been made to evaluate various sperm RNA isolation methods from purified buffalo bull sperm cells., Methods: Both, non-membrane and membrane-based methods have been evaluated for isolating RNA from Murrah buffalo sperms and compared for their respective efficacies. The traditional TRIzol, TRIzol-heat lysed (H-TRIzol) and cocktail of TCEP-RLT lysis buffer (Qiagen RNeasy mini kit)-TRIzol (C-TRIzol) based isopropanol isolation methods have been evaluated., Results: H-TRIzol yielded best results among conventional methods. The combined T-RLT RNA isolation protocol yielded best quality and quantity compared to other membrane-based methods, due to high lytic property of cocktail of lysis reagents, necessary for complete breakdown of sperm membrane and RNA binding membrane for RNA isolation. Combined lysis performed by treatment with RLT-T and T-RLT differing in order of reagents used were also evaluated. T-RLT combination giving better results compared to RLT-T due to high gDNA contamination and membrane clogging in later protocol steps., Conclusion: Overall, in terms of total RNA quantity and quality per million spermatozoa, the heat-lysed TRIzol method (H-TRIzol) performs best among RNA separation techniques employed and is also quite easy to perform. This comparative evaluation of sperm RNA isolation protocols can be useful in deciding the best protocol for isolation of good quality and high concentration sperm RNA from buffalo semen, for transcriptome and other downstream studies., (© 2023. The Author(s), under exclusive licence to Springer Nature B.V.)

Published

2023

9. ASIP gene polymorphism associated with black coat and skin color in Murrah buffalo.

Author

Kumari N, Vasisth R, Gurao A, Mukesh M, Vohra V, Kumar S, and Kataria RS

Subjects

Animals, Polymorphism, Genetic, Genotype, Phenotype, Skin Pigmentation genetics, Buffaloes genetics

Abstract

The melanogenesis pathway regulates pigmentation through the synergic action of various genes. We are interested in analyzing the genetic variations in the ASIP which determine eumelanin production in the dermis layer. In the present study, the ASIP gene was characterized in buffalo and 268 genetically unrelated buffaloes belonging to 10 different populations were genotyped for the non-synonymous SNP (c.292C>T) identified in the exon 3 region of the gene using Tetra-ARMS-PCR. The TT genotype occurred at a higher rate in Murrah, followed by Nili Ravi, Tripura, and Paralakhemundi (42.63%, 19.30%, 3.45%, and 3.33%). These results convey the association of the black coat color of Murrah with the ASIP gene TT genotype and the lighter shades of black coat (brown and grayish-black) color phenotype in other breeds with the CC genotype., (© 2023 Environmental Mutagenesis and Genomics Society.)

Published

2023

10. Identification of differential methylome signatures of white pigmented skin patches in Nili Ravi buffalo of India.

Author

Gurao A, Vasisth R, Singh R, Dige MS, Vohra V, Mukesh M, Kumar S, and Kataria RS

Subjects

Animals, DNA, Phenotype, India, Buffaloes genetics, Epigenome

Abstract

The DNA methylation events mark a major epigenetic change in the genome, reflecting non-genetic disease developments and varied phenotypes. The water buffalo is a dairy production animal with wide agro-climatic distribution in India. Breed-wise the coat color of water buffalo varies from ash-gray to jet black. A typical pigmentation pattern is found in one of the breeds of North India, Nili Ravi, with variedly distributed white patches. The DNA methylation pattern could potentially reveal the epigenetic factors responsible for the pigmentation patterns. To address this question, the DNA isolated from the skin tissues of Nili Ravi with varied white pigmentation and black Murrah buffaloes was subjected to reduced representation bisulfite sequencing. DNA methylation analysis revealed, 68.44%, 63.39%, and 47.94% of the promoter regions were hypermethylated in Nili Ravi over-white versus Murrah, Nili Ravi under-white versus Murrah, and Nili Ravi under-white versus Nili Ravi over-white, respectively. Major genes identified to be differentially methylated among over-white and under-white skin tissues in Nili Ravi included TBX2, SNAI2, HERC2, and CITED1. Overall the results have indicated differential methylation patterns to be potentially involved in hyper or hypopigmentation in Nili Ravi and Murrah buffaloes., (© 2022 Environmental Mutagen Society.)

Published

2022