Your search keyword '"Neeravi A"' showing total 7 results

1. Characterization of Salmonella phage of the genus Kayfunavirus isolated from sewage infecting clinical strains of Salmonella enterica

Author

Ramya Juliet, Archana Loganathan, Ayyanraj Neeravi, Yamuna Devi Bakthavatchalam, Balaji Veeraraghavan, Prasanth Manohar, and Ramesh Nachimuthu

Subjects

Salmonella, food biocontrol, drug resistance, bacteriophages, phage therapy, Microbiology, QR1-502

Abstract

The emergence of multi-drug resistance in Salmonella, causing food-borne infections, is a significant issue. With over 2,600 serovars in in Salmonella sp., it is crucial to identify specific solutions for each serovar. Phage therapy serves as an alternate treatment option. In this study, vB_SalP_792 phage was obtained from sewage, forming plaques in eight out of 13 tested clinical S. enterica isolates. Transmission electron microscopy (TEM) examination revealed a T7-like morphotype. The phage was characterized by its stability, life cycle, antibiofilm, and lytic ability in food sources. The phage remains stable throughout a range of temperatures (−20 to 70°C), pH levels (3–11), and in chloroform and ether. It also exhibited lytic activity within a range of MOIs from 0.0001 to 100. The life cycle revealed that 95% of the phages attached to their host within 3 min, followed by a 5-min latent period, resulting in a 50 PFU/cell burst size. The vB_SalP_792 phage genome has a dsDNA with a length of 37,281 bp and a GC content of 51%. There are 42 coding sequences (CDS), with 24 having putative functions and no resistance or virulence-related genes. The vB_SalP_792 phage significantly reduced the bacterial load in the established biofilms and also in egg whites. Thus, vB_SalP_792 phage can serve as an effective biocontrol agent for preventing Salmonella infections in food, and its potent lytic activity against the clinical isolates of S. enterica, sets out vB_SalP_792 phage as a successful candidate for future in vivo studies and therapeutical application against drug-resistant Salmonella infections.

Published

2024

2. Genomic Characterization of Mobile Genetic Elements Associated With Carbapenem Resistance of Acinetobacter baumannii From India

Author

Saranya Vijayakumar, Jobin John Jacob, Karthick Vasudevan, Purva Mathur, Pallab Ray, Ayyanraj Neeravi, Ashtawarthani Baskaran, Agilandeeswari Kirubananthan, Shalini Anandan, Indranil Biswas, Kamini Walia, and Balaji Veeraraghavan

Subjects

CRAb, OXA–23, Tn2006, IC2, AbGRI1 variant, AbaR4, Microbiology, QR1-502

Abstract

With the excessive genome plasticity, Acinetobacter baumannii can acquire and disseminate antimicrobial resistance (AMR) genes often associated with mobile genetic elements (MGEs). Analyzing the genetic environment of resistance genes often provides valuable information on the origin, emergence, evolution, and spread of resistance. Thus, we characterized the genomic features of some clinical isolates of carbapenem-resistant A. baumannii (CRAb) to understand the role of diverse MGEs and their genetic context responsible for disseminating carbapenem resistance genes. For this, 17 clinical isolates of A. baumannii obtained from multiple hospitals in India between 2018 and 2019 were analyzed. AMR determinants, the genetic context of resistance genes, and molecular epidemiology were studied using whole-genome sequencing. This study observed an increased prevalence of blaOXA–23 followed by dual carbapenemases, blaOXA–23, and blaNDM. This study identified three novel Oxford MLST sequence types. The majority of the isolates belonged to the dominant clone, IC2, followed by less prevalent clones such as IC7 and IC8. This study identified variations of AbaR4 and AbGRI belonging to the IC2 lineage. To the best of our knowledge, this is the first study that provides comprehensive profiling of resistance islands, their related MGEs, acquired AMR genes, and the distribution of clonal lineages of CRAb from India.

Published

2022

3. Emergence of Meropenem Resistance Among Cefotaxime Non-susceptible Streptococcus pneumoniae: Evidence and Challenges

Author

Rosemol Varghese, Soumya Basu, Ayyanraj Neeravi, Agilakumari Pragasam, V. Aravind, Richa Gupta, Angel Miraclin, Sudha Ramaiah, Anand Anbarasu, and Balaji Veeraraghavan

Subjects

S. pneumoniae, penicillin-binding protein, cefotaxime, meropenem, stability, Microbiology, QR1-502

Abstract

The principal causative agent of acute bacterial meningitis (ABM) in children and the elderly is Streptococcus pneumoniae, with a widespread increase in penicillin resistance. Resistance is due to non-synonymous single-nucleotide polymorphisms (nsSNPs) that alter the penicillin-binding proteins (PBPs), the targets for all β-lactam drugs. Hence, resistance against one β-lactam antibiotic may positively select another. Since meropenem is an alternative to cefotaxime in meningeal infections, we aim to identify whether nsSNPs in the PBPs causing penicillin and cefotaxime resistance can decrease the pneumococcal susceptibility to meropenem. Comparison of the nsSNPs in the PBPs between the cefotaxime-resistant Indian (n = 33) and global isolates (n = 28) revealed that nsSNPs in PBP1A alone elevated meropenem minimal inhibitory concentrations (MICs) to 0.12 μg/ml, and nsSNPs in both PBP2X and 2B combined with PBP1A increases MIC to ≥ 0.25 μg/ml. Molecular docking confirmed the decrease in the PBP drug binding affinity due to the nsSNPs, thereby increasing the inhibition potential and the MIC values, leading to resistance. Structural dynamics and thermodynamic stability pattern in PBPs as a result of mutations further depicted that the accumulation of certain nsSNPs in the functional domains reduced the drug affinity without majorly affecting the overall stability of the proteins. Restricting meropenem usage and promoting combination therapy with antibiotics having non-PBPs as targets to treat cefotaxime non-susceptible S. pneumoniae meningitis can prevent the selection of β-lactam resistance.

Published

2022

4. Characterization of Salmonella phage of the genus Kayfunavirus isolated from sewage infecting clinical strains of Salmonella enterica.

Author

Juliet, Ramya, Loganathan, Archana, Neeravi, Ayyanraj, Bakthavatchalam, Yamuna Devi, Veeraraghavan, Balaji, Manohar, Prasanth, and Nachimuthu, Ramesh

Subjects

SALMONELLA enterica, SALMONELLA, SALMONELLA diseases, BACTERIOPHAGES, LIFE cycles (Biology), SEWAGE, MULTIDRUG resistance

Abstract

The emergence of multi-drug resistance in Salmonella, causing food-borne infections, is a significant issue. With over 2,600 serovars in in Salmonella sp., it is crucial to identify specific solutions for each serovar. Phage therapy serves as an alternate treatment option. In this study, vB_SalP_792 phage was obtained from sewage, forming plaques in eight out of 13 tested clinical S. enterica isolates. Transmission electron microscopy (TEM) examination revealed a T7-like morphotype. The phage was characterized by its stability, life cycle, antibiofilm, and lytic ability in food sources. The phage remains stable throughout a range of temperatures (-20 to 70°C), pH levels (3-11), and in chloroform and ether. It also exhibited lytic activity within a range of MOIs from 0.0001 to 100. The life cycle revealed that 95% of the phages attached to their host within 3 min, followed by a 5-min latent period, resulting in a 50 PFU/cell burst size. The vB_SalP_792 phage genome has a dsDNA with a length of 37,281 bp and a GC content of 51%. There are 42 coding sequences (CDS), with 24 having putative functions and no resistance or virulence-related genes. The vB_SalP_792 phage significantly reduced the bacterial load in the established biofilms and also in egg whites. Thus, vB_SalP_792 phage can serve as an effective biocontrol agent for preventing Salmonella infections in food, and its potent lytic activity against the clinical isolates of S. enterica, sets out vB_SalP_792 phage as a successful candidate for future in vivo studies and therapeutical application against drugresistant Salmonella infections. [ABSTRACT FROM AUTHOR]

Published

2024

5. Genomic Characterization of Mobile Genetic Elements Associated With Carbapenem Resistance of Acinetobacter baumannii From India

Author

Vijayakumar, Saranya, primary, Jacob, Jobin John, additional, Vasudevan, Karthick, additional, Mathur, Purva, additional, Ray, Pallab, additional, Neeravi, Ayyanraj, additional, Baskaran, Ashtawarthani, additional, Kirubananthan, Agilandeeswari, additional, Anandan, Shalini, additional, Biswas, Indranil, additional, Walia, Kamini, additional, and Veeraraghavan, Balaji, additional

Published

2022

6. Emergence of Meropenem Resistance Among Cefotaxime Non-susceptible Streptococcus pneumoniae: Evidence and Challenges

Author

Varghese, Rosemol, primary, Basu, Soumya, additional, Neeravi, Ayyanraj, additional, Pragasam, Agilakumari, additional, Aravind, V., additional, Gupta, Richa, additional, Miraclin, Angel, additional, Ramaiah, Sudha, additional, Anbarasu, Anand, additional, and Veeraraghavan, Balaji, additional

Published

2022

7. Emergence of Meropenem Resistance Among Cefotaxime Non-susceptible

Author

Rosemol, Varghese, Soumya, Basu, Ayyanraj, Neeravi, Agilakumari, Pragasam, V, Aravind, Richa, Gupta, Angel, Miraclin, Sudha, Ramaiah, Anand, Anbarasu, and Balaji, Veeraraghavan

Abstract

The principal causative agent of acute bacterial meningitis (ABM) in children and the elderly is

Published

2021