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Rajneesh Jaswal

Explore the profile of Rajneesh Jaswal including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 11
Citations 69
Followers 0
Related Specialties
Microbiology
Biochemistry
Cell Biology
Top 10 Co-Authors
Ashvini Chauhan
Ashish Pathak
Paul Stothard
John Seaman
Rajesh Singh Rathore
Meenakshi Agarwal
Scott Brooks
Xiaoyu Xu
Bobby Edwards III
Oliver Rupp
Published In
Front Microbiol
Genes (Basel)
Genome Announc
Genom Data
Cells
Affiliations
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Recent Articles
1.
Is Long-Term Heavy Metal Exposure Driving Carriage of Antibiotic Resistance in Environmental Opportunistic Pathogens: A Comprehensive Phenomic and Genomic Assessment Using sp. SRS-8-S-2018
Gendy S, Chauhan A, Agarwal M, Pathak A, Rathore R, Jaswal R
Front Microbiol . 2020 Sep; 11:1923. PMID: 32973703
The carriage of both, heavy metal and antibiotic resistance appears to be a common trait in bacterial communities native to long-term contaminated habitats, including the Savannah River Site (SRS). There...
2.
Characterization of Bacterial and Fungal Assemblages From Historically Contaminated Metalliferous Soils Using Metagenomics Coupled With Diffusion Chambers and Microbial Traps
Pathak A, Jaswal R, Xu X, White J, Edwards 3rd B, Hunt J, et al.
Front Microbiol . 2020 Jul; 11:1024. PMID: 32655505
The majority of environmental microbiomes are not amenable to cultivation under standard laboratory growth conditions and hence remain uncharacterized. For environmental applications, such as bioremediation, it is necessary to isolate...
3.
Corrigendum: Genomic Characterization of a Mercury Resistant sp. H-02-3 Reveals the Presence of Heavy Metal and Antibiotic Resistance Determinants
Pathak A, Jaswal R, Chauhan A
Front Microbiol . 2020 Jun; 11:1047. PMID: 32523579
[This corrects the article DOI: 10.3389/fmicb.2019.03039.].
4.
Genomic Characterization of a Mercury Resistant sp. H-02-3 Reveals the Presence of Heavy Metal and Antibiotic Resistance Determinants
Pathak A, Jaswal R, Chauhan A
Front Microbiol . 2020 Feb; 10:3039. PMID: 32010097
Nuclear production and industrial activities led to widespread contamination of the Department of Energy (DOE) managed Savannah River Site (SRS), located in South Carolina, United States. The H-02 wetland system...
5.
Metagenomic Evaluation of Bacterial and Fungal Assemblages Enriched within Diffusion Chambers and Microbial Traps Containing Uraniferous Soils
Jaswal R, Pathak A, Chauhan A
Microorganisms . 2019 Sep; 7(9). PMID: 31489900
Despite significant technological advancements in the field of microbial ecology, cultivation and subsequent isolation of the vast majority of environmental microorganisms continues to pose challenges. Isolation of the environmental microbiomes...
6.
Metagenomics-Guided Survey, Isolation, and Characterization of Uranium Resistant Microbiota from the Savannah River Site, USA
Jaswal R, Pathak A, Edwards III B, Lewis III R, Seaman J, Stothard P, et al.
Genes (Basel) . 2019 May; 10(5). PMID: 31035394
Despite the recent advancements in culturomics, isolation of the majority of environmental microbiota performing critical ecosystem services, such as bioremediation of contaminants, remains elusive. Towards this end, we conducted a...
7.
Proteogenomic Analysis of Species Strains 25 and 46 Isolated from Uraniferous Soils Reveals Multiple Mechanisms to Cope with Uranium Stress
Agarwal M, Pathak A, Rathore R, Prakash O, Singh R, Jaswal R, et al.
Cells . 2018 Dec; 7(12). PMID: 30545132
Two spp. (strains SRS-25 and SRS-46) were isolated from high concentrations of uranium (U) from the U.S. Department of Energy (DOE)-managed Savannah River Site (SRS). SRS contains soil gradients that...
8.
Draft Genome Sequence of Serratia sp. Strain S1B, Isolated from Mercury-Contaminated Soil
Pathak A, Jaswal R, Xu X, Chauhan A
Genome Announc . 2018 Jun; 6(25). PMID: 29930048
We report here the draft genome sequence of sp. strain S1B, comprising 7,710,841 bases, 7,075 coding sequences, a G+C content of 45.9%, and 138 RNAs. Notably, a repertoire of biodegradative...
9.
Draft Genome Sequence of Pseudomonas sp. Strain B1, Isolated from a Contaminated Sediment
Pathak A, Jaswal R, Stothard P, Brooks S, Chauhan A
Genome Announc . 2018 Jun; 6(25). PMID: 29930041
The draft genome sequence of sp. strain B1, isolated from a contaminated soil, is reported. The genome comprises 6,706,934 bases, 6,059 coding sequences, and 70 RNAs and has a G+C...
10.
Physiological and Comparative Genomic Analysis of Arthrobacter sp. SRS-W-1-2016 Provides Insights on Niche Adaptation for Survival in Uraniferous Soils
Chauhan A, Pathak A, Jaswal R, Edwards III B, Chappell D, Ball C, et al.
Genes (Basel) . 2018 Jan; 9(1). PMID: 29324691
sp. strain SRS-W-1-2016 was isolated on high concentrations of uranium (U) from the Savannah River Site (SRS) that remains co-contaminated by radionuclides, heavy metals, and organics. SRS is located on...