Your search keyword '"Bar, Zilberman"' showing total 6 results

1. Whole Genome Sequence Analysis of Brucella melitensis Phylogeny and Virulence Factors

Author

Peter Rabinowitz, Bar Zilberman, Yair Motro, Marilyn C. Roberts, Alex Greninger, Lior Nesher, Shalom Ben-Shimol, Yael Yagel, Michael Gdalevich, Orly Sagi, Nadav Davidovitch, David Kornspan, Svetlana Bardenstein, and Jacob Moran-Gilad

Subjects

Brucella melitensis, virulence factors, brucellosis/epidemiology, single nucleotide polymorphism, whole genome sequencing, Microbiology, QR1-502

Abstract

Brucellosis has a wide range of clinical severity in humans that remains poorly understood. Whole genome sequencing (WGS) analysis may be able to detect variation in virulence genes. We used Brucella melitensis sequences in the NCBI Sequence Read Archive (SRA) database to assemble 248 whole genomes, and additionally, assembled 27 B. melitensis genomes from samples of human patients in Southern Israel. We searched the 275 assembled genomes for the 43 B. melitensis virulence genes in the Virulence Factors of Pathogenic Bacteria Database (VFDB) and 10 other published putative virulence genes. We explored pan-genome variation across the genomes and in a pilot analysis, explored single nucleotide polymorphism (SNP) variation among the ten putative virulence genes. More than 99% of the genomes had sequences for all Brucella melitensis virulence genes included in the VFDB. The 10 other virulence genes of interest were present across all the genomes, but three of these genes had SNP variation associated with particular Brucella melitensis genotypes. SNP variation was also seen within the Israeli genomes obtained from a small geographic region. While the Brucella genome is highly conserved, this novel and large whole genome study of Brucella demonstrates the ability of whole genome and pan-genome analysis to screen multiple genomes and identify SNP variation in both known and novel virulence genes that could be associated with differential disease virulence. Further development of whole genome techniques and linkage with clinical metadata on disease outcomes could shed light on whether such variation in the Brucella genome plays a role in pathogenesis.

Published

2021

2. Long-Read Sequencing and Hybrid Assembly for Genomic Analysis of Clinical Brucella melitensis Isolates

Author

Hillary A. Craddock, Yair Motro, Bar Zilberman, Boris Khalfin, Svetlana Bardenstein, and Jacob Moran-Gilad

Subjects

brucellosis, whole-genome sequencing, clinical genomics, Biology (General), QH301-705.5

Abstract

Brucella melitensis is a key etiological agent of brucellosis and has been increasingly subject to characterization using sequencing methodologies. This study aimed to investigate and compare short-read, long-read, and hybrid assemblies of B. melitensis. Eighteen B. melitensis isolates from Southern Israel were sequenced using Illumina and the Oxford Nanopore (ONP) MinION, and hybrid assemblies were generated with ONP long reads scaffolded on Illumina short reads. Short reads were assembled with INNUca with SPADes, long reads and hybrid with dragonflye. Abricate with the virulence factor database (VFDB) and in silico PCR (for the genes BetB, BPE275, BSPB, manA, mviN, omp19, perA, PrpA, VceC, and ureI) were used for identifying virulence genes, and a total of 61 virulence genes were identified in short-read, long-read, and hybrid assemblies of all 18 isolates. The phylogenetic analysis using long-read assemblies revealed several inconsistencies in cluster assignment as compared to using hybrid and short-read assemblies. Overall, hybrid assembly provided the most comprehensive data, and stand-alone short-read sequencing provided comparable data to stand-alone long-read sequencing regarding virulence genes. For genomic epidemiology studies, stand-alone ONP sequencing may require further refinement in order to be useful in endemic settings.

Published

2022

3. Genomic Epidemiology of Clinical Brucella melitensis Isolates from Southern Israel

Author

Bar Zilberman, Yair Motro, Orli Sagi, David Kornspan, Shalom Ben-Shimol, Michael Gdalevich, Yael Yagel, Nadav Davidovitch, Boris Khalfin, Peter Rabinowitz, Lior Nesher, Itamar Grotto, Svetlana Bardenstein, and Jacob Moran-Gilad

Subjects

zoonosis, Brucella melitensis, WGS, cgMLST, cgSNPs, Biology (General), QH301-705.5

Abstract

Brucellosis, a zoonosis mainly transmitted by consumption of unpasteurized dairy products, is endemic in Southern Israel, mainly among the Bedouin Arab population. However, the genomic epidemiology of B. melitensis in this region has not yet been elucidated. A cohort of brucellosis cases (n = 118) diagnosed between 2017–2019 was studied using whole-genome sequencing (WGS). Phylogenetic analyses utilized core genome MLST (cgMLST) for all local isolates and core genome SNPs for 347 human-associated B. melitensis genomes, including Israeli and publicly available sequences. Israeli isolates formed two main clusters, presenting a notable diversity, with no clear dominance of a specific strain. On a global scale, the Israeli genomes clustered according to their geographical location, in proximity to genomes originating from the Middle East, and formed the largest cluster in the tree, suggesting relatively high conservation. Our study unveils the genomic epidemiology of B. melitensis in Southern Israel, implicating that rather than a common source, the transmission pattern of brucellosis among Bedouin communities is complex, predominantly local, and household-based. Further, genomic surveillance of B. melitensis is expected to inform future public health and veterinary interventions and clinical care.

Published

2022

4. Whole Genome Sequence Analysis of Brucella melitensis Phylogeny and Virulence Factors

Author

Lior Nesher, Bar Zilberman, Yael Yagel, Alexander L. Greninger, Orly Sagi, Jacob Moran-Gilad, Shalom Ben-Shimol, Peter M. Rabinowitz, Marilyn C. Roberts, Svetlana Bardenstein, David Kornspan, Nadav Davidovitch, Michael Gdalevich, and Yair Motro

Subjects

Microbiology (medical), Genetics, Whole genome sequencing, whole genome sequencing, biology, virulence factors, Virulence, Single-nucleotide polymorphism, Brucella, biology.organism_classification, Genome, Microbiology, QR1-502, Brucella melitensis, Phylogenetics, single nucleotide polymorphism, Molecular Biology, Gene, brucellosis/epidemiology

Abstract

Brucellosis has a wide range of clinical severity in humans that remains poorly understood. Whole genome sequencing (WGS) analysis may be able to detect variation in virulence genes. We used Brucella melitensis sequences in the NCBI Sequence Read Archive (SRA) database to assemble 248 whole genomes, and additionally, assembled 27 B. melitensis genomes from samples of human patients in Southern Israel. We searched the 275 assembled genomes for the 43 B. melitensis virulence genes in the Virulence Factors of Pathogenic Bacteria Database (VFDB) and 10 other published putative virulence genes. We explored pan-genome variation across the genomes and in a pilot analysis, explored single nucleotide polymorphism (SNP) variation among the ten putative virulence genes. More than 99% of the genomes had sequences for all Brucella melitensis virulence genes included in the VFDB. The 10 other virulence genes of interest were present across all the genomes, but three of these genes had SNP variation associated with particular Brucella melitensis genotypes. SNP variation was also seen within the Israeli genomes obtained from a small geographic region. While the Brucella genome is highly conserved, this novel and large whole genome study of Brucella demonstrates the ability of whole genome and pan-genome analysis to screen multiple genomes and identify SNP variation in both known and novel virulence genes that could be associated with differential disease virulence. Further development of whole genome techniques and linkage with clinical metadata on disease outcomes could shed light on whether such variation in the Brucella genome plays a role in pathogenesis.

Published

2021

5. Long-Read Sequencing and Hybrid Assembly for Genomic Analysis of Clinical

Author

Hillary A, Craddock, Yair, Motro, Bar, Zilberman, Boris, Khalfin, Svetlana, Bardenstein, and Jacob, Moran-Gilad

Published

2021

6. Genomic Epidemiology of Clinical

Author

Bar, Zilberman, Yair, Motro, Orli, Sagi, David, Kornspan, Shalom, Ben-Shimol, Michael, Gdalevich, Yael, Yagel, Nadav, Davidovitch, Boris, Khalfin, Peter, Rabinowitz, Lior, Nesher, Itamar, Grotto, Svetlana, Bardenstein, and Jacob, Moran-Gilad

Abstract

Brucellosis, a zoonosis mainly transmitted by consumption of unpasteurized dairy products, is endemic in Southern Israel, mainly among the Bedouin Arab population. However, the genomic epidemiology of

Published

2021