Your search keyword '"J. M. Jones"' showing total 7 results

1. The pink salmon genome: Uncovering the genomic consequences of a two-year life cycle

Author

Kris A. Christensen, Eric B. Rondeau, Dionne Sakhrani, Carlo A. Biagi, Hollie Johnson, Jay Joshi, Anne-Marie Flores, Sreeja Leelakumari, Richard Moore, Pawan K. Pandoh, Ruth E. Withler, Terry D. Beacham, Rosalind A. Leggatt, Carolyn M. Tarpey, Lisa W. Seeb, James E. Seeb, Steven J. M. Jones, Robert H. Devlin, and Ben F. Koop

Subjects

Fish Proteins, Male, Chromosome Structure and Function, Canada, Heredity, Reproductive Isolation, Genetic Speciation, Science, Gene Expression, Variant Genotypes, Research and Analysis Methods, Chromosomes, Japan, Rivers, Salmon, Fish Genomics, Genetics, Animals, Molecular Biology Techniques, Molecular Biology, Centromeres, Life Cycle Stages, Multidisciplinary, Heterozygosity, Genome, Pacific Ocean, Polymorphism, Genetic, Whole Genome Sequencing, Chromosome Biology, Reproduction, Gene Mapping, Biology and Life Sciences, Computational Biology, Genomics, Cell Biology, Genome Analysis, Genetic Mapping, Genetics, Population, Haplotypes, Animal Genomics, Medicine, Female, Research Article

Abstract

Pink salmon (Oncorhynchus gorbuscha) adults are the smallest of the five Pacific salmon native to the western Pacific Ocean. Pink salmon are also the most abundant of these species and account for a large proportion of the commercial value of the salmon fishery worldwide. A two-year life history of pink salmon generates temporally isolated populations that spawn either in even-years or odd-years. To uncover the influence of this genetic isolation, reference genome assemblies were generated for each year-class and whole genome re-sequencing data was collected from salmon of both year-classes. The salmon were sampled from six Canadian rivers and one Japanese river. At multiple centromeres we identified peaks of Fst between year-classes that were millions of base-pairs long. The largest Fst peak was also associated with a million base-pair chromosomal polymorphism found in the odd-year genome near a centromere. These Fst peaks may be the result of a centromere drive or a combination of reduced recombination and genetic drift, and they could influence speciation. Other regions of the genome influenced by odd-year and even-year temporal isolation and tentatively under selection were mostly associated with genes related to immune function, organ development/maintenance, and behaviour.

Published

2021

2. Assembly of the Complete Sitka Spruce Chloroplast Genome Using 10X Genomics' GemCode Sequencing Data.

Author

Lauren Coombe, René L Warren, Shaun D Jackman, Chen Yang, Benjamin P Vandervalk, Richard A Moore, Stephen Pleasance, Robin J Coope, Joerg Bohlmann, Robert A Holt, Steven J M Jones, and Inanc Birol

Subjects

Medicine, Science

Abstract

The linked read sequencing library preparation platform by 10X Genomics produces barcoded sequencing libraries, which are subsequently sequenced using the Illumina short read sequencing technology. In this new approach, long fragments of DNA are partitioned into separate micro-reactions, where the same index sequence is incorporated into each of the sequencing fragment inserts derived from a given long fragment. In this study, we exploited this property by using reads from index sequences associated with a large number of reads, to assemble the chloroplast genome of the Sitka spruce tree (Picea sitchensis). Here we report on the first Sitka spruce chloroplast genome assembled exclusively from P. sitchensis genomic libraries prepared using the 10X Genomics protocol. We show that the resulting 124,049 base pair long genome shares high sequence similarity with the related white spruce and Norway spruce chloroplast genomes, but diverges substantially from a previously published P. sitchensis- P. thunbergii chimeric genome. The use of reads from high-frequency indices enabled separation of the nuclear genome reads from that of the chloroplast, which resulted in the simplification of the de Bruijn graphs used at the various stages of assembly.

Published

2016

3. Personalized oncogenomics: clinical experience with malignant peritoneal mesothelioma using whole genome sequencing.

Author

Brandon S Sheffield, Anna V Tinker, Yaoqing Shen, Harry Hwang, Hector H Li-Chang, Erin Pleasance, Carolyn Ch'ng, Amy Lum, Julie Lorette, Yarrow J McConnell, Sophie Sun, Steven J M Jones, Allen M Gown, David G Huntsman, David F Schaeffer, Andrew Churg, Stephen Yip, Janessa Laskin, and Marco A Marra

Subjects

Medicine, Science

Abstract

Peritoneal mesothelioma is a rare and sometimes lethal malignancy that presents a clinical challenge for both diagnosis and management. Recent studies have led to a better understanding of the molecular biology of peritoneal mesothelioma. Translation of the emerging data into better treatments and outcome is needed. From two patients with peritoneal mesothelioma, we derived whole genome sequences, RNA expression profiles, and targeted deep sequencing data. Molecular data were made available for translation into a clinical treatment plan. Treatment responses and outcomes were later examined in the context of molecular findings. Molecular studies presented here provide the first reported whole genome sequences of peritoneal mesothelioma. Mutations in known mesothelioma-related genes NF2, CDKN2A, LATS2, amongst others, were identified. Activation of MET-related signaling pathways was demonstrated in both cases. A hypermutated phenotype was observed in one case (434 vs. 18 single nucleotide variants) and was associated with a favourable outcome despite sarcomatoid histology and multifocal disease. This study represents the first report of whole genome analyses of peritoneal mesothelioma, a key step in the understanding and treatment of this disease.

Published

2015

4. JAGuaR: junction alignments to genome for RNA-seq reads.

Author

Yaron S Butterfield, Maayan Kreitzman, Nina Thiessen, Richard D Corbett, Yisu Li, Johnson Pang, Yussanne P Ma, Steven J M Jones, and İnanç Birol

Subjects

Medicine, Science

Abstract

JAGuaR is an alignment protocol for RNA-seq reads that uses an extended reference to increase alignment sensitivity. It uses BWA to align reads to the genome and reference transcript models (including annotated exon-exon junctions) specifically allowing for the possibility of a single read spanning multiple exons. Reads aligned to the transcript models are then re-mapped on to genomic coordinates, transforming alignments that span multiple exons into large-gapped alignments on the genome. While JAGuaR does not detect novel junctions, we demonstrate how JAGuaR generates fast and accurate transcriptome alignments, which allows for both sensitive and specific SNV calling.

Published

2014

5. Twist1 transcriptional targets in the developing atrio-ventricular canal of the mouse.

Author

Pavle Vrljicak, Rebecca Cullum, Eric Xu, Alex C Y Chang, Elizabeth D Wederell, Mikhail Bilenky, Steven J M Jones, Marco A Marra, Aly Karsan, and Pamela A Hoodless

Subjects

Medicine, Science

Abstract

Malformations of the cardiovascular system are the most common type of birth defect in humans, frequently affecting the formation of valves and septa. During heart valve and septa formation, cells from the atrio-ventricular canal (AVC) and outflow tract (OFT) regions of the heart undergo an epithelial-to-mesenchymal transformation (EMT) and invade the underlying extracellular matrix to give rise to endocardial cushions. Subsequent maturation of newly formed mesenchyme cells leads to thin stress-resistant leaflets. TWIST1 is a basic helix-loop-helix transcription factor expressed in newly formed mesenchyme cells of the AVC and OFT that has been shown to play roles in cell survival, cell proliferation and differentiation. However, the downstream targets of TWIST1 during heart valve formation remain unclear. To identify genes important for heart valve development downstream of TWIST1, we performed global gene expression profiling of AVC, OFT, atria and ventricles of the embryonic day 10.5 mouse heart by tag-sequencing (Tag-seq). Using this resource we identified a novel set of 939 genes, including 123 regulators of transcription, enriched in the valve forming regions of the heart. We compared these genes to a Tag-seq library from the Twist1 null developing valves revealing significant gene expression changes. These changes were consistent with a role of TWIST1 in controlling differentiation of mesenchymal cells following their transformation from endothelium in the mouse. To study the role of TWIST1 at the DNA level we performed chromatin immunoprecipitation and identified novel direct targets of TWIST1 in the developing heart valves. Our findings support a role for TWIST1 in the differentiation of AVC mesenchyme post-EMT in the mouse, and suggest that TWIST1 can exert its function by direct DNA binding to activate valve specific gene expression.

Published

2012

6. A comparison of parallel pyrosequencing and sanger clone-based sequencing and its impact on the characterization of the genetic diversity of HIV-1.

Author

Binhua Liang, Ma Luo, Joel Scott-Herridge, Christina Semeniuk, Mark Mendoza, Rupert Capina, Brent Sheardown, Hezhao Ji, Joshua Kimani, Blake T Ball, Gary Van Domselaar, Morag Graham, Shane Tyler, Steven J M Jones, and Francis A Plummer

Subjects

Medicine, Science

Abstract

Pyrosequencing technology has the potential to rapidly sequence HIV-1 viral quasispecies without requiring the traditional approach of cloning. In this study, we investigated the utility of ultra-deep pyrosequencing to characterize genetic diversity of the HIV-1 gag quasispecies and assessed the possible contribution of pyrosequencing technology in studying HIV-1 biology and evolution.HIV-1 gag gene was amplified from 96 patients using nested PCR. The PCR products were cloned and sequenced using capillary based Sanger fluorescent dideoxy termination sequencing. The same PCR products were also directly sequenced using the 454 pyrosequencing technology. The two sequencing methods were evaluated for their ability to characterize quasispecies variation, and to reveal sites under host immune pressure for their putative functional significance. A total of 14,034 variations were identified by 454 pyrosequencing versus 3,632 variations by Sanger clone-based (SCB) sequencing. 11,050 of these variations were detected only by pyrosequencing. These undetected variations were located in the HIV-1 Gag region which is known to contain putative cytotoxic T lymphocyte (CTL) and neutralizing antibody epitopes, and sites related to virus assembly and packaging. Analysis of the positively selected sites derived by the two sequencing methods identified several differences. All of them were located within the CTL epitope regions.Ultra-deep pyrosequencing has proven to be a powerful tool for characterization of HIV-1 genetic diversity with enhanced sensitivity, efficiency, and accuracy. It also improved reliability of downstream evolutionary and functional analysis of HIV-1 quasispecies.

Published

2011

7. Molecular decoy to the Y-box binding protein-1 suppresses the growth of breast and prostate cancer cells whilst sparing normal cell viability.

Author

Jennifer H Law, Yvonne Li, Karen To, Michelle Wang, Arezoo Astanehe, Karen Lambie, Jaspreet Dhillon, Steven J M Jones, Martin E Gleave, Connie J Eaves, and Sandra E Dunn

Subjects

Medicine, Science

Abstract

The Y-box binding protein-1 (YB-1) is an oncogenic transcription/translation factor that is activated by phosphorylation at S102 whereby it induces the expression of growth promoting genes such as EGFR and HER-2. We recently illustrated by an in vitro kinase assay that a novel peptide to YB-1 was highly phosphorylated by the serine/threonine p90 S6 kinases RSK-1 and RSK-2, and to a lesser degree PKCα and AKT. Herein, we sought to develop this decoy cell permeable peptide (CPP) as a cancer therapeutic. This 9-mer was designed as an interference peptide that would prevent endogenous YB-1(S102) phosphorylation based on molecular docking. In cancer cells, the CPP blocked P-YB-1(S102) and down-regulated both HER-2 and EGFR transcript level and protein expression. Further, the CPP prevented YB-1 from binding to the EGFR promoter in a gel shift assay. Notably, the growth of breast (SUM149, MDA-MB-453, AU565) and prostate (PC3, LNCap) cancer cells was inhibited by ∼90% with the CPP. Further, treatment with this peptide enhanced sensitivity and overcame resistance to trastuzumab in cells expressing amplified HER-2. By contrast, the CPP had no inhibitory effect on the growth of normal immortalized breast epithelial (184htert) cells, primary breast epithelial cells, nor did it inhibit differentiation of hematopoietic progenitors. These data collectively suggest that the CPP is a novel approach to suppressing the growth of cancer cells while sparing normal cells and thereby establishes a proof-of-concept that blocking YB-1 activation is a new course of cancer therapeutics.

Published

2010