Mark Laflamme scite author profile

The increasing use of high-throughput sequencing platforms has made the isolation of pure, high molecular weight DNA a primary concern for studies of a diverse range of organisms. Purification of DNA remains a significant challenge in many tissue and sample types due to various organic and inorganic molecules that coprecipitate with nucleic acids. Molluscs, for example, contain high concentrations of polysaccharides which often coprecipitate with DNA and can inhibit downstream enzymatic reactions. We modified a low-salt CTAB (MoLSC) extraction protocol to accommodate contaminant-rich animal tissues and compared this method to a standard CTAB extraction protocol and two commercially available animal tissue DNA extraction kits using oyster adductor muscle. Comparisons of purity and molecular integrity showed that our in-house protocol yielded genomic DNA generally free of contaminants and shearing, whereas the traditional CTAB method and some of the commercial kits yielded DNA unsuitable for some applications of massively parallel sequencing. Our open-source MoLSC protocol provides a cost-effective, scalable, alternative DNA extraction method that can be easily optimized and adapted for sequencing applications in other contaminant-rich samples.

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Seascape genomics of eastern oyster (Crassostrea virginica) along the Atlantic coast of Canada

Bernatchez

Xuereb

Laporte

et al. 2018

Evolutionary Applications

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Interactions between environmental factors and complex life‐history characteristics of marine organisms produce the genetic diversity and structure observed within species. Our main goal was to test for genetic differentiation among eastern oyster populations from the coastal region of Canadian Maritimes against expected genetic homogeneity caused by historical events, taking into account spatial and environmental (temperature, salinity, turbidity) variation. This was achieved by genotyping 486 individuals originating from 13 locations using RADSeq. A total of 11,321 filtered SNPs were used in a combination of population genomics and environmental association analyses. We revealed significant neutral genetic differentiation (mean F ST = 0.009) between sampling locations, and the occurrence of six major genetic clusters within the studied system. Redundancy analyses (RDAs) revealed that spatial and environmental variables explained 3.1% and 4.9% of the neutral genetic variation and 38.6% and 12.2% of the putatively adaptive genetic variation, respectively. These results indicate that these environmental factors play a role in the distribution of both neutral and putatively adaptive genetic diversity in the system. Moreover, polygenic selection was suggested by genotype–environment association analysis and significant correlations between additive polygenic scores and temperature and salinity. We discuss our results in the context of their conservation and management implications for the eastern oyster.

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Human Pax-5 C-terminal Isoforms Possess Distinct Transactivation Properties and Are Differentially Modulated in Normal and Malignant B Cells

Robichaud

Nardini

Laflamme

et al. 2004

Journal of Biological Chemistry

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The transcription factor Pax-5 occupies a central role in B cell differentiation and has been implicated in the development of B cell lymphoma. The transcriptional activation function of Pax-5 requires an intact N-terminal DNA-binding domain and is strongly influenced by the C-terminal transactivation domain. We report the identification and characterization of five human Pax-5 isoforms, which occur through the alternative splicing of exons that encode for the C-terminal transactivation domain. These isoforms arise from the inclusion or exclusion of exon 7, exon 8, and/or exon 9. Three of the Pax-5 isoforms generate novel protein sequences rich in proline, serine, and threonine amino acids that are the hallmarks of transactivation domains. The Pax-5 isoforms are expressed in peripheral blood mononuclear cells, cancerous and non-cancerous B cell lines, as well as in primary B cell lymphoma tissue. Electrophoretic mobility shift assays demonstrate that the isoforms possess specific DNA binding activity and recognize the PAX-5 consensus binding sites. In reporter assays using the CD19 promoter, the transactivation properties of the various isoforms were significantly influenced by the changes in the C-terminal protein sequence. Finally, we demonstrate, for the first time, that human Pax-5 isoform expression is modulated by specific signaling pathways in B lymphocytes.

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Fuzzy J-Means and VNS methods for clustering genes from microarray data

Belacel¹,

Čuperlović-Culf²,

Laflamme³

et al. 2004

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Novel 5‐lipoxygenase isoforms affect the biosynthesis of 5‐lipoxygenase products

et al. 2010

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5-Lipoxygenase (5-LO) is the essential enzyme for the biosynthesis of leukotrienes, important mediators of inflammation. This study investigated whether variants of 5-LO exist in human leukocytes. 5-LO mRNA isoforms that are consistent with alternative splicing were identified by RT-PCR in a cell line or cell type-specific pattern. All evaluated cells expressed mRNA containing all 14 exons of 5-LO with the expected splicing sites. Individual isoforms that retained intron 10 (α-10), lacked exon 13 (Δ-13), and lacked exons 10 and 13 (Δ-10,13) or that lacked the first 96 base pairs of exon 10 (Δ-p10) were identified. Immunoreactive bands coeluting with the cloned α-10 and Δ-13 isoforms were measured in primary neutrophils and in Raji cells. When expressed in HEK293 cells, alternative proteins were without catalytic activity. However, when coexpressed with the active full-length 5-LO, alternative isoforms significantly decreased the biosynthesis of 5-LO products by up to 44%, as assessed by reverse-phase HPLC analysis. Additionally, in stimulated neutrophils the full-length active 5-LO was detected by immunoblot in both nuclear and non-nuclear compartments, while the Δ-13 isoform was only detected in the nuclear fraction. These alternative 5-LO isoforms may represent a new mechanism for the regulation of the 5-LO pathway and lipid mediator biosynthesis.

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Mark Laflamme

Modified low‐salt CTAB extraction of high‐quality DNA from contaminant‐rich tissues

Seascape genomics of eastern oyster (Crassostrea virginica) along the Atlantic coast of Canada

Human Pax-5 C-terminal Isoforms Possess Distinct Transactivation Properties and Are Differentially Modulated in Normal and Malignant B Cells

Fuzzy J-Means and VNS methods for clustering genes from microarray data

Novel 5‐lipoxygenase isoforms affect the biosynthesis of 5‐lipoxygenase products

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