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ABSTRACT: Standard protocols aimed at identifying subclones of interest from bacterial artificial chromosomes (BACs) include the use of hybridization methods that are time consuming and often require the use of radioactive isotopes. Through our efforts to identify microsatellites in BACs from rainbow trout (Oncorhynchus mykiss) we have developed a nonradioactive polymerase chain reaction (PCR)-based screening technique to select microsatellites containing subclones for marker development. Two BACs were subcloned and screened by PCR using a vector-specific primer and a mix of microsatellite repeat primers. The subclones were then sequenced to evaluate the efficiency of the PCR screening method. Correlation between positive PCR amplification and presence of microsatellites varied between the two BACs (21.9% and 71.4%), but still a sufficient number of subclones were identified to enable design and optimization of microsatellite markers.
Marine Biotechnology 04/2012; 8(4):346-50. · 3.43 Impact Factor
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ABSTRACT: Gene duplication, silencing and translocation have all been implicated in shaping the unique genomic architecture of the teleost MH regions. Previously, we demonstrated that trout possess five unlinked regions encoding MH genes. One of these regions harbors ABCB2 which in all other vertebrate classes is found in the MHC class II region. In this study, we sequenced a BAC contig for the trout ABCB2 region. Analysis of this region revealed the presence of genes homologous to those located in the human class II (ABCB2, BRD2, psiDAA), extended class II (RGL2, PHF1, SYGP1) and class III (PBX2, Notch-L) regions. The organization and syntenic relationships of this region were then compared to similar regions in humans, Tetraodon and zebrafish to learn more about the evolutionary history of this region. Our analysis indicates that this region was generated during the teleost-specific duplication event while also providing insight about potential MH paralogous regions in teleosts.
Developmental & Comparative Immunology 02/2007; 31(5):483-98. · 3.27 Impact Factor
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Animal Genetics 01/2007; 37(6):597-8. · 2.40 Impact Factor
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ABSTRACT: Antiviral immunity in fish is not well understood. In mammals, Toll-like receptor (TLR) 3 is involved in double-stranded RNA recognition and host immune response activation. Here, we report the first identification of a rainbow trout TLR3 ortholog (rtTLR3), its genomic structure, and mRNA regulation. Six exons and five introns were identified from bacterial artificial chromosome (BAC) and expressed sequence tag (EST) sequencing, and this genomic organization is similar to mammalian and fish TLR3 genes. The putative 913 amino acid protein has a Toll/interleukin (IL)-1R (TIR) domain, a transmembrane domain, and leucine-rich repeats. In healthy trout, rtTLR3 is highly expressed in the liver, pyloric ceca, intestine, spleen, and anterior and trunk kidney tissues. To investigate whether rtTLR3 is involved in antiviral immunity, transcriptional regulation in vivo was examined by quantitative real-time polymerase chain reaction (PCR) after poly inosinic:cytidylic (I:C) and infectious hematopoietic necrosis virus (IHNV) treatments. TLR3 mRNA expression peaked 1 day after poly (I:C) injection of live animals, while the peak of gene expression after live IHNV challenge was observed on day 3. In vitro stimulation of rainbow trout anterior kidney leukocytes with poly (I:C) also enhanced rtTLR3 expression. Up-regulation was specific to viral challenge as there was no significant up-regulation of rtTLR3 mRNA levels in the spleen and a modest down-regulation in the anterior kidney after bath challenge with a gram-negative bacterial trout pathogen, Yersinia ruckeri. The sequence conservation of trout TLR3 and mRNA regulation after poly (I:C) or RNA virus exposures strongly suggest a role for trout TLR3 in antiviral immunity.
Immunogenetics 09/2005; 57(7):510-9. · 2.93 Impact Factor
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ABSTRACT: Gene duplication, silencing and translocation have all been implicated in shaping the unique genomic architecture of the teleost MH regions. Previously, we demonstrated that trout possess five unlinked regions encoding MH genes. One of these regions harbors ABCB2 which in all other vertebrate classes is found in the MHC class II region. In this study, we sequenced a BAC contig for the trout ABCB2 region. Analysis of this region revealed the presence of genes homologous to those located in the human class II (ABCB2, BRD2, ψDAA), extended class II (RGL2, PHF1, SYGP1) and class III (PBX2, Notch-L) regions. The organization and syntenic relationships of this region were then compared to similar regions in humans, Tetraodon and zebrafish to learn more about the evolutionary history of this region. Our analysis indicates that this region was generated during the teleost-specific duplication event while also providing insight about potential MH paralogous regions in teleosts.
Developmental & Comparative Immunology.
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[show abstract]
[hide abstract]
ABSTRACT: Standard protocols aimed at identifying subclones of interest from bacterial artificial chromosomes (BACs) include the use of hybridization methods that are time consuming and often require the use of radioactive isotopes. Through our efforts to identify microsatellites in BACs from rainbow trout (Oncorhynchus mykiss) we have developed a nonradioactive polymerase chain reaction (PCR)-based screening technique to select microsatellites containing subclones for marker development. Two BACs were subcloned and screened by PCR using a vector-specific primer and a mix of microsatellite repeat primers. The subclones were then sequenced to evaluate the efficiency of the PCR screening method. Correlation between positive PCR amplification and presence of microsatellites varied between the two BACs (21.9% and 71.4%), but still a sufficient number of subclones were identified to enable design and optimization of microsatellite markers.
