Publications (3)4.99 Total impact
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Article: A MicroRNA Repertoire for Functional Genome Research in Rainbow Trout (Oncorhynchus mykiss)
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ABSTRACT: MicroRNAs (miRNAs) are small, highly conserved, non-coding RNAs that regulate gene expression of target mRNAs through cleavage or translational inhibition. miRNAs are most often identified through computational prediction from genome sequences. The rainbow trout genome sequence is not available yet, which does not allow miRNA prediction for this species which is of great economic interest for aquaculture and sport fisheries, and is a model research organism for studies related to carcinogenesis, toxicology, comparative immunology, disease ecology, physiology and nutrition. To identify miRNAs from rainbow trout, we constructed a miRNA library from a pool of nine somatic tissues. Analysis of the library identified 210 unique sequences representing 54 distinct miRNAs; 50 with conserved sequences matching previously identified miRNAs and four novel miRNAs. In addition, 13 miRNAs were computationally predicted from the rainbow trout transcriptome. Real-time PCR was used to measure miRNA expression patterns in adult somatic tissues and unfertilized eggs. The majority of the miRNAs showed characteristic tissue-specific expression patterns suggesting potential roles in maintaining tissue identity. Potential miRNA-target interactions were computationally predicted and single nucleotide polymorphisms (SNPs) were identified in the miRNAs and their target sites in the rainbow trout transcripts. The rainbow trout miRNAs identified and characterized in this study provide a new tool for functional genome research in salmonids. Tissue-specific miRNAs may serve as molecular markers, predictive of specific functional and diagnostic implications. The data on genetic polymorphisms in miRNA-target interactions is particularly useful for rainbow trout breeding programs. KeywordsMicroRNA-Non-coding RNA-Rainbow trout-Functional genomicsMarine Biotechnology 04/2012; 12(4):410-429. · 3.43 Impact Factor -
Article: Cloning and analysis of fetal ovary microRNAs in cattle.
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ABSTRACT: Ovarian folliculogenesis and early embryogenesis are complex processes, which require tightly regulated expression and interaction of a multitude of genes. Small endogenous RNA molecules, termed microRNAs (miRNAs), are involved in the regulation of gene expression during folliculogenesis and early embryonic development. To identify miRNAs in bovine oocytes/ovaries, a bovine fetal ovary miRNA library was constructed. Sequence analysis of random clones from the library identified 679 miRNA sequences, which represent 58 distinct bovine miRNAs. Of these distinct miRNAs, 42 are known bovine miRNAs present in the miRBase database and the remaining 16 miRNAs include 15 new bovine miRNAs that are homologous to miRNAs identified in other species, and one novel miRNA, which does not match any miRNAs in the database. The precursor sequences for 14 of the new 15 miRNAs as well as the novel miRNA were identified from the bovine genome database and their hairpin structures were predicted. Expression analysis of the 58 miRNAs in fetal ovaries in comparison to somatic tissue pools identified 8 miRNAs predominantly expressed in fetal ovaries. Further analysis of the eight miRNAs in germinal vesicle (GV) stage oocytes identified two miRNAs (bta-mir424 and bta-mir-10b), that are highly abundant in GV oocytes. Both miRNAs show similar expression patterns during oocyte maturation and preimplantation development of bovine embryos, being abundant in GV and MII stage oocytes, as well as in early stage embryos (until 16-cell stage). The amount of the novel miRNA is relatively small in oocytes and early cleavage embryos but greater in blastocysts, suggesting a role of this miRNA in blastocyst cell differentiation.Animal reproduction science 03/2010; 120(1-4):16-22. · 1.56 Impact Factor -
Article: A MicroRNA Repertoire for Functional Genome Research in Rainbow Trout (Oncorhynchus mykiss)
[show abstract] [hide abstract]
ABSTRACT: MicroRNAs (miRNAs) are small, highly conserved, non-coding RNAs that regulate gene expression of target mRNAs through cleavage or translational inhibition. miRNAs are most often identified through computational prediction from genome sequences. The rainbow trout genome sequence is not available yet, which does not allow miRNA prediction for this species which is of great economic interest for aquaculture and sport fisheries, and is a model research organism for studies related to carcinogenesis, toxicology, comparative immunology, disease ecology, physiology and nutrition. To identify miRNAs from rainbow trout, we constructed a miRNA library from a pool of nine somatic tissues. Analysis of the library identified 210 unique sequences representing 54 distinct miRNAs; 50 with conserved sequences matching previously identified miRNAs and four novel miRNAs. In addition, 13 miRNAs were computationally predicted from the rainbow trout transcriptome. Real-time PCR was used to measure miRNA expression patterns in adult somatic tissues and unfertilized eggs. The majority of the miRNAs showed characteristic tissue-specific expression patterns suggesting potential roles in maintaining tissue identity. Potential miRNA-target interactions were computationally predicted and single nucleotide polymorphisms (SNPs) were identified in the miRNAs and their target sites in the rainbow trout transcripts. The rainbow trout miRNAs identified and characterized in this study provide a new tool for functional genome research in salmonids. Tissue-specific miRNAs may serve as molecular markers, predictive of specific functional and diagnostic implications. The data on genetic polymorphisms in miRNA-target interactions is particularly useful for rainbow trout breeding programs.
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2010
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West Virginia University
- Division of Animal and Nutritional Sciences
Morgantown, WV, USA
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