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1

Sequence polymorphism in a novel noncoding region of Pacific oyster mitochondrial DNA

100%
Aranishi F., Okimoto T.
Journal of Applied Genetics
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2005
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vol. 46
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issue 2
201-206
EN
Nucleotide sequence polymorphism in a 641-bp novel major noncoding region of mitochondrial DNA (mtDNA-NC) of the Pacific oyster Crassostrea gigas was analysed for 29 cultured individuals within the Goseong population. A total of 30 variable sites were detected, and the relative frequency of nucleotide alteration was determined to be 4.68. Alterations were mostly single nucleotide substitutions. Transition, transversion, both transition and transversion, and both transversion and nucleotide deletion were observed at 18, 9, 2 and 1 sites, respectively. Among 29 specimens, 22 haplotypes were identified, and pairwise genetic diversity of haplotypes was calculated to be 0.988 from multiple sequence substitutions using the two-parameter model. A phylogenetic tree, obtained for haplotypes by the neighbor-joining method, showed a single cluster of linkages. The cluster comprised 11 haplotypes associating with 14 specimens, while the other 11 haplotypes associating with 15 specimens were scattered. This mtDNA-NC presenting a high nucleotide sequence polymorphism is a potential mtDNA control region. It therefore can serve as a genetic marker for intraspecies phylogenetic analysis of the Pacific oyster and is more useful than the less polymorphic mtDNA coding genes.
2

A novel mitochondrial intergenic spacer reflecting population structure of Pacific oyster

100%
Aranishi F.
Journal of Applied Genetics
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2006
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vol. 47
|
issue 2
119-123
EN
Nucleotide sequence divergence in a novel major mitochondrial DNA intergenic spacer (IGS) of Pacific oyster Crassostrea gigas was analyzed for 29 cultured individuals within the Goseong population (Korea). A total of 7 variable sites were detected within the IGS, and the relative frequency of nucleotide alteration was determined to be 1.16%. All alterations were due to a single nucleotide substitution, and 5 transitions and 2 transversions were observed. Among 29 specimens, only 8 haplotypes could be identified, and 6 of the haplotypes were unique to particular specimens. Pairwise genetic diversity of all 8 haplotypes was calculated to be 0.412 ? 0.134 from multiple sequence substitutions based on the two-parameter model. The phylogenetic tree obtained for these haplotypes according to the neighbor-joining method illustrated a single cluster of linkages, which comprised 5 haplotypes associated with 23 specimens, while the other 3 haplotypes associated with 6 specimens were scattered. The results indicate that the IGS is higher polymorphic and thus more suitable as a genetic marker for population structure analysis of Pacific oyster than the mtDNA coding regions, such as cytochrome c oxidase I and 16S ribosomal RNA genes.
3

Use of chromosome walking in discovery of single-nucleotide polymorphism in noncoding regions of a candidate actin gene in Pinus radiata

100%
Li W., Li H., Wu H., Chen X.-Y.
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vol. 51
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issue 3
275-281
EN
Untranslated regions (UTRs) of eukaryotic mRNAs play crucial roles in post-transcriptional regulation of gene expression via the modulation of nucleocytoplasmic mRNA transport, translation efficiency, subcellular localization, and message stability. Single-nucleotide polymorphisms (SNPs) in UTRs of a candidate gene may also change the post-transcriptional regulation of a gene or function by nucleotide mutation. For species that have not been entirely sequenced genomically, new methods need to be devised to discover SNPs in noncoding regions of candidate genes. In this study, based on the expressed sequence tag (EST) of Pinus radiata (Monterey pine), we obtained all the sequences of UTRs of the actin gene by using a chromosome walking method. We also detected all the SNPs in and around the coding region of the actin gene. In this way, the full genomic sequence (2154 bp) of the actin gene was identified, including the 5'UTR, introns, the coding sequence, and the 3'UTR. PCR amplification and DNA fragment sequencing from 200 unrelated P. radiata trees revealed a total of 21 SNPs in the actin gene, of which 3 were located in the 5'UTR, 3 in the introns, 10 in the coding sequence, and 5 in the 3'UTR. We show that chromosome walking can be used for obtaining the sequence of UTRs, and then, based on this sequence, to discover SNPs in the noncoding regions of candidate genes from this species without an entire genomic sequence.
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