Single nucleotide polymorphisms in randomly selected genes among japonica rice (Oryza sativa L.) varieties identified by PCR-RF-SSCP.

DNA polymorphism of randomly selected genes in rice cultivars was analyzed by the polymerase chain reaction-restriction fragment-single strand conformation polymorphism (PCR-RF-SSCP) technique. Single DNA fragments were amplified from genomic DNA of the Nipponbare cultivar by 671 primer pairs among the 1000 primer pairs tested. PCR-RF-SSCP analysis using the 671 primer pairs detected polymorphism in 108 DNA fragments between 17 japonica paddy-rice cultivars. An average of 36.9 DNA fragments showed polymorphism between any pair of japonica paddy-rice cultivars. The nucleotide sequences of the polymorphic DNA fragments were determined for 50 alleles of 45 genes together with Nipponbare alleles. In these genes, 142 SNPs and 32 insertions/deletions were identified. Among these 174 sequence variations, 71 were in exons, 78 in introns, and 25 in unassigned regions. There were 28 alleles which had sequence variations in the exons. One allele had a 1-bp deletion in the exon causing a frame-shift mutation, 15 alleles had missense mutations, and the other 12 alleles had synonymous changes and/or sequence variations in 3' untranslated regions. The number of genes having sequence variations between the rice cultivars and the functional implications of the identified SNPs are herein discussed.     

PCR-free method detects high frequency of genomic instability in prostate cancer

Most studies of tumor instability are PCR-based. PCR-based methods may underestimate mutation frequencies of heterogeneous tumor genomes. Using a novel PCR-free random cloning/sequencing method, we analyzed 100 kb of total genomic DNA from blood lymphocytes, normal prostate and tumor prostate taken from six individuals. Variations were identified by comparison of the sequence of the cloned fragments with the nr-database in Genbank. After excluding known polymorphisms (by comparison to the NCBI dbSNP), we report a significant over-representation of variants in the tumors: 0.66 variations per kilobase of sequence, compared with the corresponding normal prostates (0.14 variations/kb) or blood (0.09 variations/kb). Extrapolating the observed difference between tumor and normal prostate DNA, we estimate 1.8 million somatic (de novo) alterations per tumor cell genome, a much higher frequency than previous measurements obtained by mostly PCR-based methods in other tumor types. Moreover, unlike the normal prostate and blood, most of the tumor variations occur in a specific motif (P = 0.046), suggesting common etiology. We further report high tumor cell-to-cell heterogeneity. These data have important implications for selecting appropriate technologies for cancer genome projects as well as for understanding prostate cancer progression.     

Characterization of a novel human breast cancer associated gene (BCA3) encoding an alternatively spliced proline-rich protein

As part of an integrated study of breast cancer gene expression, partial cDNAs were cloned from normal and tumor breast cells by subtractive-hybridization and differential display cloning. The DNA sequence for one of these breast cancer associated genes was used to construct the larger 1319 bp BCA3 cDNA sequence using ESTs without assigned names or functions. High-level BCA3 mRNA expression was found in breast and prostate tumor cell lines whereas normal breast and prostate tissues have low-level expression. Further analysis revealed possible functional domains and alternative splicing of BCA3 that we confirmed by RT-PCR analysis. Immunohistochemistry revealed that the protein is expressed in breast tumor cells in vivo, and not in surrounding stromal tissue.     

Identification of 129S6/SvEvTac-specific polymorphisms on mouse chromosome 11

Polymorphisms such as single-nucleotide polymorphisms (SNPs) and insertions/deletions (Indels) can be associated with phenotypic traits and be used as markers for disease diagnosis. Identification of these genetic variations within laboratory mice is crucial to improve our understanding of the genetic background of the mice used for research. As part of a positional cloning project, we sequenced six genes (Mettl16, Evi2a, Psmd11, Cct6d, Rffl, and Ap2b1) within a 6.8-Mb domain of mmu chr 11 in the C57BL/6J and 129S6/SvEvTac inbred strains. Although 129S6/SvEvTac is widely used in the mouse community, there is very little current (or projected future) sequence information available for this strain. We identified 6 Indels and 21 novel SNPs and confirmed genotype information for 114 additional SNPs in these 6 genes. Mettl16 and Ap2b1 contained the largest numbers of variants between the C57BL/6J and 129S6/SvEvTac strains. In addition, we found five new SNPs between 129S6/SvEvTac and 129S1/SvImJ within the Ap2b1 locus. Although we did not detect differences between C57BL/6J and 129S6/SvEvTac within Evi2a, this locus contains a relatively high SNP density compared with the surrounding sequence. Our study highlights the genetic differences among three inbred mouse strains (C57BL/6J, 129S6/SvEvTac, and 129S1/SvImJ) and provides valuable sequence information that can be used to track alleles in genomics-based studies.     

Genome analysis of the domestic dog (Korean Jindo) by massively parallel sequencing

Although pioneering sequencing projects have shed light on the boxer and poodle genomes, a number of challenges need to be met before the sequencing and annotation of the dog genome can be considered complete. Here, we present the DNA sequence of the Jindo dog genome, sequenced to 45-fold average coverage using Illumina massively parallel sequencing technology. A comparison of the sequence to the reference boxer genome led to the identification of 4 675 437 single nucleotide polymorphisms (SNPs, including 3 346 058 novel SNPs), 71 642 indels and 8131 structural variations. Of these, 339 non-synonymous SNPs and 3 indels are located within coding sequences (CDS). In particular, 3 non-synonymous SNPs and a 26-bp deletion occur in the TCOF1 locus, implying that the difference observed in cranial facial morphology between Jindo and boxer dogs might be influenced by those variations. Through the annotation of the Jindo olfactory receptor gene family, we found 2 unique olfactory receptor genes and 236 olfactory receptor genes harbouring non-synonymous homozygous SNPs that are likely to affect smelling capability. In addition, we determined the DNA sequence of the Jindo dog mitochondrial genome and identified Jindo dog-specific mtDNA genotypes. This Jindo genome data upgrade our understanding of dog genomic architecture and will be a very valuable resource for investigating not only dog genetics and genomics but also human and dog disease genetics and comparative genomics.     

Fluorescence detection of single nucleotide polymorphisms using nucleic acid probe containing tricyclic base-linked acyclonucleoside

A reliable and simple method for detecting nucleobase mutations is very important clinically because sequence variations in human DNA cause genetic diseases and genetically influenced traits. A majority of sequence variations are attributed to single nucleotide polymorphisms (SNPs). Here, we developed a method for SNP detection using DNA probes that contained a fluorescent tricyclic base-linked acyclonucleoside N. The type of nucleobases involved in the SNP sites in an RNA target could be determined using four DNA probes containing N. Further, we found that the SNP in the RNA target could be detected by a visible color. Thus, this system would provide a novel and simple method for detecting SNPs in an RNA target.     

Analysis of candidate genes for prostate cancer

Considerable evidence demonstrates that genetic factors are important in the development and aggressiveness of prostate cancer. To identify genetic variants that predispose to prostate cancer we tested candidate SNPs from genomic regions that show linkage to prostate cancer susceptibility and/or aggressiveness, as well as genes that show a significant difference in mRNA expression level between tumor and normal tissue. Cases had histologically verified prostate cancer. Controls were at least 65 years old, never registered a PSA above 2.5 ng/ml, always had digital rectal examinations that were not suspicious for cancer, and have no known family history of prostate cancer. Thirty-nine coding SNPs and nine non-coding SNPs were tested in up to 590 cases and 556 controls resulting in over 40,000 SNP genotypes. Significant differences in allele frequencies between cases and controls were observed for ID3 (inhibitor of DNA binding), p = 0.05, HPN (hepsin), p = 0.009, BCAS1 (breast carcinoma amplified sequence 1), p = 0.007, CAV2 (caveolin 2), p = 0.007, EMP3 (epithelial membrane protein 3), p < 0.0001, and MLH1 (mutL homolog 1), p < 0.0001. SNPs in three of these genes (BCAS1, EMP3 and MLH1) remained significant in an age-matched subsample.     

Activation of human raf transforming genes by deletion of normal amino-terminal coding sequences.

Three activated cellular raf genes have been detected by transfection of NIH 3T3 cells with human tumor DNAs. Blot hybridization analysis indicated that all three transforming raf genes had recombined with non-raf sequences in the vicinity of raf exon 7-intron 7, resulting in the deletion of about 40% of the normal coding sequence from the raf amino terminus. By cloning sequences upstream of the truncated raf loci we have shown that the rearrangements involve the fusion of three different 5' non-raf human sequences to the human raf gene. No rearrangements could be detected in the raf loci of the three original human tumor DNAs, suggesting that the raf genes were activated by DNA rearrangements occurring during transfection. Significant overexpression of raf mRNA was not evident in two of the three transformant lines, indicating that raf overexpression is not necessary and 5' truncation alone may be sufficient to activate the transforming potential of cellular raf genes.     

Somatic mutations in stilbene estrogen-induced Syrian hamster kidney tumors identified by DNA fingerprinting

Kidney tumors from stilbene estrogen (diethylstilbestrol)-treated Syrian hamsters were screened for somatic genetic alterations by Random Amplified Polymorphic DNA-polymerase chain-reaction (RAPD-PCR) fingerprinting. Fingerprints from tumor tissue were generated by single arbitrary primers and compared with fingerprints for normal tissue from the same animal, as well as normal and tumor tissues from different animals. Sixty one of the arbitrary primers amplified 365 loci that contain approximately 476 kbp of the hamster genome. Among these amplified DNA fragments, 44 loci exhibited either qualitative or quantitative differences between the tumor tissues and normal kidney tissues. RAPD-PCR loci showing decreased and increased intensities in tumor tissue DNA relative to control DNA indicate that loci have undergone allelic losses and gains, respectively, in the stilbene estrogen-induced tumor cell genome. The presence or absence of the amplified DNA fragments indicate homozygous insertions or deletions in the kidney tumor DNA compared to the age-matched normal kidney tissue DNA. Seven of 44 mutated loci also were present in the kidney tissues adjacent to tumors (free of macroscopic tumors). The presence of mutated loci in uninvolved (non-tumor) surrounding tissue adjacent to tumors from stilbene estrogen-treated hamsters suggests that these mutations occurred in the early stages of carcinogenesis. The cloning and sequencing of RAPD amplified loci revealed that one mutated locus had significant sequence similarity with the hamster Cyp1A1 gene. The results show the ability of RAPD-PCR to detect and isolate, in a single step, DNA sequences representing genetic alterations in stilbene estrogen-induced cancer cells, including losses of heterozygosity, and homozygous deletion and insertion mutations. RAPD-PCR provides an alternative molecular approach for studying cancer cytogenetics in stilbene estrogen-induced tumors in humans and experimental models. Although the exact functional importance of mutated loci is unknown, this study indicates that these altered loci may participate during tumor progression in the kidney.     

Genetic mapping of the wheat dimeric α-amylase inhibitor multi-gene family using allele-specific primers based on intergenomic SNPs

Single nucleotide polymorphisms (SNPs) identified in EST sequences can be used to map expressed genes. Though SNPs are useful markers for genetic mapping, SNP mapping of genes in common wheat is challenging because the genetic complement of wheat consists of three closely related genomes (designated A, B, and D), and most genes are present in triplicate sets. Mapping multi-gene family members is further complicated by the fact that it is difficult to distinguish SNP differences between the various paralogs from those between the different genomes. We have developed a PCR-based method for assigning wheat EST sequences to their proper genetic loci by first identifying and mapping SNPs that distinguish the three genomes. To develop this method, we focused on EST sequences encoding the dimeric α-amylase inhibitors (WDAI), The WDAI coding regions of hexaploid wheat were aligned. The sequences were classified into three groups based on nucleotide variations. Twenty-two SNPs were identified that distinguish the three groups. Group-specific primers based on these SNPs were designed to permit selective amplification of each group. The chromosomal location of each group was then determined using Group 3 ditelosomic lines of Chinese Spring. Groups 1 and 2 were assigned to chromosome locations 3DS and 3BS, respectively, whereas no sequence could be assigned to 3AS. A remarkable feature of this method is the ability to discriminate the location of homoeologous multigenes in the three genomes of wheat. This strategy can be useful for assigning unknown wheat EST sequences to specific chromosomes.     

水稻单核苷酸多态性及其应用现状

单核苷酸多态性（single nucleotide polymorphisms, SNPs）在水稻中数量多,分布密度高,遗传稳定性高。水稻SNPs的发现方法主要有对样本DNA的PCR产物直接测序、从SSR区段检测SNPs和从基因组序列直接搜索等。目前已有多种基因分型技术运用到了水稻SNPs检测,SNPs检测的高度自动化使水稻SNPs基因分型非常方便。单核苷酸多态性在水稻遗传图谱的构建、基因克隆和功能基因组学研究、标记辅助选择育种、遗传资源分类及物种进化等方面的应用具有巨大潜力。     

Nucleic acid probe containing fluorescent tricyclic base-linked acyclonucleoside for detection of single nucleotide polymorphisms

The development of a reliable and simple method for detecting single nucleotide polymorphisms (SNPs), common genetic variations in the human genome, is currently an important research area because SNPs are important for identifying disease-causing genes and for pharmacogenetic studies. Here, we developed a novel method for SNP detection. We designed and synthesized DNA probes containing a fluorescent tricyclic base-linked acyclonucleoside P. The type of nucleobases involved in the SNP sites in the DNA and RNA targets could be determined using four DNA probes containing P. Thus, this system would provide a novel and simple method for detecting SNPs in DNA and RNA targets.     

A new, rapid and simple procedure for direct cloning of PCR products into baculoviruses.

We propose a novel method for direct cloning of foreign genes into baculoviruses which avoids the use of bacterial transfer vectors. The foreign gene to be inserted is derived by PCR using appropriate primers each of which contains an additional 50 nt of baculovirus sequence for homologous recombination between the PCR-derived DNA and the baculovirus DNA, thus accomplishing insertion of the foreign gene into the baculovirus. The direct cloning of green fluorescent protein and beta-glucuronidase in different baculovirus loci is described. The method is simple and avoids the use of cumbersome techniques associated with enzymatic treatment and DNA purification.     

LITAF、RAB7、LMNA和MTMR2基因在中国人腓骨肌萎缩症患者的突变分析

为了分析LITAF、RAB7、LMNA和MTMR2基因在中国人腓骨肌萎缩症(Charcot-Marie-Tooth disease, CMT)的突变特点, 文章分别应用PCR结合DNA序列分析方法和PCR-单链构象多态性(PCR-SSCP)结合DNA序列分析方法对6个常染色体显性遗传家系先证者和27个散发病例进行LITAF和RAB7基因突变分析; 应用PCR-SSCP结合DNA序列分析方法对14个常染色体遗传的CMT家系先证者和27个散发患者进行LMNA和MTMR2基因突变分析。结果发现: LITAF基因c.269G→A、c.274A→G序列变异和LMNA基因c.1243G→A、c.1910C→T序列变异, 未发现RAB7和MTMR2基因的序列变异。其中LITAF基因c.269G→A、LMNA基因c.1243G→A和c.1910C→T为新发现的单核苷酸多态; LITAF基因c.274A→G为已知多态。说明LITAF、RAB7、LMNA和MTMR2基因突变在中国人CMT患者中罕见。     

Differential screening of phage-ab libraries by oligonucleotide microarray technology

A novel and efficient tagArray technology was developed that allows rapid identification of antibodies which bind to receptors with a specific expression profile, in the absence of biological information. This method is based on the cloning of a specific, short nucleotide sequence (tag) in the phagemid coding for each phage-displayed antibody fragment (phage-Ab) present in a library. In order to set up and validate the method we identified about 10,000 different phage-Abs binding to receptors expressed in their native form on the cell surface (10 k Membranome collection) and tagged each individual phage-Ab. The frequency of each phage-Ab in a given population can at this point be inferred by measuring the frequency of its associated tag sequence through standard DNA hybridization methods. Using tiny amounts of biological samples we identified phage-Abs binding to receptors preferentially expressed on primary tumor cells rather than on cells obtained from matched normal tissues. These antibodies inhibited cell proliferation in vitro and tumor development in vivo, thus representing therapeutic lead candidates.     

Techniques de recherche des polymorphismes génétiques

Sequencing the human genome has allowed the discovery of millions of DNA sequence variants. Sequence variations in human DNA are mainly present asSingle Nucleotide Polymorphisms (SNPs); this common form of variation is found about once every 1,000 bases in the human genome and 1.8 million SNPs have now been identified and located. The accessibility of databases of SNPs opens the possibility of studying the influence of these polymorphisms on disease risks as well as on drug responses. Numerous approaches have been set up for the identification of SNPs. In this review we describe the main techniques used for the identification of these polymorphisms. They rely on two major consequences of sequence variations: the apparition or the disappearance of restriction enzyme sites or the alteration of DNA strand hybridization due to the presence of a mismatch. Southern blotting and restriction endonucleases have allowed the development of the technique ofrestriction fragment length polymorphisms (RFLPs), now performed on PCR products. Several other approaches such as denaturing high-performance liquid chromatography or real-time PCR can detect allele differences upon re-hybridization and heteroduplex formation. However, DNA sequencing remains the obligate step for the positive identification of known or unknown SNPs. At last, the development of high-throughput methods allows a large increase in the rate of discovery of SNPs likely.