Isolation of single-stranded DNA from loop-mediated isothermal amplification products.

Loop-mediated isothermal amplification (LAMP), in which a specific DNA sequence can be directly amplified under isothermal conditions, yields DNA in large quantities of more than 500 microg/ml. We have developed a method to isolate single-stranded DNA fragments from LAMP products that are stem-loop DNAs with several inverted repeats of the target DNA. This method requires the TspRI restriction enzyme, a primer hybridized to the 3' overhanging sequence at its cleavage site, and a DNA polymerase with strand displacement activity. The LAMP products are digested with TspRI and are then extended using the primer, producing the strand-specific DNA fragments. All processes, from LAMP reaction to primer extension, can be carried out at the same temperature. The use of strand-specific DNA would be conducive for detection by hybridization technique such as DNA microarrays.     

The development and evaluation of consensus chloroplast primer pairs that possess highly variable sequence regions in a diverse array of plant taxa

Although universal or consensus chloroplast primers are available, they are limited by their number and genomic distribution. Therefore, a set of consensus chloroplast primer pairs for simple sequence repeats (ccSSRs) analysis was constructed from tobacco (Nicotiana tabacum L.) chloroplast sequences. These were then tested for their general utility in the genetic analysis of a diverse array of plant taxa. In order to increase the number of ccSSRs beyond that previously reported, the target sequences for SSR motifs was set at A or T (n 7) mononucleotide repeats. Each SSR sequence motif, along with ±200-bp flanking sequences from the first of each mononucleotide base repeat, was screened for homologies with chloroplast DNA sequences of other plant species in GenBank databases using BLAST search procedures. Twenty three putative marker loci that possessed conserved flanking sequence spans were selected for consensus primer pair construction using commercially available computer algorithms. All primer pairs produced amplicons after PCR employing genomic DNA from members of the Cucurbitaceae (six species) and Solanaceae (four species). Sixteen, 22 and 19 of the initial 23 primer pairs were successively amplified by PCR using template DNA from species of the Apiaceae (two species), Brassicaceae (one species) and Fabaceae (two species), respectively. Twenty of 23 primer pairs were also functional in three monocot species of the Liliaceae [onion (Allium cepa L.) and garlic (Allium sativum L.)], and the Poaceae [oat (Avena sativa L.)]. Sequence analysis of selected ccSSR fragments suggests that ccSSR length and sequence variation could be useful as a tool for investigating the genetic relationships within a genus or closely related taxa (i.e., tribal level). In order to provide for a marker system having significant coverage of the cucumber chloroplast genome, ccSSR primers were strategically "recombined" and named recombined consensus chloroplast primers (RCCP) for PCR analysis. Successful amplification after extended-length PCR of 16 RCCP primer pairs from cucumber (Cucumis sativus L.) DNA suggested that the amplicons detected are representative of the cucumber chloroplast genome. These RCCP pairs, therefore, could be useful as an initial molecular tool for investigation of traits related to a chloroplast gene(s) in cucumber, and other closely related species.Communicated by C. Möllers     

Conservation of the syntenies between porcine chromosome 7 and human chromosomes 6, 14 and 15 demonstrated by radiation hybrid mapping and linkage analysis

Comparative mapping studies facilitate the identification of genes located in quantitative trait locus (QTL) regions in domestic animals by utilizing information from the human genome. Radiation hybrid (RH) mapping is effective for this purpose because of its high resolution in ordered gene mapping on chromosomes. We constructed an RH map of pig chromosome 7, by adding 23 markers associated with genes. This RH map clearly demonstrated the mosaic of homology between pig chromosome 7 (SSC7) and human chromosomes 6, 14 and 15 at a 'gene' level, and was confirmed by linkage analysis. Clarification of the homology of SSC7 to human chromosomes will contribute to the elucidation of the gene(s) responsible for QTL detected on this chromosome.     

BAC/YAC contigs from the H2-M region of mouse Chr 17 define gene order as Znf173-Tctex5-Mog-D17Tu42-M3-M2

 A yeast artificial chromosome (YAC) contig from the C57BL/6 (H2 ^b ) mouse was created from the major histocompatibility complex (Mhc, H2 in mouse) class Ib subregion, H2-M. It spans approximately 1.2 megabase (Mb) pairs and unites the previous >1.5-Mb YAC contigs (Jones et al. 1995) into a single contig, which includes 21 Mhc class I genes distal to H2-T1. A bacterial artificial chromosome (BAC) contig from the 129 (H2 ^bc ) mouse, spanning approximately 600 kilobases, was also built from Znf173 (Afp, a gene for acid finger protein), through Tctex5 (t-complex testis expressed-5) and Mog (myelin oligodendrocyte glycoprotein), to H2-M2. Twenty-four sequence-tagged site (STS) markers were newly developed, and 35 markers were mapped in the YAC/BAC contigs, which define the marker order as Cen –Znf173–Tctex5 – Mog–D17Tu42–D17Mit232–H2-M3–D17Leh525–H2-M2– Tel. The gene order of Znf173 – Tctex5 – Mog – D17Tu42 is conserved between mouse and human, showing that the middle H2-M region corresponds to the subregion of the human Mhc surrounding HLA-A. Received: 25 July 1997 / Revised: 10 September 1997     

PCR-SSP技术对广东汉族人HLA-DR基因分型

探索具有高分辨率、高特异性和简捷快速的方法对ＨＬＡ－ＤＲ基因分型,为临床器官移植配型和疾病相关性分析提供实用的方法和基础资料．利用ＤＲ１～ＤＲｗ１８序列特异性的１９组引物及１对内参照引物进行ＰＣＲ扩增即ＰＣＲ－ＳＳＰ对ＨＬＡ－ＤＲ进行基因分型,扩增产物经琼脂糖凝胶电泳,溴乙锭染色,在紫外光下观察分型结果．每个被检个体的ＤＲ型别可由特异引物扩增出现的电泳谱带直接判断．双盲检测２２例的结果１００％正确．在１０２例中国广东地区汉族人中,ＤＲ９和ＤＲ２的基因频率最高,分别为０．２２０５和０．１９１２,ＤＲ１０为最低（０．００９８）．与用ＰＣＲ－ＳＳＯ方法分型获得的结果比较,基因型别分布基本一致,但一些等位基因的频率有差异,表明ＨＬＡ－ＤＲ基因频率的分布在不同地区、不同种族的人群间存在着差异．ＰＣＲ－ＳＳＰ法分辨率和特异性虽不及ＰＣＲ－ＳＳＯ法但比血清学方法精细,分型的全过程只需２～４ｈ能满足临床器官移植配型的要求．基因频率调查结果为器官移植配型和疾病相关性分析提供了基础资料．     

用万能引物PCR法从YAC中分离制备荧光原位杂交探针的研究

报道了一种从微量且未知碱基顺序的YAC DNA中制备FISH探针的新方法——万能引物PCR(UP PCR),即把复性后的UP-Linker连接于PFGE分离后经Alu Ⅰ酶切的YAC DNA上,再用UP对其进行PCR扩增和标记。由于Alu Ⅰ的广谱性和UP与Linker长度不同等,使该法能根据PCR效率调节扩增产物的广泛性向特异性的转变,且产物能覆盖YAC嵌入DNA的全长。此法制备的人21号染色体FISH探针,特异性强,杂交信号明亮,21号染色体的检出率高。该法稳定简便。