Development of a SCAR marker and a strain‐specific genomic marker for the detection of the biocontrol agent strain CPA‐8 Bacillus amyloliquefaciens (formerly B. subtilis)

In this work, reliable tools were developed to detect and identify the biocontrol strain CPA‐8 using DNA amplification techniques. As a first approach, the RAPD (random amplified polymorphic DNA) technique was applied to a collection of 77 related Bacillus species. Among the primers tested, the primer pair OPG1/OPG6 amplified a 668 bp specific product to the strain CPA‐8 that was sequenced and used to design SCAR (sequence‐characterised amplified regions) primer pairs. The SCAR‐4 marker amplified a semi‐specific fragment of 665 bp not only for the strain CPA‐8 but also for other 12 strains whose morphology was completely different from CPA‐8. Another approach was developed to obtain a strain‐specific genomic marker related to ecological adaptations of Bacillus amyloliquefaciens species. The primer pair F2/R2 obtained from RBAM 007760, a gene involved in surface adhesion, amplified a 265 bp fragment unique for strain CPA‐8. Our results revealed that these two molecular markers, SCAR‐4 and RBAM 007760 F2/R2 provide suitable monitoring tools to specifically identify the biocontrol CPA‐8 when applied against brown rot caused by Monilinia spp. in stone fruit. Moreover, our findings demonstrate that the strain CPA‐8 is affiliated with B. amyloliquefaciens species that was formerly designated as Bacillus subtilis.     

马铃薯瓢虫与茄二十八星瓢虫SCAR标记的建立及应用

为了探索快速鉴定马铃薯瓢虫Henosepilachna vigintioctomaculata(Motschulsky)和茄二十八星瓢虫Henosepilachna vigintioctopunctata(Fabricius)的分子生物学方法,本研究在随机扩增多态性DNA(random amplified polymorphic DNA,RAPD)的基础上,分别设计了可以鉴别两个物种的序列特征扩增区域(sequence characterized amplified regions,SCAR)标记。从随机合成的60条引物中筛选出来2条特异性引物(分别为OPI-6和OPJ-15),引物OPI-6在马铃薯瓢虫中扩增出约750 bp的特异性条带,引物OPJ-15在茄二十八星中扩增出约750 bp的特异性条带,根据测序结果设计了两对SCAR引物对筛选结果进行验证,发现根据OPI-6的测序结果所设计的SCAR引物(OPI-6 test)仅能在马铃薯瓢虫中扩增出645 bp的条带,而根据OPJ-15的测序结果所设计的SCAR引物(OPJ-15 test)仅能在茄二十八星瓢虫中扩增出436 bp的条带。这两对SCAR引物能够准确、稳定且快速地区分马铃薯瓢虫与茄二十八星瓢虫,对这两种害虫的精准防控具有重要意义。     

Identification of genetic markers for Korean native cattle (Hanwoo) by RAPD analysis

In order to develop the specific genetic marker for Korean native cattle (Hanwoo), randomly amplified polymorphic DNA (RAPD) analysis of 6 different cattle breeds was attempted by using 38 decamer primers. In comparison of RAPD patterns, two distinctive DNA bands specific for Hanwoo were detected. One was 296 bp of DNA fragment found to be specific only for female Hanwoo when primer GTCCACACGG was employed. In individual analysis of this RAPD marker was observed only in female individuals with the possibility of 85.3%. The other was 521 bp of RAPD marker amplified using TCGGCGATAG and AGCCAGCGAA primers, which showed 83.0% of genetic frequency in 85 male and 68 female individuals tested. Nucleotide sequencing of these genetic markers revealed that 296 bp marker has a short microsatellite-like sequence, ACCACCACAC, and a tandem repeat sequence of microsatellite GAAAAATG in the determined sequence. Two distinctive tandem repeats of microsatellite sequences, AAC and GAAGA, were also appeared in 521 bp DNA marker. In BLAST search, any gene having high homology with these markers was not found     

Species and Strain Identification of the Predatory Mite Euseius Finlandicus by RAPD-PCR and ITS Sequences

The variation within and between Finnish Euseius finlandicus populations was investigated by RAPD-PCR and ITS sequence analyses. Resin DNA extraction was found to be a suitable method for samples of single mites used in PCR. The banding patterns from 24 RAPD primers and 10 primer pairs were very similar and reproducible in all specimens of the predatory mite studied. However, the E. finlandicus K-strain could be distinguished from organophosphate-resistant predatory mites (R-strain), since almost all of them produced a 1,400 bp RAPD-PCR product, which was missing or very rare in other strains studied. Another RAPD band of ca. 680 bp was in turn much more common in other mites of E. finlandicus than in the K-strain mites. Mite specific primers were designed and used to follow the survival of the R-strain released on apple trees. The 680 bp band obtained with specific primers was specific to the species E. finlandicus mites studied, including those that had been negative with RAPD primers. The 1,400 bp specific primers could be used as a marker for following the survival of R-strain mites on apple trees. At the species level it was possible to distinguish adults and eggs of E. finlandicus from Anthoseius rhenanus and Phytonemus pallidus by RAPD-PCR. In addition, a band at 480bp was found to correspond to DNA of the predatory mite Phytoseius macropilis, when both specific primer pairs were used together. It was not possible to amplify the ITS region of E. finlandicus rDNA using several primer pairs that work in other mites and aphids. However, a basidiomycete rDNA sequence was amplified with one of these ITS primer pairs in K-strain mites. Finally, it was found that fungal rDNA-specific primers amplified an ITS region of ca. 650 bp in several strains of E. finlandicus. Internal primers, designed to amplify the central part of the 650 bp product, successfully amplified this product from all the mites.     

谭清苏铁性别连锁的RAPD和SCAR分子标记

利用RAPD(Random amplified polymorphicDNA)分子标记技术,寻找谭清苏铁(Cycas tanqingii)中与性别相关的分子标记,筛选了160个10bp的随机引物,产生了2500多个RAPD条带。只有引物S0465(CCCCGGTAAC)产生了一条大约500bp的雌性特异RAPD标记,该分子标记出现在所有的供试雌性植株中,而所有的供试雄性植株都不具有该标记。对该特异片段进行了克隆和序列测定,并根据序列分析结果将RAPD标记转化为重复性和特异性更好的特异特征序列扩增区域(SCAR)分子标记,并命名为STQC-S465-483。分子标记的建立可用于谭清苏铁幼苗性别的早期鉴定,为谭清苏铁就地保护和迁地保护提供技术支持。     

谭清苏铁性别连锁的RAPD和SCAR分子标记

利用RAPD(Random amplified polymorphic DNA)分子标记技术,寻找谭清苏铁（Cycas tanqingii）中与性别相关的分子标记,筛选了160个10bp的随机引物,产生了2500多个RAPD条带。只有引物S0465 (CCCCGGTAAC)产生了一条大约500bp的雌性特异RAPD标记,该分子标记出现在所有的供试雌性植株中,而所有的供试雄性植株都不具有该标记。对该特异片段进行了克隆和序列测定,并根据序列分析结果将RAPD标记转化为重复性和特异性更好的特异特征序列扩增区域（SCAR）分子标记,并命名为STQC-S465-483。分子标记的建立可用于谭清苏铁幼苗性别的早期鉴定,为谭清苏铁就地保护和迁地保护提供技术支持。     

Screening of virus specific primers against the Cassava mosaic virus

Abstract

Five different Indian cassava mosaic virus (ICMV) specific primers were used to screen the virus from CMD affected samples collected from the different parts of Tamil Nadu. Out of five specific primers, three were designed to amplify the specific viral genes of ICMV and two were used for detection of ICMV. All primers amplified specific regions of the virus in all samples. The specific primer for amplification of coat protein gene of ICMV amplified 800 bp of coat protein gene from both ICMV and Sri Lankan cassava mosaic virus (SLCMV) infected samples invariably. The specific primer for amplifying movement protein (MP) gene amplified about 900 bp of movement protein gene from all CMD infected cassava samples. Likewise, 800 bp of nuclear shuttle protein (NSP) gene was amplified from all the samples. The primer ICMV A amplified 700 bp of PCR product from mosaic diseased cassava samples. A 300 bp product from DNA A of the virus amplified in all samples using the primer ICMV A₁.     

Development of reliable PCR-based markers linked to downy mildew resistance genes in lettuce

Summary Sequence characterized amplified regions (SCARs) were derived from eight random amplified polymorphic DNA (RAPD) markers linked to disease resistance genes in lettuce. SCARs are PCR-based markers that represent single, genetically defined loci that are identified by PCR amplification of genomic DNA with pairs of specific oligonucleotide primers; they may contain high-copy, dispersed genomic sequences within the amplified region. Amplified RAPD products were cloned and sequenced. The sequence was used to design 24-mer oligonucleotide primers for each end. All pairs of SCAR primers resulted in the amplification of single major bands the same size as the RAPD fragment cloned. Polymorphism was either retained as the presence or absence of amplification of the band or appeared as length polymorphisms that converted dominant RAPD loci into codominant SCAR markers. This study provided information on the molecular basis of RAPD markers. The amplified fragment contained no obvious repeated sequences beyond the primer sequence. Five out of eight pairs of SCAR primers amplified an alternate allele from both parents of the mapping population; therefore, the original RAPD polymorphism was likely due to mismatch at the primer sites.     

Development of male-specific SCAR marker in date palm (Phoenix dactylifera L.)

Genetics of control mechanisms that underlies sex differentiation in date palm is not known. Sex of the plants becomes known only at the time of first flowering, which takes around 5 years. In comparison, molecular diagnosis (if available/feasible) promises quick and reliable identification of sex types very early when plantlets are growing in seedbeds. To develop such an assay, genomic DNA from 45 individual plants (25 female and 20 male) belonging to different varieties of date palm was subjected to PCR amplification using 100 random amplified polymorphic DNA (RAPD) and 104 intersimple sequence repeat (ISSR) primers. Initially, two bulk genomic DNA samples (each made by pooling DNA from ten male and female plants, separately) were used. A primer showing sex-specific band in bulked samples was further used for amplification of the genomic DNA of the individual samples of that bulk. Only one RAPD primer, OPA-02, amplified a fragment of ~1.0 kb in all the individual samples of male genotypes, whereas this fragment was absent in all the female genotypes. This male-specific fragment was cloned and sequenced (GenBank accession no. JN123357), and a sequence-characterized amplified region (SCAR) primer pair was designed that amplified a 406-bp fragment in both female and male genotypes and a unique fragment of 354 bp in only male genotypes. The SCAR marker was further validated using 25 female and ten male date palm plants belonging to different varieties collected from different locations.     

耐盐绒毛白蜡特异性SCAR分子标记的鉴定

该研究以耐盐型和盐敏感型绒毛白蜡及其F1代为材料,采用混合品系分析法进行RAPD分析。结果显示:在随机选取的150个10碱基随机引物中,仅有引物S20在耐盐基因池和盐敏感基因池间扩增出特异而可重复的592bp的多态性片段,命名为S20-592。获得的RAPD标记S20-592经克隆、测序、重新设计一对特异性引物转化成更稳定的SCAR标记。通过F1代个体验证,耐盐型个体均能扩增出此差异条带而盐敏感型个体中不能扩增出此差异条带,证明该SCAR标记的特异引物可用于耐盐绒毛白蜡物种的快速分子鉴定。     

CHARACTERIZATION OF GENETIC MARKERS LINKED TO SEX DETERMINATION IN THE HAPLOID‐DIPLOID RED ALGA GRACILARIA CHILENSIS1

Bulk segregant analysis, random amplified polymorphic DNA (RAPD), and sequence characterized amplified region (SCAR) methods were used to identify sex‐linked molecular markers in the haploid‐diploid rhodophyte Gracilaria chilensis C. J. Bird, McLachlan et E. C. Oliveira. One hundred and eighty 10 bp primers were tested on three bulks of DNA: haploid males, haploid females, and diploid tetrasporophytes. Three RAPD primers (OPD15, OPG16, and OPN20) produced male‐specific bands; and one RAPD primer (OPD12), a female‐specific band. The sequences of the cloned putative sex‐specific PCR fragments were used to design specific primers for the female marker SCAR‐D12‐386 and the male marker SCAR‐G16‐486. Both SCAR markers gave unequivocal band patterns that allowed sex and phase to be determined in G. chilensis. Thus, all the females presented only the female band, and all the males only the male band, while all the tetrasporophytes amplified both male and female bands. Despite this sex‐specific association, we were able to amplify SCAR‐D12‐386 and SCAR‐G16‐486 in both sexes at low melting temperature. The differences between male and female sequences were of 8%–9% nucleotide divergence for SCAR‐D12‐386 and SCAR‐G16‐486, respectively. SCAR‐D12‐386 and SCAR‐G16‐486 could represent degenerated or diverged sequences located in the nonrecombining region of incipient sex chromosomes or heteromorphic sex chromosomes with sequence differences at the DNA level such that PCR primers amplify only one allele and not the other in highly specific PCR conditions. Seven gametic progenies composed of 19 males, 19 females, and the seven parental tetrasporophytes were analyzed. In all of them, the two SCAR markers segregated perfectly with sexual phenotypes.     

A novel sex-specific DNA marker in Columbidae birds

That most Columbidae birds have no conspicuous sexual dimorphism often makes it difficult to identify their sex on the basis of external morphology. In the present study, we report a novel sex-specific DNA marker in Columbidae birds. DNA was extracted from one member of this bird group, Streptopelia orientalis (S. orientalis, oriental turtle dove), and used to identify a female-specific DNA marker using a random amplified polymorphic DNA (RAPD) fingerprinting. One hundred and sixty random primers were used for the RAPD-PCR reactions. When using the OPAV17 primer, a novel 902 bp sex-specific PCR product was amplified from known female birds. This fragment of DNA was cloned and sequenced. Two primers, TurSexOPAV17-F and TurSexOPAV17-R, were designed from the cloned sex-specific sequence, and were successfully used to amplify a 777 bp female-specific fragment using PCR from S. orientalis DNA. This sex-specific marker was also amplified from genomic DNA samples of two other female Columbidae, S. chinensis and Columba livia. Sequence analysis showed that this novel sex-specific marker was highly conserved amongst these three bird species. In contrast, the PCR product was not amplified from male DNA of these species, nor from either sex of the S. chinensis formosa birds. Therefore, we concluded that our novel marker can be used to rapidly and accurately identify the sex of birds from three species of Columbidae.     

Direct sequencing of RAPD fragments using 3'-extended oligonucleotide primers and dye terminator cycle-sequencing.

Random amplified polymorphic DNA (RAPD) markers are used widely to develop high resolution genetic maps and for genome fingerprinting. Typically, single oligomers of approximately 10 nucleotides are used to PCR amplify characteristic RAPD marker fragments. We describe an efficient method for the direct end-sequencing of gel-purified RAPD fragments using one primer from a set of four 3'-terminal extended (A, T, C or G) oligonucleotides, identical to the RAPD primer but for the single nucleotide extension. Strand-specific DNA sequence could be independently read from each of the RAPD fragments without recourse to strand separation or fragment cloning. Informative RAPD fragments could be readily converted into mapped STS or SCAR loci using this technology. The 3'-extended primers may also be used to amplify independent genomic RAPD markers.     

菠菜性别相关的ISSR标记

菠菜为雌雄异株植物,用CTAB法提取其雌、雄株成株幼嫩叶片DNA,分别构建雌、雄株DNA池,以之为模板,用已优化的ISSR体系扩增,在74条ISSR引物中,I62扩增出一条约1 200 bp雌性连锁标记,回收纯化该特异扩增片段,将其连接于pUCm-T载体,转化进大肠杆菌JM109菌株,并检测及测序。回收克隆和测序后发现该片段全长1 176 bp,富含AT,AT占57.0%。根据测序结果设计1对25 bp的特异引物将这个雌性连锁的ISSR标记转化为稳定性和特异性更好的SCAR标记。该特异引物对随机选取的雌雄菠菜单株进行PCR扩增,在雌株中均有1 176 bp的特异条带,而雄株中均无。此特异条带的获得为菠菜性别相关基因的克隆奠定基础。     

Optimization of RAPD‐PCR conditions in cattle

Abstract

Random Amplified Polymorphic DNA polymerase chain reaction (RAPD‐PCR) is a fast and easy way of identifying DNA polymorphisms generated from several regions of the genome. This could expedite the process of identifying informative polymorphic markers that may be linked to important genes controlling economic traits. In cattle, failure to obtain consistent amplification patterns in RAPD‐PCR has been a cause for concern. This has been attributed to the fact that decamer primers that are used in RAPD‐PCR reactions are likely to amplify regions of DNA where the primer‐template base pairing has some degree of mismatch and that these mismatches fail to repeat from reaction to reaction. This paper describes the use of tricine buffer along with changes in reaction components and thermal cycling conditions that has yielded consistent and reproducible RAPD‐PCR amplifications using single primers and double primer combinations on bovine DNA.     

芦笋雌性特异性片段的克隆和分析(简报)

芦笋(Asparagus officinalis L.)又名石刁柏、龙须菜,系雌雄异株宿根性植物,是重要的经济作物之一。芦笋的性染色体为一对同形的L5染色体,雌性的性染色体为XX,雄性的性染色体为XY。性别决定的多态性是由位于一对L5性染色体上的一个显性基因M决定的[1-3],雌株基因型为隐性纯合子mm,雄株为显性纯合子MM(又称超雄株)或杂合子Mm。在生产上,由于雄株比雌株高产25%以上[4],并具有极强的抗病性和生命力,故雄株特别是超雄株则倍受生产者的青睐,但芦笋雌雄鉴定只有等到种植的第二年待植株开花时才能进行,这就严重影响了芦笋的有目的种植和经济效…     

小麦双引物RAPD分析方法的研究

ＲＡＰＤ标记是近几年迅速发展的一种新型分子标记,标准的ＲＡＰＤ的反应是以１０个寡聚核苷酸作引物,通过ＰＣＲ反应扩增出基因组的部分片段,我们在研究外源ＤＮＡ导入小麦后外源遗传物质的追踪时,对这个方法进行了改进,采取了双引物进行扩增,结果双引物反应能够比单引物反应扩增出更多的多态性片段。分子杂交结果表明,双引物扩增出的新片段与单引物扩增片段无同源性,并对双引物扩增出的多态性片段产生的可能原因进行讨论。     

杉木种子随体染色体SCAR标记的建立

回收、纯化由引物OPB07(5’-GGTGACGCAG-3’) OPB18(5’-CCACAGCAGT-3’)扩增而得的杉木(Cunninghamia lanceolata(Lamb.)Hook)种子随体染色体特异性RAPD(随机扩增的DNA多态性分析)片段OPB07-18907,将该片段克隆至pUCm-T载体,转化受体菌后筛选出阳性克隆,并对插入片段进行测序,根据序列特点设计两对SCAR(序列特异性扩增区)引物,PCR结果显示,这两对引物的4种组合都可以扩增出属于随体染色体的特征带,适宜退火温度为57℃。成功将特异RAPD标记OPB07-18907转化为稳定的SCAR标记。开发随体染色体SCAR标记目的是:一方面能在分子水平上鉴定微分离的杉木随体染色体,另一方面,也可以将杉木已构建的遗传图谱中连锁群与染色体进行对应。探讨了该SCAR标记对杉木核型分析的作用。     

银杏性别相关分子标记

利用RAPD技术寻找银杏(Ginkgo biloba L.)中与性别相关的分子标记。筛选了1200个10bp的随机引物,产生了8372个RAPD条带。只有S1478产生一条大小为682bp、雄性特异的分子标记,该分子标记被命名为S1478—682,出现在所有雄性植株中,而所有雌性植株都不具有该分子标记。通过在北京和沈阳种植的银杏植株的RAPD推广验证,说明该分子标记可以用来检测银杏植株的性别。     

Molecular identification of isolates of <Emphasis Type="Italic">Peronosclerospora sorghi</Emphasis> from maize using PCR-based SCAR marker

The fungus Peronosclerospora sorghi [Weston and Uppal (Shaw)] infects both sorghum and maize and incites downy mildew disease. Pathogenic and molecular variability among isolates of P. sorghi from sorghum and maize has been reported. In the present study we developed a DNA sequence characterized amplified region (SCAR) marker for identification of isolates of P. sorghi from maize by using polymerase chain reaction (PCR). The random amplified polymorphic DNA (RAPD) primer OPB15 consistently amplified a 1,000 base pairs (bp) product in PCR only from DNA of P. sorghi isolates from maize and not from isolates of sorghum. The PCR-amplified 1,000-bp product was cloned and sequenced. The sequence of the SCAR marker was used for designing specific primers for identification of maize isolates of P. sorghi. The SCAR primers amplified a 800 bp fragment only from genomic DNA of maize isolates of P. sorghi. The SCAR primers developed in this study are highly specific and reproducible, and proved to be powerful tool for identification of P. sorghi isolates from maize.