RAPD及SRAP两种分子标记技术对苦瓜杂交种纯度的鉴定分析

以F1代苦瓜杂交种如玉11号及其亲本为材料,利用RAPD及SRAP两种分子标记技术对这3种苦瓜基因组DNA进行比较分析,以获得该杂交种及其亲本（或母本）差异目的基因片段。经过多次对该3种苦瓜叶片DNA提取,PCR扩增及其PCR产物的琼脂糖凝胶电泳分析,在供试的46个RAPD引物及121对SRAP引物中,筛选出1个RAPD引物及1对SRAP引物能区分该苦瓜杂交种及其母本种子,通过进一步验证分析,证明该两种分子标记的特异引物可作为如玉11号苦瓜杂交种子的纯度鉴定之用。     

Identification of a RAPD marker linked to the oat stem rust gene Pg3

Summary The feasibility of identifying molecular markers linked to disease resistance genes in oats was investigated utilizing random primers in conjunction with polymerase chain reaction technology. A pair of near-isogenic oat lines were screened for polymorphic DNA fragments linked to the stem rust resistance gene Pg3. Two primers were identified which amplified DNA fragments that were polymorphic between the lines analyzed. One primer (ACOpR-2) was shown to be completely linked to the Pg3 locus; the other primer was not linked to either the ACOpR-2 or the Pg3 loci. This type of analysis, combined with rapid leaf disc DNA extraction techniques, offers an effective means of identifying useful molecular markers and of applying them to plant breeding selection strategies.Plant Research Centre publication number: 1443     

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.     

Identification,cloning and sequence analysis of a dwarf genome-specific RAPD marker in rubber tree [<Emphasis Type="Italic">Hevea brasiliensis</Emphasis> (Muell.) Arg.]

High-yielding dwarf clones of Hevea brasiliensis are tolerant to wind damage and therefore useful for high-density planting. The identification of molecular markers for the dwarf character is very important for isolating true-to-type high-yielding dwarf hybrid lines in the early stage of plant breeding programs. We have identified a dwarf genome-specific random amplified polymorphic DNA (RAPD) marker in rubber tree. A total of 115 random oligonucleotide 10-mer primers were used to amplify genomic DNA by PCR, of which 19 primers produced clear and detectable bands. The primer OPB-12 generated a 1.4-kb DNA marker from both natural and controlled F₁ hybrid progenies (dwarf stature) derived from a cross between a dwarf parent and a normal cultivated clone as well as from the dwarf parent; it was absent in other parent (RRII 118). To validate this DNA marker, we analyzed 22 F₁ hybrids (13 with a dwarf stature and nine with a normal stature); the dwarf genome-specific 1.4-kb RAPD marker was present in all dwarf-stature hybrids and absent in all normal-stature hybrids. This DNA marker was cloned and characterized. DNA marker locus specificity was further confirmed by Southern blot hybridization. Our results indicate that Southern blot hybridization of RAPD using probes made from cloned DNA fragments allows a more accurate analysis of the RAPD pattern based on the presence/absence of specific DNA markers than dye-stained gels or Southern blot analysis of RAPD blots using probes made from purified PCR products. Detection of RAPD markers in the hybrid progenies indicates that RAPD is a powerful tool for identifying inherited genome segments following different hybridization methods in perennial tree crops.     

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.     

Strain-Specific Identification of Probiotic Lactobacillus rhamnosus with Randomly Amplified Polymorphic DNA-Derived PCR Primers

In the present work, strain-specific PCR primers for Lactobacillus rhamnosus Lc 1/3 are described. The randomly amplified polymorphic DNA (RAPD) technique was used to produce potential strain-specific markers. They were screened for specificity by hybridization with DNA from 11 L. rhamnosus strains. A 613-bp RAPD marker found to be strain-specific was sequenced, and a primer pair specific to L. rhamnosus Lc 1/3 was constructed based on the sequence. The primer pair was tested with 11 Lactobacillus species and 11 L. rhamnosus strains and was found to be strain specific. The nucleotide sequence of the specific RAPD marker was found to contain part of a protein encoding region which showed significant similarity to several transposases for insertion sequence elements of various bacteria, including other lactic acid bacterium species.     

Design and Evaluation of a Specific Primer Pair for the Diagnosis and Identification of <Emphasis Type="Italic">Acanthamoeba polyphaga</Emphasis>

Random amplified polymorphism DNA (RAPD) is a useful tool for species identification. The obtained band patterns can be used for specific primer pair design that may be useful for species diagnosis. In this study, a distinctive a 962-bp band in A. polyphaga band patterns was found, by using the OPC20 primer (ACTTCGCCAC). The DNA fragment was used to design a specific primer pair that was useful for the identification of different isolates as A. polyphaga species. A case of A. polyphaga in disseminated acanthamoebiasis affecting mesenteric nodes is also reported.     

Development of SCAR marker linked to anthracnose resistance from Indian French bean (Phaseolus vulgaris L.) germplasm

This study was performed to identify the French bean genotypes resistant to anthracnose disease. Thirty-five RAPD primers were used for screening four resistant and nine susceptible French bean accessions. Of these, three RAPD primers, viz. OPAH16₇₀₀, OPN6₇₀₀ and OPS₉₀₀ showed polymorphic bands differentiating between resistant and susceptible genotypes. The RAPD primer OPAH16 was then selected for conversion into a SCAR marker. The polymorphic band present in the resistant line (D line) was eluted, cloned in pTZ57R/T cloning vector and was then transferred into DH5α Escherichia coli cells. The positively transformed clones were selected based on ampicillin resistance blue-white colony selection method. The plasmid DNA was isolated from transformed white colonies, sequenced and developed into SCAR marker SPAH 16. This SCAR marker SPAH 16 was then verified via PCR using the original French bean accessions.     

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。     

水稻抗褐飞虱基因SCAR标记的获得

采用282个随机引物对药用野生稻1665和栽培稻桂99远缘杂交的抗褐飞虱近等基因系B3F4分离群体的不抗池DNA和抗池DNA进行了特异性RAPD标记筛选,从中筛选到一个具有明显的特异性扩增带谱的RAPD标记S1159,序列分析表明,S1159序列长度为1408bp,与基因库中已报道的水稻第四号染色体的BAC克隆(编号OSJNBa0070O11)序列(67114-69100)有51.86%的同源性。为了提高所找到的RAPD标记S1159在应用上的稳定性,将RAPD标记转化为SCAR标记检测近等基因系群体,结果表明与RAPD标记结果一致,说明该研究得到的RAPD标记具有较好的稳定性和重复性,为进一步的研究打下了良好的基础。     

Use of RAPD analysis to assess the threat of interspecific hybridization to the critically endangered <Emphasis Type="Italic">Polemonium kiushianum</Emphasis> in Japan

Polemonium kiushianum is a critically endangered species of which only eight populations exist in semi-natural grasslands of the Mt. Aso area of Kyushu, Japan. Habitat modification and the risk of hybridization with non-indigenous horticultural congeners, such as P. caeruleum subsp. caeruleum and P. caeruleum subsp. yezoense var. yezoense, pose increasing threats to P. kiushianum. To develop a DNA marker that distinguishes P. kiushianum from other Polemonium species, we performed random amplified polymorphic DNA (RAPD) analysis and selected an approximately 500-bp fragment generated by the OPB06 RAPD primer. In addition, we designed a primer pair, H11F/R, based on the nucleotide sequences of the fragments derived from P. caeruleum subsp. caeruleum and P. caeruleum subsp. yezoense var. yezoense. The results with the H11F/R primers indicated that most extant P. kiushianum plants in natural populations are not genetically contaminated by hybridization with non-indigenous horticultural species.     

Rapid cloning and characterization of new chromosome 10 DNA markers by Alu element-mediated PCR

Alu element-mediated polymerase chain reaction is a strategy for rapidly cloning and mapping human DNA markers from mixed DNA sources. A novel primer homologous to the 3′ end of the human Alu repeat element provides the basis for preferential synthesis of human DNA fragments from human/rodent somatic cell hybrid DNA template. This approach has been used to isolate a series of new markers from chromosome 10. The Alu element-mediated PCR probes were regionally assigned on chromosome 10 by hybridization to Southern blots of Alu PCR-synthesized DNA derived from somatic cell hybrid template DNA. Alu element-mediated PCR is generally applicable and makes possible the analysis of complex genomes with a speed and sensitivity that has not been previously possible.     

A novel specific DNA marker in Saccharomyces bayanus for species identification of the Saccharomyces sensu stricto complex

This study was based on RAPD fingerprinting for species identification of the Saccharomyces sensu stricto complex. 40 random primers were used for RAPD analysis. The results showed that one of these primers, OPT-18, produced a 974 bp species-specific band, which was only found in the tested S. bayanus. Afterward this specific fragment was isolated from agarose gel and ligated into vector for DNA sequencing. A pair of primer SpeOPT18Sbay-F2 and SpeOPT18Sbay-R2 were designed according to the cloned species-specific sequence, which was employed for PCR with the template DNA of the S. sensu stricto strains, single 779 bp species-specific band was only found in S. bayanus. Therefore, we conclude that our novel species DNA marker could be used to rapidly and accurately identify the species of S. bayanus from S. sensu stricto complex by direct PCR.     

Identification of a RAPD marker linked to progressive rod-cone degeneration in dogs

Random amplified polymorphic DNA (RAPD) analysis has been used widely in plant and fungi for identification of markers linked to genetic traits and mapping, but its use is limited to identification of intra- and inter-species difference in domestic mammals. We report here identification of a RAPD-derived marker linked to progressive rod-cone degeneration (prcd), an inherited autosomal recessive retinal disease of dogs. A total of 400 standard 10-mer primers were used for amplification by use of DNA samples from normal (+/+) and affected (prcd/prcd) dogs. A single primer was identified which amplified a 1.5-kb DNA fragment only from normal dogs. PCR with longer primers designed from the sequence-characterized amplified region of the 1.5-kb DNA fragment identified a co-dominant multi-allelic polymorphism in the prcd-informative pedigree. Three recombinants were identified among 34 informative offsprings, yielding a LOD score of 5.568 at θ= 0.091. This marker was mapped to two canine–rodent hybrid cell lines in which two genes (canine homologues of human breast cancer 1 susceptibility gene, and cGMP phosphodiesterase γ-subunit gene), and three anonymous microsatellites have been identified. This is the first reported identification of a RAPD-derived marker with multiple alleles linked to a mammalian disease locus. Received: 20 February 1998 / Accepted: 24 April 1998     

The association between HLA-A alleles and an Alu dimorphism near HLA-G

The AluYb8 sequences are a subfamily of short interspersed Alu retroelements that have been amplified within the human genome during recent evolutionary time and are useful polymorphic markers for studies on the origin of human populations. We have identified a new member of the Yb8 subfamily, AluyHG, located between the HLA-H and -G genes and 88-kb telomeric of the highly polymorphic HLA-A gene within the alpha block of the major histocompatibility complex (MHC). The AluyHG element was characterised with a view to examining the association between AluyHG and HLA-A polymorphism and reconstructing the history of the MHC alpha block. A specific primer pair was designed for a simple PCR assay to detect the absence or presence (dimorphism) of the AluyHG element within the DNA samples prepared from a panel of 46 homozygous cell-lines containing complete or recombinant ancestral haplotypes (AH) of diverse ethnic origin and 92 Caucasoid and Asian subjects on which HLA-A typing was available. The AluyHG insertion was most strongly associated with HLA-A2 and, to a lesser degree with HLA-A1, -A3, -A11, and A-19. The gene frequency of the AluyHG insertion for 146 Caucasians and 94 Chinese-Han was 0.30 and 0.32 and there was no significant difference between the observed and expected frequencies. The results of the association studies and the phylogenetic analysis of HLA-A alleles suggest that the AluyHG sequence was integrated within the progenitor of HLA-A2, but has been transferred by recombination to other human ancestral populations. In this regard, the dimorphic AluyHG element is an important diagnostic marker for HLA association studies and could help in elucidating the evolution and functions of the MHC alpha block and polymorphism within and between ancestral haplotypes. Received: 7 December 2000 / Accepted: 28 February 2001     

PCR-based DNA Markers for Identifying Hybrids within Phytophthora alni

Two pairs of oligonucleotide primers were designed for the polymerase chain reaction (PCR)‐based detection and differential identification of naturally occurring interspecific hybrid types (subspecies) of Phytophthora alni, all of which cause collar rot of alder trees. Primer pairs were derived from randomly amplified polymorphic DNA (RAPD) fragments that were unique to various subspecies of this alder pathogen. The primer pair set, SAP1/SAP2 (SAP), was derived from a 0.93‐kb RAPD fragment amplified from P. alni ssp. alni. The primer pair set, SWAP1/SWAP2 (SWAP), was derived from a 1.13‐kb fragment amplified from P. alni ssp. uniformis. Patterns of SAP and SWAP amplification enabled distinction among the three subspecies. No PCR products were amplified from isolates of 31 other Phytophthora spp. examined, including P. cambivora and P. fragariae, the suspected progenitors of P. alni. The SAP and SWAP primer sets were able to detect a minimum of 10 pg of DNA from pure cultures or DNA extracted from as few as 10 zoospores. Pathogen DNA could also be amplified directly from bark lesions of artificially inoculated and naturally infected common alders and from lesions developed on common cherry‐laurel leaves used in baiting the pathogen from infested soil. Direct detection of pathogen DNA from alder tissue using SAP and SWAP primer sets should prove useful in developing measures for effective quarantine and management of P. alni.     

Use of random amplified polymorphic DNA to identify several novel markers for sex identification in the crested serpent eagle and crested goshawk

The crested serpent eagle (Spilornis cheela hoya) has no distinct sexual dimorphic traits. In the current study, we report the results of an EE0.6 (EcoRI 0.6-kb fragment) sequence applied to S. cheela hoya and a novel random amplified polymorphic DNA (RAPD) marker that can be used to sex individuals within the species S. cheela hoya and Accipiter trivigatus formosae (crested goshawk). We used sex-specific primers for the avian CHD1 (chromo-helicase-DNA-binding 1) gene and the EE0.6 sequence in PCR assays to determine sex. In addition, 120 random primers were used for RAPD fingerprinting to search for novel sex-specific fragments of S. cheela hoya. The OPBB08 random primer generated a 1241-bp sex-specific fragment in all female S. cheela hoya. From the nucleotide sequence, PCR primers were designed to amplify 553-, 895-, and 194-bp sex-specific fragments present in all female S. cheela hoya. One of these primer pairs (ScBB08-7F/R) also amplified a male/female common fragment that can be used as an internal control (543 bp). Moreover, one of the primer pairs (ScBB08-5aF/5bR) could be used to identify genders of A. trivigatus formosae. In conclusion, we identified novel sex-specific DNA markers of S. cheela hoya and A. trivigatus formosae that can be used for rapid and accurate sex identification.     

Development of SCAR marker for simultaneous identification of Miscanthus sacchariflorus, M. sinensis and M. x giganteus

The sequence-characterized amplified region (SCAR) marker for simultaneous identification of Miscanthus sacchariflorus, Miscanthus sinensis, and Miscanthus x giganteus was developed. In this study, it was attempted for the first time to develop the SCAR marker for detecting the molecular phenotypes among Miscanthus species. Randomly amplified polymorphic DNA technique was applied for this study and one fragment which is unique to M. sacchariflorus was identified and then sequenced. Based on the specific fragment, one SCAR primer pair designated as MS62-5F and MS62-5R was designed to amplify an approximately 1,000 bp DNA fragment within the sequenced region. Diagnostic PCR was performed using the primer pair. Using this SCAR marker, approximately 1,000 bp and 1,200 bp DNA fragments were obtained in M. sacchariflorus and M. sinensis, respectively. Moreover, M. x giganteus was obtained both bands at the same time. The result showed that this SCAR marker can clearly distinguish the M. sacchariflorus, M. sinensis, and M. x giganteus, respectively.     

Polymorphism of the kinase domain of the S-locus receptor kinase gene (SRK) in Brassica oleracea L.

 DNA polymorphism of the S-locus receptor kinase gene (SRK) participating in self-incompatibility in Brassica was analyzed by PCR-RFLP and nucleotide sequencing. In the screening of primers for specific amplification of polymorphic DNA fragments of SRK, the best combination was that of a forward primer (PK1) having the nucleotide sequence of the second exon of S6 SRK and a reverse primer (PK4) having the complementary nucleotide sequence of the fifth exon of S6 SRK. PCR using this primer pair amplified DNA fragments of 0.9–1.0 kb from 36 S haplotypes out of 42 tested. These DNA fragments showed high polymorphism in polyacrylamide-gel electrophoresis after digestion with restriction endonuclease(s): 25 types were found in a double digestion with MboI and AfaI. Nucleotide sequencing of the DNA fragments amplified from five S haplotypes showed that the third, fourth, and fifth exons of SRK are highly conserved, and that there are high variations of the second and third introns of SRK, which produced polymorphism of the band pattern in PCR-RFLPs. Another forward primer (PK5) having the nucleotide sequence of the second exon, which is derived from S2 SRK, amplified DNA fragments of almost the same region of SRK from 27 S haplotypes in combination with PK4. Although SRK alleles of the class-II S haplotypes were not amplified, all of the class-I S-haplotypes were amplified with a primer mixture of PK1, PK4 and PK5. The DNA fragments of both SRK alleles in S heterozygotes, or a 1 : 1 mixture of the genomic DNA of different S homozygotes, were amplified without exception, suggesting the usefulness of these primers for the identification of S heterozygotes. The DNA fragment sizes obtained by digestion with restriction endonucleases served as markers for the identification of S haplotypes. Received: 15 December 1996 / Accepted: 14 February 1997     

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.