Application of fluorescence-based resistance gene analog analysis for genotyping plant genetic resources

Conventional approaches for detecting disease resistance gene analogs (RGAs) in plants are based on agarose gels or on polyacrylamide gel electrophoresis (PAGE) in combination with silver staining or radioactive labeling. A modified method for RGA analysis has been developed by using fluorescence-labeled primers for PCR amplifications. The amplified fragments are detected by denaturing PAGE using an automated laser fluorescence DNA sequencer and analyzed by fragment analysis software. This technique is not limited to specific plant species and is suitable for high-throughput genotyping plant genetic resources. We demonstrate here the efficiency of this method for comparison of RGA patterns in diverse plant species and for genotyping of natural populations of the wheat progenitor, Triticum dicoccoides. Revisions requested 8 October 2004; Revisions received 15 November 2004     

重庆加工型辣椒种质资源抗疫病鉴定的分子标记筛选

为筛选出适用于重庆加工型辣椒疫病抗性鉴定的分子标记,以63份重庆加工型辣椒种质资源为材料,研究了12个辣椒疫病抗性相关分子标记的筛选效率。结果表明,7个分子标记在种质间无差异条带,2个分子标记的扩增结果不稳定,只有ZL6203、ZL6726和E73等3个分子标记在种质间能扩增出差异条带。ZL6203筛选高抗、抗性和中抗材料的效率分别为87.50%、77.78%和63.64%;ZL6726筛选抗性和感病材料的效率分别为100.00%和66.67%;E73筛选抗性和高抗材料的效率分别为77.78%和62.50%。因此,同一辣椒抗疫病分子标记对不同抗性材料筛选效率存在较大差异,ZL6203、ZL6726和E73适用于重庆地区加工型辣椒抗疫病材料的鉴定。     

Characterization and genetic distance analysis of isolates of Peronosclerospora sorghi using AFLP fingerprinting

Sorghum downy mildew, caused by the obligate oomycete Peronosclerospora sorghi, has been controlled through the use of resistant cultivars and seed treatment with metalaxyl. A recent outbreak in fields planted with treated seed revealed the presence of a metalaxyl-resistant variant. Here, PCR-based methods including amplification from RAPD primers and two systems of automated AFLP analysis have been used to detect DNA-level genetic variation among 14 isolates including metalaxyl-resistant and susceptible isolates, as well as representatives of common pathotypes 1 and 3 and a new pathotype. In total, 1708 bands were detected after amplification of EcoRI/MseI fragments with 16 primer combinations. Nearly as many amplified products were observed using eight primer pairs with three-base extensions (LI-COR) as with two-base extensions (ABI-Prism genetic capillary system). Approximately 25 % of the bands were polymorphic across the 14 isolates, with the majority of differences specific to the pathotype P1 isolate. The AFLP banding patterns are consistent with metalaxyl resistance and the new pathotype having evolved from pathotype 3.     

A modified AFLP with fluorescence-labelled primers and automated DNA sequencer detection for efficient fingerprinting analysis in plants

A modified AFLP (amplified fragment length polymorphism) technique is described. Fluorescence-labelled primers were used in the selective amplifications. The amplified fragments were detected on denaturing polyacrylamide gels using an automated ALF DNA sequencer with the fragment option. The modified AFLP technique avoids the use of isotopes or silver staining, but gives a much higher resolution than other AFLP detection systems.     

Detection of single sequence repeat polymorphisms in denaturing polyacrylamide sequencing gels by silver staining

Large-scale use of molecular markers in plant breeding is limited by the throughput capacity for genotyping. DNA polymorphisms can be detected in denaturing polyacrylamide gels indirectly by nucleotide labeling or directly by staining. Fluorescent-labeling or radiolabeling requires sophisticated infrastructure not always available in developing countries. We present an improved low-cost method for silver staining and compare it to 2 other methods for their ability to detect simple sequence repeat polymorphisms in denaturing polyacrylamide gels bound to glass plates. The 3 procedures differed in their requirement for an oxidation pretreatment, preexposure with formaldehyde during silver nitrate impregnation, inclusion of silver thiosulfate, and by their replacement of sodium carbonate for sodium hydroxide to establish alkaline conditions for silver ion reduction. All methods detected the same banding pattern and alleles. However, important differences in sensitivity, contrast, and background were observed. Two methods gave superior sensitivity, detecting down to 1 μL of loaded amplification products. Our improved method gave lower backgrounds and allowed reutilization of staining solutions. The use of thin (<1 mm) denaturing sequencing gels allows genotyping of 60–96 samples within 4 h. Use of smaller loading sample volumes and reutilization of staining solutions further reduced costs.     

用差异显示反转录PCR银染技术研究植物基因表达的差异

通过调整差异显示反转录PCR(DDRT-PCR)中总RNA、锚定引物、随机引物、cDNA和dNTP等关键试剂的用量,优化了适用于银染检测的DDRT-PCR方法.PCR扩增产物经6%变性聚丙烯酰胺凝胶垂直电泳分离后,银染能检测到多而清晰的条带.泳道中的条带数最少为40个,最多达80个,平均为60个,条带大小分布在100～900 bp范围,灵敏度为5 pg/mm² .此方法操作简便快速,灵敏度高,重复性好.采用这个改良的方法,分析了拟南芥野生型和ast突变型基因表达的差异.从16 000个cDNA扩增产物条带中筛选出28个差异条带.二次PCR扩增后,进一步筛选出13个差异条带,其中7个是野生型特异表达的,6个是突变型特异表达的,为进一步认识ast突变表型的产生机制奠定了基础.     

Development of SCAR markers linked to powdery mildew (<Emphasis Type="Italic">Uncinula necator</Emphasis>) resistance in grapevine (<Emphasis Type="Italic">Vitis vinifera</Emphasis> L. and <Emphasis Type="Italic">Vitis</Emphasis> sp.)

Sequence-characterized amplified regions markers (SCARs) were developed from six randomly amplified polymorphic DNA (RAPD) markers linked to the major QTL region for powdery mildew (Uncinula necator) resistance in a test population derived from the cross of grapevine cultivars “Regent” (resistant) × “Lemberger”(susceptible). RAPD products were cloned and sequenced. Primer pairs with at least 21 nucleotides primer length were designed. All pairs were tested in the F1 progeny of “Regent” × “Lemberger”. The SCAR primers resulted in the amplification of specific bands of expected sizes and were tested in additional genetic resources of resistant and susceptible germplasm. All SCAR primer pairs resulted in the amplification of specific fragments. Two of the SCAR markers named ScORA7-760 and ScORN3-R produced amplification products predominantly in resistant individuals and were found to correlate to disease resistance. ScORA7-760, in particular, is suitable for marker-assisted selection for powdery mildew resistance and to facilitate pyramiding powdery mildew resistance genes from various sources.     

新生隐球菌的AFLP分析

目的评估AFLP-DNA指纹技术在新生隐球菌分类中应用情况。方法新生隐球菌基因组DNA用双酶酶切,双链接头连于其酶切末端,用与接头和酶切位点互补的引物扩增DNA片段,其产物在高分辨的变性聚丙酰胺凝胶上电泳分离,然后进行银染。结果分析来自5种血清型和临床分离株的18株新生隐球菌,可见有30多条大小在30～500bp的DNA-AFLP指纹,相同的血清型有不同的指纹图谱,来自同一患者不同病期的两株分离株和来自同一患者患者的不同部位的两株分离株都显示出相同的带型。结论显示了AFLP的高分辨率,是适用于新生隐球菌流行病学调查的有力工具。     

Silver stained polyacrylamide gels and fluorescence-based automated capillary electrophoresis for detection of amplified fragment length polymorphism patterns obtained from white-rot fungi in the genus Trametes

Silver stained denaturing polyacrylamide gels (PAGEs) and fluorescent denaturing automated capillary electrophoresis (CE) were used to detect amplified fragment length polymorphism (AFLP) patterns obtained from white-rot fungi belonging to the genus Trametes. AFLP fingerprinting detected by the fluorescence-based method as well as by silver staining showed a high discriminatory power in differentiating nine strains of Trametes ochracea, nine strains of Trametes hirsuta and ten isolates of Trametes versicolor. UPGMA dendrograms derived from fluorescently labelled and silver stained AFLP patterns were similar, but a few differences were detected especially in the clustering of T. ochracea and T. hirsuta strains. Compared to silver-stained AFLP, detection of fluorescent AFLP was fast, reliable and easy to perform and it facilitated surveying with a computerized analysis system. Fluorescent CE seems to be well suited for studying similarity between Trametes species.     

Identification of a major quantitative trait locus (QTL) for yellow spot (<Emphasis Type="Italic">Mycovellosiella koepkei</Emphasis>) disease resistance in sugarcane

In this study we used amplified fragment length polymorphism (AFLP) and microsatellite (short sequence repeat or SSR) markers to identify a major quantitative trail locus (QTL) for yellow spot (Mycovellosiella koepkei) disease resistance in sugarcane. A bi-parental cross between a resistant variety, M 134/75, and a susceptible parent, R 570, generated a segregating population of 227 individuals. These clones were evaluated for yellow spot infection in replicated field trials in two locations across two consecutive years. A χ²-test (χ² at 98% confidence level) of the observed segregation pattern for yellow spot infection indicated a putative monogenic dominant inheritance for the trait with a 3 (resistant):1(susceptible) ratio. The AFLP and SSR markers identified 666 polymorphisms as being present in the resistant parent and absent in the susceptible one. A genetic map of M 134/75 was constructed using 557 single-dose polymorphisms, resulting in 95 linkage groups containing at least two markers based on linkages in coupling. QTL analysis using QTLCartographer v1.17d and MAPMAKER/QTL v1.1 identified a single major QTL located on LG87, flanked by an AFLP marker, actctc10, and an SSR marker, CIR12284. This major QTL, which was found to be linked at 14 cM to an AFLP marker, was detected with LOD 8.7, had an additive effect of −10.05% and explained 23.8% of the phenotypic variation of yellow spot resistance.     

A silver staining procedure for nucleic acids in polyacrylamide gels without fixation and pretreatment

Silver staining of nucleic acid has been widely used in molecular marker analysis such as simple sequence repeat (SSR), single-strand conformation polymorphism (SSCP), and amplified fragment-length polymorphism (AFLP). Many alternatives to silver staining methods have been described, but these methods are not efficient or cost-effective. Here we report a silver staining method that requires less than 10 min for one gel and can save chemicals as well. It has a detection limit of approximately 5.6 pg of DNA/mm² in nondenaturing polyacrylamide gels and 12.8 pg/mm² in denaturing polyacrylamide gels.     

Random-amplified-polymorphic DNA markers in sorghum

Conditions have been identified that allow reproducible amplification of RAPD markers in sorghum. High resolution of RAPD markers was accomplished by radiolabeling PCR-amplified DNAs followed by separation on denaturing 5% polyacrylamide gels. Reaction parameters including MgCl₂ concentration and temperature significantly influenced yield and the type of amplification products synthesized. Unexplained amplified DNAs increased when more than 35 cycles of PCR amplification were used. Under standard conditions, approximately 80% of the primers tested amplified DNA, and most revealed 1–5 polymorphisms between BTx 623 and IS 3620C. Primers were used to amplify RAPDs in 32 genotypes of sorghum. In addition, 8 primers detected RAPDs in a population previously used to create an RFLP map for sorghum. These RAPDs were mapped successfully using a population of 50 F₂ plants.     

Genome-wide isolation of resistance gene analogs in maize (Zea mays L.)

Conserved domains or motifs shared by most known resistance (R) genes have been extensively exploited to identify unknown R-gene analogs (RGAs). In an attempt to isolate all potential RGAs from the maize genome, we adopted the following three methods: modified amplified fragment length polymorphism (AFLP), modified rapid amplification of cDNA ends (RACE), and data mining. The first two methods involved PCR-based isolations of RGAs with degenerate primers designed based on the conserved NBS domain; while the third method involved mining of RGAs from the maize EST database using full-length R-gene sequences. A total of 23 and 12 RGAs were obtained from the modified AFLP and RACE methods, respectively; while, as many as 109 unigenes and 77 singletons with high homology to known R-genes were recovered via data-mining. Moreover, R-gene-like ESTs (or RGAs) identified from the data-mining method could cover all RACE-derived RGAs and nearly half AFLP-derived RGAs. Totally, the three methods resulted in 199 non-redundant RGAs. Of them, at least 186 were derived from putative expressed R-genes. RGA-tagged markers were developed for 55 unique RGAs, including 16 STS and 39 CAPS markers.     

Association of AFLP markers with downy mildew resistance in autotetraploid alfalfa

The amplified fragment length polymorphism (AFLP) assay is an efficient method for the identification of molecular markers useful in the improvement of numerous crop species. The identification of AFLP markers linked to disease resistance genes has been shown in segregating populations from crosses of inbred lines. The development of inbred lines in alfalfa is not possible, but existing breeding programs have produced populations selected for resistance to a single pest. Two such populations, UC-123 and UC-143, differing only in selection for resistance to downy mildew (Peronospora trifoliorum de Bary) isolate I-8, were used in this study. Thirty-six resistant plants from UC-143, and 36 susceptible plants from UC-123 were screened for DNA polymorphisms using fourteen AFLP primer combinations. Four AFLP fragment markers, ACACTC₂₀₈, ACACTC₁₅₀, ACACAT₂₁₆ and ACACTC₄₈₆, were found to be significantly associated with disease susceptibility or resistance. Resistant and susceptible plants were crossed in a diallel scheme and the progeny were screened for resistance to P. trifoliorum isolate I8. Two of the AFLP markers, ACACTC₂₀₈ and ACACTC₄₈₆ were significantly associated with resistance in the F₁ and S₁ progeny. The utilization of two populations, comprised of 36 resistant and 36 susceptible plants, for the identification of DNA fragments associated with disease resistance proved successful. Seventy-two plants is a very manageable number and provides a starting point for further refinement of marker-trait associations.     

Isolation of Female-Specific AFLP Markers and Molecular Identification of Genetic Sex in Half-Smooth Tongue Sole (<Emphasis Type="Italic">Cynoglossus semilaevis</Emphasis>)

The sex-specific molecular marker is a useful gene resource for studying sex- determining mechanisms and controlling fish sex. Artificially produced male and female half-smooth tongue sole (Cynoglossus semilaevis) were used to screen sex-specific amplified fragment length polymorphism (AFLPs) molecular markers. The phenotypic sex of 28 tongue soles was determined by histological sectioning of gonads. The AFLP analysis of 15 females and 13 males via 64 primer combinations produced a total of 4681 scorable bands, of which 42.11% and 43.39% of bands were polymorphic in females and males, respectively. Seven female-specific AFLP markers were identified and designated as CseF382, CseF575, CseF783, CseF464, CseF136, CseF618, and CseF305, respectively. One female-specific AFLP marker (CseF382) was amplified, recovered from the gels, cloned, and sequenced (accession no. DQ487760). This female-specific AFLP marker was converted into a single-locus polymerase-chain reaction (PCR) marker of a sequence-characterized amplified region (SCAR). A simple PCR method of using the specific primers was developed for identifying genetic sex of half-smooth tongue sole. PCR products demonstrated that the initial 15 females produced the female-specific band of about 350 bp, but the initial 13 male individuals failed to produce the band. We also investigated the applicability of the PCR primers in other tongue sole individuals. The same female-specific fragment of about 350 bp was found in the additional 59 female individuals, but not in the additional 58 male individuals. This AFLP-based molecular sexing technique may have great application potential in elucidation of sex determination mechanisms and sex control in half-smooth tongue sole.     

A PCR-based marker tightly linked to the nematode resistance gene,Mi, in tomato

A PCR-based codominant marker has been developed which is tightly linked to Mi, a dominant genetic locus in tomato that confers resistance to several species of root-knot nematode. DNA from tomato lines differing in nematode resistance was screened for random amplified polymorphic DNA markers linked to Mi using decamer primers. Several markers were identified. One amplified product, REX-1, obtained using a pair of decamer primers, was present as a dominant marker in all nematode-resistant tomato lines tested. REX-1 was cloned and the DNA sequences of its ends were determined and used to develop 20-mer primers. PCR amplification with the 20-mer primers produced a single amplified band in both susceptible and resistant tomato lines. The amplified bands from susceptible and resistant lines were distinguishable after cleavage with the restriction enzyme Taq I. The linkage of REX-1 to Mi was verified in an F₂ population. This marker is more tightly linked to Mi than is Aps-1, the currently-used isozyme marker, and allows screening of germplasm where the linkage between Mi and Aps-1 has been lost. Homozygous and heterozygous individuals can be distinguished and the procedure can be used for rapid, routine screening. The strategy used to obtain REX-1 is applicable to obtaining tightly-linked markers to other genetic loci. Such markers would allow rapid, concurrent screening for the segregation of several loci of interest.     

棉花2个多标记基因系及其杂交后代AFLP分析

应用AFLP分子标记技术,对陆地棉两个多标记基因系T582和T586及其杂交后代F1等进行了DNA多态性分析。结果表明:在58对EcoRI/MseI引物组合中,筛选出41对引物组合具有多态性,多态性的引物组合占筛选总组合的70.69%。AFLP分子标记具有高度的多态性,非常适于基因组差异较小的(棉花)材料之间的多态性筛选。采用聚丙烯酰胺银染法显带技术,AFLP进行PCR扩增能看到30~80条DNA亮带,且检测灵敏度高,可区别只相差十几个bp甚至几个bp大小的DNA片段。但AFLP标记以显性标记占绝对优势,共显性标记比率极少,故而难以区分种质的杂合和纯合,这是它的惟一不足之处。     

Monitoring of cultivar identity in tissue culture-derived date palms using RAPD and AFLP analysis

In the present study, two polymerase chain reaction (PCR)-based methods namely, randomly amplified polymophic DNA (RAPD) and amplification fragment length polymorphism (AFLP) were employed to assess genetic variations, which may appeared, in tissue culture-derived date palm (Phoenix dactylifera) offshoots. Analysis of RAPD banding patterns generated by PCR amplification using 37 random primers gave no evidences for somaclonal variations and the percentage of polymorphic bands in a total of 259 scored bands was zero. Meanwhile, analysis of AFLP banding patterns generated using 13 primer combinations pointed to minor genetic variations in the AFLP banding patterns. The percentage of genetic variations (polymorphism) in tissue culture-derived date palm offshoots belonging to cultivars Sakkoty, Gandila and Bertamoda was 2.6, 0.79 and 1 %, respectively, as revealed by AFLP analysis. The low percentage of genetic variations confirms the genetic stability of tissue culture-derived dry date palm cultivars.     

<Emphasis Type="Italic">CaMi</Emphasis>, a root-knot nematode resistance gene from hot pepper (<Emphasis Type="Italic">Capsium annuum</Emphasis> L.) confers nematode resistance in tomato

Several root-knot nematode (Meloidogyne spp.) resistance genes have been discovered in different pepper (Capsium annuum L.) lines; however, none of them has yet been cloned. In this study, a candidate root-knot nematode resistance gene (designated as CaMi) was isolated from the resistant pepper line PR 205 by degenerate PCR amplification combined with the RACE technique. Expression profiling analysis revealed that this gene was highly expressed in roots, leaves, and flowers and expressed at a lower level in stems and was not detectable in fruits. To verify the function of CaMi, a sense vector containing the genomic DNA spanning the full coding region of CaMi was constructed and transferred into root-knot nematode susceptible tomato plants. Sixteen transgenic plants carrying one to five copies of T-DNA inserts were generated from two nematode susceptible tomato cultivars. RT-PCR analysis revealed that the expression levels of CaMi gene varied in different transgenic plants. Nematode assays showed that the resistance to root-knot nematodes was significantly improved in some transgenic lines compared to untransformed susceptible plants, and that the resistance was inheritable. Ultrastructure analysis showed that nematodes led to the formation of galls or root knots in the susceptible lines while in the resistant transgenic plants, the CaMi gene triggered a hypersensitive response (HR) as well as many necrotic cells around nematodes. Rugang Chen and Hanxia Li are contributed equally to this work.     

PCR-based DNA markers linked to a gall midge resistance gene, Gm4t, has potential for marker-aided selection in rice

Rice DNAs from a gall midge resistant variety, Abhaya, a susceptible variety, Tulsi and their F₃ progeny were screened using 500 random primers in conjunction with bulked-segregant analysis in a polymerase chain reaction (PCR) with a view to detecting random amplified polymorphic DNAs (RAPDs) linked to the gene, Gm4t, which confers resistance to gall midge, a dipteran insect pest of rice. A total of 454 primers were able to produce a distinct amplification pattern, and 3695 bands/loci were amplified between the phenotypically different parents. Of these, 304 bands were polymorphic between the parents, with 19 being phenotypespecific. One of these primers, E20, amplified 2 bands, E20₅₇₀ and E20₅₈₃, which are tightly linked to resistance and susceptibility, respectively. These specific bands were cloned and sequenced, and a 94% sequence homology was found between the two fragments. Two specific 20-mer oligonucleotides were synthesized, based on the sequence information of E20₅₈₃, for use in PCR amplification directly from genomic DNAs. These PCR primers were able to amplify phenotype-specific bands, a 583-bp fragment in susceptible F₃ lines and a 570-bp fragment in resistant F₃ lines that had been derived from a cross between the parents, indicating their potential and utility for marker-aided selection of the Gm4t gene in rice. Its use would facilitate the early and efficient selection of resistant genes in plant breeding programmes and even in those areas where the insect is not known to occur. These phenotype-specific bands are single-copy sequences and are being mapped to ascertain their chromosomal location in rice.