Production of a SCAR marker in pea Pisum sativum L. using RAPD analysis]

A polymorphic 750-bp fragment, RAPD marker, specific to particular pea genotypes (line L-111 and the Nord cultivar) was identified. Using this RAPD marker, SCAR was obtained. SCAR inheritance in the first and second generations was studied and its dominant character was shown.     

利用分子标记技术检测玉米杂种纯度研究

以12份玉米自交系及其组配的8个杂交种为材料,利用分子标记技术进行杂种纯度检测研究。有用RAPD标记方法,从300个随机引物中,筛选确定了8个杂交种种子纯度检测引物,制定了检测标准标记图谱。建立了海禾3纯度分析的SCAR标记,该SCAR标记与RAPD标记在种子纯度检测上结果完全一致。     

葡萄感霜霉病基因的分子标记(英文)

 在葡萄抗病育种中 ,幼苗期排除感霜霉病的后代具有特别重要的意义 .用 BSA,RAPD和SCAR方法研究了葡萄感霜霉病基因的分子标记 .分析了两个种间杂交组合 [毛葡萄 (抗病 )×欧洲葡萄 (感病 ) ]88- 1 1 0和 88- 84与 88- 1 1 0的 F1代自交或互交所得的 3个 F2 代 ,以及欧洲葡萄品种和中国野生葡萄种 .共筛选了 2 80个随机引物 .引物 OPO1 0产生了一个 RAPD标记 OPO1 0 - 80 0与葡萄感霜霉病主效基因紧密联锁 .将该 DNA片段克隆并测序 .OPO1 0 - 80 0的实际长度为 835bp,所以 OPO1 0 - 80 0应为 OPO1 0 - 835.据其两端序列 ,设计了一对长度为 2 6bp和 2 8bp的特异引物分别扩增上述试材 ,获得了与该 RAPD标记相同大小的一条带 ,将 RAPD标记转化为 SCAR标记SCO1 0 - 835.并证实了此 SCAR标记的通用性 ,该 SCAR标记可用于葡萄抗病育种中杂种后代对霜霉病的抗病与感病性鉴定 .     

SCAR分子标记技术在香菇菌株鉴定上的应用研究

为了建立一套基于DNA分子标记技术快速鉴定香菇菌株的有效方法,本研究首先通过对生产上常用的14个香菇菌株进行RAPD多态性分析,从香菇菌株162中扩增获得了一个片段长为1166bp的特异RAPD标记XG1166,随之利用分子克隆技术将该特异RAPD标记成功转化为稳定的SCAR标记。用同样的方法,本研究又从另一香菇菌株申香10号中获得了一段长度为347bp的特异SCAR标记SX347。试验结果表明,利用本研究获得的香菇菌株162和申香10号的特异SCAR标记,能在一天时间内准确鉴定出香菇菌株162或申香10号菌株的真伪。由此可见,SCAR分子标记是一种快速、稳定、准确鉴定香菇菌株的新方法, 可应用于食用菌种质资源保护利用、品种分类与鉴定和假种辨别。     

Generation of a Sequence Characterized Amplified Region Probe for Authentication of Mainland Serow (Capricornis sumatraensis)

Mainland serow is an endanged artiodactyl of southern Anhui province, China, that is often subject to poaching. To provide an easy, rapid and reliable marker for identification of bushmeat, skin and other tissues of the species, we developed a sequence characterized amplified region (SCAR) based on a species-specific random amplified polymorphic DNA (RAPD) marker. Initially, a 1012-bp species-specific DNA fragment of mainland serow was detected by a RAPD primer S1193. Then, a serow-specific primer pair (SCF/SCR) was designed according to the specific RAPD fragment, resulting in a 438-bp SCAR for the species. Finally, the reliability of the SCAR primers was tested by a common multiplex polymerase chain reaction using the combination of the SCAR and cyt b universal primers. The results that all mainland serow samples presented two target bands but the others failed to produce the SCAR indicated that the designed primers were highly diagnostic. Therefore, the SCAR probe developed in this study will be useful for quick authentication of mainland serow tissue samples for conservation biology and bushmeat regulation.     

西瓜抗枯萎病育种分子标辅助选择的研究

将西瓜野生种质ＰＩ２９６３４１抗枯萎病生理小种１的抗性基因连锁的ＲＡＰＤ标记ＯＰＰ０１．７００进行克隆、测序,Ｓｏｕｔｈｅｒｎ杂交证明此标记为１个单拷贝,并转化为ＳＣＡＲ标记,简化了ＳＣＡＲ扩增产物的检测技术。上述技术在抗病转育后代造反中得到了很好的应用,初步建立了西瓜抗枯萎病育种分子标记辅助选择技术系统。     

Development and study of SCAR markers in pea (Pisum sativum L.)

In order to develop more specific markers that characterize particular regions of the pea genome, the data on nucleotide sequences of RAPD fragments were used for choosing more extended primers, which may be helpful in amplifying a fragment corresponding to the particular DNA region. Of the 14 STS markers obtained from 14 polymorphic RAPD fragments, 12 were polymorphic, i.e., they are SCAR markers that can be used in genetic analysis. The transition from complex RAPD spectra to amplification of a particular SCAR marker substantially facilitates analysis of large samples for the presence or absence of the examined fragment. Inheritance of the developed SCAR markers was studied in F1 and F2. SCAR markers were used to identify various pea lines, cultivars, and mutants. It was established that the study of amplification of STS markers in various pea genotypes at varying temperatures of annealing and the comparison with amplification of the original RAPD fragments in the same genotypes provide an approach for analysis of RAPD polymorphism type.     

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。     

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.     

小麦抗白粉病基因Pm21的分子鉴定和标记辅助选择

利用小麦抗白粉病基因Ｐｍ２１的ＲＡＰＤ标记、ＳＣＡＲ标记和荧光源位杂交技术对小麦抗病育种材料中的抗白粉病Ｐｍ２１基因进行了分子鉴定和标记辅助选择。     

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。     

Development and Study of SCAR Markers in Pea (<Emphasis Type="Italic">Pisum sativum</Emphasis> L.)

In order to develop more specific markers that characterize particular regions of the pea genome, the data on nucleotide sequences of RAPD fragments were used for choosing more extended primers, which may be helpful in amplifying a fragment corresponding to the particular DNA region. Of the 14 STS markers obtained from 14 polymorphic RAPD fragments, 12 were polymorphic, i.e., they are SCAR markers that can be used in genetic analysis. The transition from complex RAPD spectra to amplification of a particular SCAR marker substantially facilitates analysis of large samples for the presence or absence of the examined fragment. Inheritance of the developed SCAR markers was studied in F₁ and F₂. SCAR markers were used to identify various pea lines, cultivars, and mutants. It was established that the study of amplification of STS markers in various pea genotypes at varying temperatures of annealing and the comparison with amplification of the original RAPD fragments in the same genotypes provide an approach for analysis of RAPD polymorphism origin.     

与苹果Co基因紧密连锁的RAPD标记的筛选及其SCAR标记转换

以短枝富士(Spur Fuji)X舞姿(Telamon)的105株F1群体为试材,利用RAPD技术,结合集群分类分析法(BSA)进行了苹果柱型基因(Co)分子标记的研究。通过对300条随机引物的筛选,获得一个与Co基因紧密连锁的RAPD标记S1142682,连锁距离为2．86cM。对该标记片段进行序列测定,然后根据序列特点设计了4条特异引物(其中正向引物与反向引物各两条)。PCR结果显示,这4条引物的4种组合都可以扩增出柱型性状的特征带。选其中之一进行群体上的分析,结果表明该SCAR标记特征带与柱型性状的共分离行为与原RAPD标记表现一致。可见,此组合的引物可以作为该SCAR标记的特异引物。通过对S1142682标记片段序列分析发现,在 45～ 251区域含有一个可编码68个氨基酸残基的ORF。     

陆地棉HB红花性状特异SCAR分子标记的开发

利用Operon系列引物筛选到1个与HB红花性状基因连锁的RAPD标记OPA15^1160,对差异条带进行克隆与核苷酸测序,根据测序结果设计SCAR引物,在HB红花近等基因系及其白花轮回亲本中进行PCR扩增程序优化和鉴定,筛选出一对引物可稳定扩增出与HB红花性状基因连锁的特异片段,获得了与HB红花性状基因紧密连锁的SCAR标记HB^-330。利用具黄色花瓣紫红色基斑的海岛棉与粉红花瓣的红叶棉等种质材料以7LHB红花近等基因系与白花轮回亲本杂交的F1、BC1F1、F2群体,对该SCAR标记的特异性与准确性进行了鉴定与验证,在红花植株中扩增出了330bp大小的片段而在白花植株中未扩增出,证明该标记准确性高、重复性好。HB红花是通过远缘杂交转自野生二倍体比克氏棉的性状,已成功地应用于性状标记杂交棉育种。该SCAR标记不仅为HB红花标记杂交种的纯度鉴定提供了有效技术手段,也为新品种保护提供了技术支持,促进了红花性状杂交种的分子标记辅助育种进程。     

遗传改良"新吉富" (NEW GIFT)尼罗罗非鱼RAPD-SCAR标记开发及其在品系鉴别中的应用

“新吉富”(NEW GIFT)尼罗罗非鱼是以1994年引进的 “吉富”(GIFT)品系尼罗罗非鱼为基础群体,经过14年9代系统选育后获得的新品种,该品种已被国家审定为良种,已在全国推广,迫切需要有效的分子遗传标记来鉴别该新品种并实施科学管理。该研究对良种群体开展了RAPD分析,并进一步将特异性的RAPD标记转化成了稳定的SCAR标记。 通过对“新吉富”群体的RAPD分析,找到了两个品种特异性的RAPD条带（S₃₀₄^{624 bp}和S₃₆^{568 bp}）。对品种特异性的RAPD条带进行了胶回收、克隆和序列测定。根据测序结果设计了两对位点特异性引物来扩增这两个品种特异性条带（简称SCAR标记Ⅰ和Ⅱ）,检测这两个SCAR标记在“新吉富”、“吉富”以及国内外7个养殖品系中的出现频率。SCAR标记Ⅰ（553 bp）在“新吉富”群体中的出现频率为85.7%,而在其基础群体（“吉富”）中的出现频率仅为16.7%;SCAR标记Ⅱ（558 bp）在“新吉富”群体中的出现频率达到91.4%,但在其它7个养殖品系中的出现频率仅在0%～70%之间。为验证这两个标记的可靠性,检测了这两个标记在一个埃及罗非鱼野生群体中的出现频率,发现SCAR标记Ⅰ和SCAR标记Ⅱ的出现频率分别为10%和70%,远低于在“新吉富”群体中的出现频率。这两个SCAR标记在“新吉富”良种群体中的高出现频率,预示它们可能与生长性能相关QTL位点间存在连锁关系,显示SCAR标记技术对选育世代间的纵向追溯、以及选育良种群体与其它养殖品系间的横向鉴别有较好应用前景。     

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。     

与葡萄抗霜霉病基因紧密连锁的分子遗传标记

以种间杂交组合88-110［83-4-96（毛葡萄,抗霜霉病）×粉红玫瑰（欧洲葡萄,感霜霉病）］的F     

黑木耳Au185菌株一个SCAR标记的建立

在对60个供试黑木耳菌株RAPD指纹图谱进行分析的基础上获得了黑木耳菌株Au185的RAPD特异性标记,将其克隆、测序,应用Primer5.0软件设计相应的特异引物对SC38-1,将RAPD特异性标记转化为黑木耳菌株Au185的稳定方便的SCAR标记,可快速、准确地鉴定出黑木耳菌株Au185。     

A family of LRR sequences in the vicinity of the Co-2 locus for anthracnose resistance in Phaseolus vulgaris and its potential use in marker-assisted selection

 Molecular markers offer new opportunities for breeding for disease resistance. Resistance gene pyramiding in a single cultivar, as a strategy for durable resistance, can be facilitated by marker-assisted selection (MAS). A RAPD marker, ROH20⁴⁵⁰, linked to the Mesoamerican Co-2 anthracnose resistance gene, was previously transformed into a SCAR marker, SCH20. In the present paper we have further characterized the relevance of the SCH20 SCAR marker in different genetic backgrounds. Since this SCAR marker was found to be useful mainly in the Andean gene pool, we identified a new PCR-based marker (SCAreoli) for indirect scoring of the presence of the Co-2 gene. The SCAreoli SCAR marker is polymorphic in the Mesoamerican as well as in the Andean gene pool and should be useful in MAS. We also report that PvH20, the cloned sequence corresponding to the 450-bp RAPD marker ROH20⁴⁵⁰, contains six imperfect leucine-rich repeats, and reveals a family of related sequences in the vicinity of the Co-2 locus. These results are discussed in the context of the recent cloning of some plant resistance genes. Received: 26 June 1997 / Accepted: 13 October 1997     

Generation and characterization of SCARs by cloning and sequencing of RAPD products: a strategy for species-specific marker development in bamboo

BACKGROUND AND AIMS: The aim of this study was to develop species-specific molecular markers for Bambusa balcooa and B. tulda to allow for their proper identification, in order to avoid unintentional adulteration that affects the quality and quantity of paper pulp production. METHODS: Two putative, species-specific RAPD markers, Bb836 for B. balcooa and Bt609 for B. tulda were generated using a PCR-based RAPD technique. Species-specificity of these two markers was confirmed through Southern hybridization in which RAPD gels were blotted and hybridized with radiolabelled cloned RAPD markers. Southern hybridization analyses were also performed to validate homology of the co-migrating Bb836 and Bt609 marker bands amplified from 16 different populations of B. balcooa and B. tulda, respectively. Sequence-characterized amplified region (SCAR) markers were developed from Bb836 and Bt609 sequences, using 20-mer oligonucleotide primers designed from both the flanking ends of the respective RAPD primers. KEY RESULTS: As anticipated, Bb836 hybridized with an amplified band from B. balcooa and Bt609 hybridized only with an amplified product from B. tulda; the two markers did not hybridize with the amplified products of any of the other 14 bamboo species studied. The two pairs of SCAR primers amplified the target sequences only in the respective species. The species-specific SCAR fragments were named as 'Balco836' for B. balcooa and 'Tuldo609' for B. tulda. The species-specific 'Balco836' was amplified from the genomic DNA of 80 individuals of 16 populations of B. balcooa studied. Similarly, the presence of 'Tuldo609' was noted in all the 80 individuals representing 16 populations of B. tulda assessed. These SCAR fragments contained no obvious repetitive sequence beyond the primers. CONCLUSION: These two molecular markers are potentially useful for regulatory agencies to establish sovereign rights of the germplasms of B. balcooa and B. tulda. In addition, this is the first report of species-specific SCAR marker development in bamboo.