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1 200个10 bp的随机引物,产生了8 372个RAPD条带.只有S1478产生一条大小为682 bp、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.     

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。     

银杏雌雄基因组DNA间的差异性分析

本研究应用RAPD技术,应用300个10bp随机单引物及200对随机双引物组合,检测了雌雄异株银杏基因组DNA的多态性。结果表明:雌雄基因组间具有极高的相似性,在检测到的3450个标记中,仅获得1个与银杏雄性基因组相关的RAPD标记。以该标记为探针,与雌雄银杏基因组DNA的Southern杂交分析,其杂交信号在两性之间表现为限制性片段长度多态性,该结果为寻找银杏早期性别鉴定的探针以及在细胞和分子水平进一步研究其性别问题奠定了基础。     

与棱果沙棘性别相关的RAPD标记

应用RAPD技术筛选与棱果沙棘性别相关的分子标记,对棱果沙棘雌雄株的基因组DNA进行混合分组分析（BSA）,在194条随机引物中有50条引物能够在雌雄DNA反应池间形成多态性条带,应用这50条引物分别对棱果沙棘雌雄个体（雌雄个体各选取5个）进行RAPD分析,其中引物S10扩增得到1个约为1030 bp的与雌性相关的RAPD标记。该标记的获得进一步表明棱果沙棘雌雄株间存在基因水平的差异,为棱果沙棘的性别研究提供分子依据。进一步利用该雌性特异位点设计出更加稳定的SCAR标记,可望用于棱果沙棘的早期性别的准确鉴别。     

大麻性别的RAPD和SCAR分子标记

利用随机扩增多态性DNA（random amplified polymorphic DNA,RAPD)技术获得与大麻性别连锁的分子标记,将10株雄性大麻或10株雌性麻的单个DNA样品等量混合分别组成雄性或雌性DNA池（DNApool),以提供具有相同遗传背景的雄,雄性DNA样品。每个随机引物分别用三个不同的循环程序进行PCR扩增,在30个随机引物中,用引物S401扩增得到一条约2．5kb雄性多态性片段,对该片段进行了克隆和序列分析 ,并根据序列分析结果将上述RAPD分子标记转化为重复性和特异性更好的SCAR（Sequence characterized amplified regions)分子标记。     

葎草雄性连锁的RAPD标记的克隆与SCAR标记的建立

应用随机扩增的DNA多态性（RAPD）技术可以快速简便获得雌雄异株植物雌雄株间的基因组差异信息,本文采用该技术对律草雌雄混合基因池进行了扩增,在选用的100条10bD的随机引物中,引物S1519和S2142分别扩增出长度为1207bp和762bp的雄性连锁标记,对其进行回收克隆和测序后发现这两个片段富含AT序列,AT含量分别为64％、54．7％,经核苷酸数据库BLAST检索未发现其同源序列。根据测序结果设计的SCAR引物可以将这两个雄性连锁的RAPD标记转化为稳定性和特异性更好的SCAR标记。     

大麻性别的RAPD和SCAR分子标记

利用随机扩增多态性DNA(randomamplifiedpolymorphicDNA,RAPD)技术获得与大麻性别连锁的分子标记.将10株雄性大麻或10株雌性大麻的单个DNA样品等量混合分别组成雄性或雌性DNA池(DNApool),以提供具有相同遗传背景的雌、雄性DNA样品.每个随机引物分别用三个不同的循环程序进行PCR扩增.在30个随机引物中,用引物401扩增得到一条约2.5kb雄性多态性片段.对该片段进行了克隆和序列分析,并根据序列分析结果将上述RAPD分子标记转化为重复性和特异性更好的SCAR(sequencecharacterizedamplifiedregions)分子标记.     

谭清苏铁性别相关的RAPD标记研究

以谭清苏铁(Cycas tanqingii D.Y.Wang)雌雄植株半年生羽叶为材料,用优化的CTAB法分别提取其全基因组DNA,进行RAPD单因子梯度实验和正交实验以优化扩增条件。应用160个RAPD随机引物检测基因组DNA,雌雄植株均扩增出1450多条带,其中引物S0465扩增出与谭清苏铁雌株高度相关的RAPD标记,其大小约为500bp,该标记与雄株没有关联。     

一种新的近交系实验动物遗传监测方法及小鼠性别相关RAPD标记的发现

我们用21个10 bp的随机短引物对来自昆明、成都、上海、北京四个地方的BALB/c小鼠以及C57BL小鼠、昆明种小白鼠进行了随机扩增多态DNA(RAPD)分析,发现13个引物的扩增产物在BALB/c小鼠和C 57 BL小鼠中有差异,8个引物的扩增产物在BALB/c小鼠和昆明种小白鼠之间不同.在四个地方的BALB/c小鼠中,成都、上海、北京的BALB/c小鼠其遗传背景均一,而来自昆明的BALB/c小鼠中,有2只的4个引物的扩增产物不同于其它的BALB/c小鼠,表明这两只BALB/c小鼠可能曾发生过某种程度的遗传改变或污染。实验结果显示RAPD方法是一种有效的近交系实验动物遗传监测手段。实验中一个有趣的结果是,在OPG 2、OPE 4、OPE 9的扩增产物中,发现了严格的性别依赖的PAPD标记。OPE 9扩增产物中,凡雄性个体都有一条0.88 kb的标记.OPG 2、OPE 4则在所有的雄性个体中多扩增出一条约1.2 kb的带。通过交叉PCR扩增和斑点杂交证明OPG 2、OPE 4 得到的雄性特异性RAPD标记虽分子大小一致,但不具同源性。这些性别相关RAPD标记的染色体定位和性质分析正在进一步进行中.     

Identification of Random Amplified Polymorphic DNA Markers Linked to Sex Determination in Calamus simplicifolius C. F. Wei

The random amplified polymorphic DNA (RAPD) molecular marker technique was used to determine the sex of Calamus simplicifolius C. F. Wei In the present study, DNA samples were extracted individually from 10 male and 10 female plants. After a total of 1 040 decamer primers had been tested, an approximate 500-bp male-specific DNA fragment was generated with the S1443 primer. It is feasible to identify sex at the early stages of plant life, which is beneficial for improving breeding programs of this dioecious species. In addition, we have obtained a proper RAPD protocol that is useful for other species of rattan.     

Identification of Random Amplified Polymorphic DNA Markers Linked to Sex Determination in Calamus simplicifolius C. F. Wei.

The random amplified polymorphic DNA （RAPD） molecular marker technique was used to determine the sex of Calamus simplicifolius C. F. Wei In the present study, DNA samples were extracted individually from 10 male and 10 female plants. After a total of 1 040 decamer primers had been tested, an approximate 500-bp male-specific DNA fragment was generated with the S 1443 primer. It is feasible to identify sex at the early stages of plant life, which is beneficial for improving breeding programs of this dioecious species. In addition, we have obtained a proper RAPD protocol that is useful for other species of rattan.     

Cytological and molecular characterization of a novel monogenic dominant GMS in <Emphasis Type="Italic">Brassica napus</Emphasis> L.

A novel genic male sterile (GMS) line in Brassica napus L., which was identified in 1999, was found to be controlled by a monogenic dominant gene, which we have designated as MDGMS. The microspores of the MDGMS abort before the degradation of the tapetal cell layer. The F1 fertility from any fertile lines crossed with MDGMS segregated and the ratio was close to 1:1. Bulked segregation analysis (BSA) was employed to identify random amplified polymorphic DNA (RAPD) markers linked to the Ms gene in MDGMS. Among 880 random 10-mer oligonucleotide primers screened against the bulk DNA of sterile and fertile, one primer S243 (5′-CTATGCCGAC-3′) gave a repeatable 1500-bp DNA polymorphic segment S243₁₅₀₀ between the two bulks. Analysis of individual plants of each bulks and other types of GMS and cytoplasmic male sterility (CMS) lines suggest that the RAPD marker S243₁₅₀₀ is closely linked to the MDGMS locus in rapeseed. This RAPD marker has been converted into sequence characterized amplified region (SCAR) marker to aid identification of male-fertility genotypes in segregating progenies of MDGMS in marker-assisted selection (MAS) breeding programs.     

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.     

细胞质雄性不育花椰菜保持系特异分子标记的鉴定及序列分析

以花椰菜细胞质雄性不育系NK-6和相应保持系NK-6B为材料进行RAPD分析,筛选了406条RAPD引物,共获得了2160条清晰可辨的条带,平均每个引物产生5-10条。其中引物S2121在两系的扩增中表现出多态性,在保持系中特异扩增出一条934bp的片段。克隆、测序,根据测序结果设计特异性引物,将RAPD标记转化成特异PCR标记,命名为S2121900。经Southern点杂交分析及对单株和多份候选材料的检测证实该标记为花椰菜保持系所特有,可用于候选保持系的早期筛查。序列分析表明该片段与油菜、拟南芥线粒体上的序列有较高相似性,因此推测该片段亦可能来源于线粒体基因组。本研究为从另一角度解释花椰菜细胞质雄性不育的分子机制提供了新线索。     

Identification of DNA markers linked to the male sex in dioecious hemp (Cannabis sativa L.)

 A 400-bp RAPD marker generated by a primer of random decamer sequence has been found associated with the male sex phenotype in 14 dioecious cultivars and accessions of hemp (Cannabis sativa L.). The primer OPA8 generates a set of bands, most of which polymorphic among all the individual plants tested, and 1 of which, named OPA8₄₀₀, present in all male plants and absent in female plants. A screening of 167 plants belonging to different genotypes for the association of the OPA8₄₀₀ marker with the sex phenotype revealed that only in 3 cases was the 400-bp band was present in plants phenotypically female; on the contrary, in male plants the band was never missing, while in monoecious plants it was never present. Despite this sex-specific association, the sequences corresponding to OPA8₄₀₀ were present in both staminate and carpellate plants, as revealed by Southern blotting and hybridization with the cloned RAPD band. The RAPD marker was sequenced, and specific primers were constructed. These primers generated, on the same genotypes used for RAPD analysis, a SCAR marker 390 bp in length and male-specific. This SCAR is suitable for a precise, early and rapid identification of male plants during breeding programs of dioecious and monoecious hemp. Received: 16 January 1998 / Accepted: 30 April 1998