雄牛特异的SRY同源序列的扩增和分析

利用人、兔、鼠SRY序列设计引物,应用PCR扩增牛的SRY序列,获得200bp的雄牛特异的扩增片段。克隆该扩增片段,获得重组质粒pCH21,进行序列分析,并与人、兔和鼠SRY的对应区域比较,具有高度同源性。用pCH21 DNA作探针与牛的基因组DNA酶切图谱杂交,显示了雄牛特异的I．7kb的杂交带。分析200bp的PCR扩增片段是牛的SRY基因片段。用同一对引物扩增人和山羊的DNA样品,也获得雄性特异的200bp的扩增片段。     

染色体显微切割与DOP—PCR结合对赤麂Sry基因克隆，测序及初步定位

应用显微切割技术获得赤麂1号,Y1,Y2染色体,通过DOP－PCR增加模板DNA拷贝数,然后用人的性别决定基因（Sex-tetermininig Region of the Chromosome Y,SRY)中HMG框内设计1对引物,对DOP－PCR产物进行扩增,在雄性赤麂Y2染色体DOP－PCR产物中扩增出与人SRY基因同源的Sry基因片段,克隆,测序,首次在分子水平上证明赤麂Y2染色体是真正的Y染色体,同时对赤麂Syr基因进行了初步定位。     

向日葵单染色体显微分离及特异文库的构建

采用玻璃针分离法,通过显微操作系统成功地分离到内葵杂3号三交种和单交种的随体染色体,经两轮LA．PCR扩增得到250～1500bp的DNA片段。用各自的基因组DNA标记成探针,与随体染色体扩增产物进行Southern杂交,显示杂交信号,证明内葵杂3号三交种和单交种随体染色体DNA已被成功扩增。将第2轮PCR产物构建质粒文库,得到三交种和单交种克隆数分别约为2．26×10^5和2．57×10^5。各随机挑取30个重组子进行分析,发现插入片段大小分别为200-700bp和200～500bp,平均插入片段大小分别为535bp和480bp。这是染色体微分离与微克隆技术首次在向日葵上的应用。     

东北虎中五个Sox基因的保守区序列分析(英文)

在哺乳动物中,Y染色体决定着雄性性别,这是由于在其短臂上存在一个编码睾丸决定因子 (TDF) 的基因。1990年,人们克隆了睾丸决定因子基因并命名为SRY。序列分析表明SRY基因中存在一个保守区,与染色体高迁移率组 (HMG) 蛋白质上的DNA结合结构域具有一定的相似性。基于HMG基序的保守性人们发现了一个新的基因家族Sox基因家族。凡是在HMG区域与SRY基因具有50%以上相似性的基因被称为Sox基因。Sox基因在早期胚胎发育过程中参与多种发育途径,具有重要的作用。参与诸如性别决定、骨组织的发育、血细胞生成过程、神经系统的发育、晶状体的发育等多种早期胚胎发育过程。 虎(Panthera tigris)作为世界上最濒危的兽类之一,东北虎(Panthera tigris altaica Temminck)是其中的一个亚种,被列为一类珍稀动物。本文对其发育基因家族—SOX基因进行了研究。 利用肌肉组织为材料制备基因组DNA, 应用特异于HMG-box区域的兼并引物, 扩增了东北虎的SOX基因。在扩增产物中发现一条220bp的扩增带。经过克隆与序列测定和同源性检索,发现5个基因片段(Fig.1&2)。其与人SRY基因的相似性分别为75%、56%、51%、67% 和48%;与小鼠Sry基因的相似性分别为73%、54%、57%、66% 和 48% (Table 1)。因此这5个DNA片段为东北虎的5个Sox基因片     

HSV-tk基因逆转录病毒重组体的构建与DNA序列分析

目的　构建含有单纯疱疹病毒Ⅰ型胸苷激酶 (HSV1 tk)基因的逆转录病毒重组载体pLXSN TK。方法设计一对寡核苷酸引物 ,用PCR方法从质粒pHSV10 6中特异扩增HSV tk基因片段 ( 1168bp) ,分别用BamHI和Eco RI酶切后 ,定向连接到质粒pLXSN中 ,转化宿主菌TG1,分别用上述内切酶 ,PCR和DNA测序鉴定重组质粒。结果　酶切鉴定所切下的片段和PCR扩增的片段大小均与预计相符 ,测序结果与文献报道序列及预计结果一致 ,证实符合表达框架。结论　成功构建了HSV tk嵌合重组质粒pLXSN TK。     

赤麂SRY基因的测序及其与部分偶蹄目动物SRY基因序列的比较

采用人SRY基因的一段保守序列的引物,通过PCR在雄性赤麂中扩增出了赤麂SRY基因的特异片段,通过DNA斑点杂交证实其扩增产物与人SRY基因探针进行菌落杂交筛选出赤麂SRY基因的阳性克隆,并对其进行了,将其序列与基因库中录入的所有偶蹄目动物的SRY基因序列进行同源性比较,用UPGMA法构建了其系统进化树,从分类和进化上对赤麂SRY基因进行分析。     

小麂Sry基因的克隆和测序

应用人的性别决定基因SRY(Sex-determining Region Y gene,SRY)中HMG框内的一对引物,对小麂细胞株的基因组DNA进行PCR扩增,得到雄性小麂细胞的220bp扩增产物,而在雌性小麂细胞中未发现扩增产物。将雄性小麂细胞的220bp扩增产物通过T-A互补法克隆到质粒pGEM-T 载体中,筛选阳性克隆进行DNA测序。测序结果表明小麂Sry基因保守序列与人的SRY基因保守区相同碱基的比值为152/184,达到82.6%。提示小麂Sry基因与人的SRY基因存在着较高的同源性,说明SRY基因在进化过程中高度保守。 Abstract:Using the primers from SRY gene——HMG Box for PCR amplification in genomic DNA of Muntiacus reevesi cell strains,a 220bp fragment was obtained in the male but not in the female.The 220bp fragment was cloned into the pGEM-T vector using T/A clone method.The identified positive clone was sequenced.The result shows that 82.6% nucleotides(152bp/184bp) are homologous between Muntiacus Sry and human SRY gene.It suggests that SRY is highly conserved during evolution.     

六例性反转综合征患者的分子遗传学分析

对六例性反转综合征患者(3例XX男性)(3例XY女性)用Y-特异性DNA探针进行了Southern印迹杂交分析,并用PCR技术扩增了SRY基因部分序列。结果表明,1例XX男性缺乏源于Y染色体的杂交信号,也无SRY基因;其余2例XX男性和3例XY女性都检测到Yp-DNA序列和SRY基因。这对进一步阐明性反转综合征的病因和SRY基因的作用机制具有重要意义。     

用于筛查转基因作物成分的质粒标准分子的研制

为弥补传统标准物质的缺乏,构建了一种可用于筛查转基因作物成分的质粒标准分子。首先,通过PCR扩增获得454 bp的RBCL基因、236 bp的CaMV35S启动子以及200 bp的NOS终止子目的片段,经两次重叠延伸PCR扩增将上述3个片段连接成849 bp的重组子。随后,将该重组子克隆至pMD18-T载体,经PCR扩增、测序分析后成功获得阳性重组质粒pMD-RBCL-CaMV35S-NOS。进一步的替代性研究显示,该重组质粒DNA与标准物质基因组DNA的检测分析结果一致。因此,该重组质粒标准分子可作为阳性标准物质用于转基因作物成分的初步筛查检测。     

46,XY女性性反转患者SRY基因的两个新突变类型

Y染色体上的性别决定区域——SRY基因作为睾丸决定因子,可以调控男性性别发育过程。SRY基因是一种转录因子,属于带有高迁移率族蛋白家族,该家族成员包含能与DNA结合的HMG盒基序。已知SRY基因的缺失和点突变是造成XY女性性反转的病因之一。通过筛查10位中国46,XY女性性反转病人SRY基因的开放阅读框区域,探寻新的突变类型。用标准方法从外周血中抽提gDNA,通过聚合酶链式反应扩增SRY基因中部的609bp的DNA片段。扩增后的PCR片段被克隆到pUCm-T载体中,在ABI377-3自动测序仪上完成测序。运用限制性内切酶酶切分析的方法验证DNA测序的结果。结果表明,在两个患者的SRY基因中分别发现了新的核苷酸点突变,并都导致氨基酸替代。一个突变发生在SRY基因的5’端HMG盒外的核苷酸第113位腺嘌呤(A)被鸟嘌呤(G)取代,并导致谷氨酸被甘氨酸替换;另一个突变是第387位核苷酸发生T被A替换,该突变引起第129位的酪氨酸变成终止密码,她父亲的SRY序列被证明是正常的野生型。通过查询文献和人类基因突变数据库(HGMD),这两个突变都是以前未见报道过的新型SRY基因突变,并使因核苷酸替换引起SRY基因突变总数增加到45。     

一例性反转畸形SRY基因片段的扩增、克隆和核苷酸序列分析

在哺乳动物中,位于Ｙ染色体上的指导雄性性别分化的基因被命名为睾丸决定因子（Ｔｅｓｔｉｓ－ｄｅｔｅｒｍｉｎｉｎｇｆａｃｔｏｒ,ＴＤＦ）１９９０年６月分离获得的ＳＲＹ基因（Ｓｅｘ－ｄｅｔｅｒｍｉｎｉｎｇｒｅｇｉｏｎｏｆｔｈｅＹ）被认为是ＴＤＦ基因最好的候选者［１－４］。ＳＲＹ基因为单拷贝,位于Ｙ染色体短臂末端１Ａ１Ａ区,靠近假常染色体配对区（ＰＡＰＲ）的交界处,其部分顺序编码８０个保守性氨基酸组成的多肽。本实验使用与ＳＲＹ基因相应的引物,利用ＰＣＲ技术以一例性反转畸形病人的基因组ＤＮＡ为模板分离ＳＲＹ基因保守区顺序,并将特异扩增出的此ＳＲＹ基因片段重组到质粒ｐＵＣ１２中,得到含有ＳＲＹ基因片段的克隆。经测序表明其ＳＲＹ基因保守顺序上有Ｔ→Ｃ（Ｓｅｒ→Ｐｒｏ）突变。ＳＲＹ基因的存在及其突变可能是导致性反转畸形发病的原因。     

Familial case with sequence variant in the testis-determining region associated with two sex phenotypes.

The human Y chromosome encodes a testis-determining factor (TDF) which is responsible for initiating male sex determination. Recently a region of the Y chromosome (SRY) was identified as part of the TDF gene. We have identified a three-generation family (N) in which all XY individuals have a single base-pair substitution resulting in a conservative amino acid change in the conserved domain of the SRY open reading frame. Three individuals are XY sex-reversed females, and two are XY males. Several models are proposed to explain association between a sequence variant in SRY and two sex phenotypes.     

Two DNA sequences specific for the canine Y chromosome

Data are presented on the characterization of two nucleotide sequences found exclusively in the DNA of male dogs. In polymerase chain reactions (PCRs) of canine genomic DNA with a decanucleotide primer of arbitrary sequence (OP-W17), two nucleotide segments (650 and 990 bp) were amplified only from male samples, whereas a number of other fragments between 400 and 2500 bp in size were amplified from both male and female samples. The two male-specific segments were cloned and sequenced, and terminal 24mer oligonucleotide primer pairs were synthesized. PCR with these specific primer pairs resulted in amplification of the two male-specific sequences only from DNA samples of 34 male dogs; no product was amplified from 42 samples of females. A segment of the SRY gene previously localized on the Y chromosome could be amplified in DNA samples that had the two new sequences. Eco RI digested genomic male DNA when hybridized with the 650 bp or the 990 bp sequences, resulted in a single band for each on Southern analysis; DNA from females did not yield any bands. Comparisons between the two new sequences and the SRY gene segment revealed no homologies. We concluded that the two new sequences are specific for the canine Y chromosome and do not contain the short characterized segment of the SRY gene.     

Gene SRY et anomalies de la determination genetique du sexe chez l’homme

Normal sexual development in man is the consequence of a complex process. This review focuses on the translation of genedal sex (XX or XY karyotype) into gonadal sex (testis or ovary). During the last three years attempts to identify and clone the testis determining factor (TDF) have exploited detailed maps of the Y chromosome established by geneticists over the last decade. A candidate gene, named SRY (sex determining region, Y) located at the tip of the short arm of the Y chromosome, shows many characteristics in common with TDF in that it is the sole element of the Y chromosome required for male development. The discovery of TDF led us to analyse sex-reversed individuals, i.e. XX males and XY females, with the aim of constructing a model for the processes regulating the development of an organ as complex as the testis. This SRY gene is now the subject of intense molecular biological effort by various groups, effort which we hope will elucidate the mechanism(s) of sex determination.     

Mutational analysis of SRY: nonsense and missense mutations in XY sex reversal

Summary XY females (n=17) were analysed for mutations in SRY (sex-determining region Y gene), a gene that has recently been equated with the testis determining factor (TDF). SRY sequences were amplified by the polymerase chain reaction (PCR) and analysed by both the single strand conformational polymorphism assay (SSCP) and DNA sequencing. The DNA from two individuals gave altered SSCP patterns; only these two individuals showed any DNA sequence variation. In both cases, a single base change was found, one altering a tryptophan codon to a stop codon, the other causing a glycine to arginine amino acid substitution. These substitutions lie in the high mobility group (HMG)-related box of the SRY protein, a potential DNA-binding domain. The corresponding regions of DNA from the father of one individual and the paternal uncle of the other, were sequenced and found to be normal. Thus, in both cases, sex reversal is associated with de novo mutations in SRY. Combining this data with two previously published reports, a total of 40 XY females have now been analysed for mutations in SRY. The number of de novo mutations in SRY is now doubled to four, adding further strength to the argument that SRY is TDF.     

True hermaphroditism in a 46,XY individual, caused by a postzygotic somatic point mutation in the male gonadal sex-determining locus (SRY): molecular genetics and histological findings in a sporadic case.

Recently, the gene for the determination of maleness has been identified in the sex-determining region on the short arm of the Y chromosome (SRY) between the Y-chromosomal pseudoautosomal boundary (PABY) and the ZFY gene locus. Experiments with transgenic mice confirmed that SRY is a part of the testis-determining factor (TDF). We describe a sporadic case of a patient with intersexual genitalia and the histological finding of ovotestes in the gonad, which resembles the mixed type of gonadal tissue without primordial follicle structures. The karyotype of the patient was 46,XY. By PCR amplification, we tested for the presence of PABY, SRY, and ZFY by using DNA isolated from peripheral blood leukocytes and for the presence of SRY by using DNA obtained from histological gonadal slices. The SRY products of both DNA preparations were further analyzed by direct sequencing. All three parts of the sex-determining region of the Y chromosome could be amplified from leukocytic DNA. The patient's and the father's SRY sequences were identical with the published sequence. In the SRY PCR product of gonadal DNA, the wild-type and two point mutations were present in the patient's sequence, simulating a heterozygous state of a Y-chromosomal gene: one of the mutations was silent, while the other encoded for a nonconservative amino acid substitution from leucine to histidine. Subcloning procedures showed that the two point mutations always occurred together. The origin of the patient's intersexuality is a postzygotic mutation of the SRY occurring in part of the gonadal tissue. This event caused the loss of the testis-determining function in affected cells.     

Isolation of a sequence which maps close to the human sex determining gene.

A sequence mapping close to the human sex determining gene (TDF) has been isolated from a lambda library constructed with DNA derived from a chromosome transfectant hybrid cell line. This sequence is shown to be present in the DNA of X-Y interchange males at a very high frequency and, based on these studies, it is categorised with the sequence defined by the probe, GMGY3, as the closest known Y chromosome derived marker to TDF. In contrast to GMGY3, however, this locus shares no homology with any other human chromosome. Southern blot analysis also reveals specific hybridization to the Y chromosome of other primates. It therefore defines, for the first time, a conserved and Y chromosome unique locus that is near to TDF.