Complete nucleotide sequence of pSMB 74, a plasmid encoding the production of pediocin AcH in Pediococcus acidilactici

Several Pediococcus acidilactici strains produce a plasmid-encoded bacteriocin, pediocin AcH. Previous studies have shown that this plasmid, designated as pSMB 74, encodes genes associated with the production of prepediocin, its post-translation processing to pediocin AcH, transmembrane translocation of these molecules, and immunity of producer cells against pediocin AcH. We report here the complete nucleotide sequence of pSMB 74. The plasmid has a total of 8877 bp. Four genes have been located on pSMB 74. The genes are arranged in a gene cluster of 3500 bp and share a common promoter and rho-independent stem-loop terminator. The four genes, each with independent ribosome binding sites (rbs), initiation and termination codons and spacer sequences in between, were designated as pap A, pap B, pap C and pap D and encode respectively for proteins of 62, 112, 174 and 724 amino acids. The results of this study can be useful either to introduce a suitable marker at a unique restriction site in pSMB 74 and use it as a vector or to clone the pap gene cluster in a suitable plasmid and transform desirable strains for pediocin AcH production. The gene sequence has been submitted to Gene Bank (Acc. No. U02482).     

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.     

Detection of Salmonella typhi by polymerase chain reaction

A rapid and sensitive method for detection of Salmonella typhi would help in preventing the spread of outbreaks and in clinical diagnosis. In order to develop unique PCR primers to detect Salm. typhi , ribosomal RNA genes from Salm. typhi (Rawlings) were cloned in pUC18. The resulting clone was confirmed by sequencing. The cloned DNA fragment contained the 5S, part of the 23S rRNA genes and the 5S-23S spacer region (EMBL/GenBank accession No. U04734).
It was expected that the 5S-23S spacer region is divergent unlike the highly conserved 23S+5S genes. This was confirmed by comparison with the rRNA gene sequences in the EMBL/GenBank database. A pair of PCR primers specific for Salm. typhi was obtained, based on this spacer region sequence. The specificity of this pair of primers was tested with 54 Salm. typhi strains (of 27 different phage types). All these Salm. typhi strains showed the positive 300 bp PCR product with this pair of primers. Six other Salmonella species as well as six other non- Salmonella bacteria were tested and none showed the 300 bp PCR product. The sensitivity of the detection level was 0·1 pg of pure Salm. typhi genomic DNA, or approximately 40 Salm. typhi cells in a spiked food sample. This pair of primers therefore has the potential for development into a diagnostic tool for the rapid diagnosis of typhoid fever.     

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.     

DNA markers for identification of Pseudomonas syringae pv. actinidiae

The specific DNA fragment was screened by RAPD analysis of Pseudomonas syringae pv. actinidiae, as well as similar strains that were isolated from kiwifruits. The primer C24 detected a fragment that is specific in P. syringae pv. actinidiae. This fragment was cloned. The pathovar-specific fragment was detected from a Southern blot analysis of the genomic DNAs of P. syringae pv. actinidiae using the cloned fragment as a probe. The sequence size of the cloned fragment was determined as 675 bp. A DNA Database search suggested that the fragment was a novel one. Approximately 9 kb of a single fragment was detected only in the P. syringae pv. actinidiae by a Southern blot analysis of the genomic DNAs of P. syringae pv. actinidiae. Similar strains were also detected with the use of the cloned fragment as a probe. Since the genomic DNAs were digested with HindIII without a cleavage site, the result reveals that the cloned fragment exists on the genome of P. syringae pv. actinidiae as a single copy. A pair of primers that produced a 492 bp single fragment (only in the strains of P. syringae pv. actinidiae) were synthesized, based on the pathovar-specific sequences of the cloned fragment of P. syringae pv. actinidiae. The development of the primers and probe made it possible to diagnose the bacterial canker infection from leaves or trunks of kiwifruit trees before any symptom appeared on the tree.     

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.     

SCAR markers for discriminating species of two genera of medicinal plants, Liriope and Ophiopogon

The development of DNA markers that can closely discriminate between Liriope and Ophiopogon species is vital for efficient and accurate identification of these species, and to ensure the quality, safety, and efficacy of medicines made from these plants. We developed species-specific molecular markers for these two genera. Forty RAPD primers were tested to detect polymorphism; species-specific RAPD bands were gel-purified, cloned, and sequenced. Primers for sequence-characterized amplified regions (SCARs) were then designed, based on nucleotide sequences of specific RAPD primers. SCAR markers SA06 and SB05, specific to Ophiopogon japonicus, amplified 460- and 553-bp DNA fragments, respectively. The marker SA12 amplified a 485-bp fragment specific to Liriope platyphylla. This is the first report of a species-specific SCAR marker for this group. These markers will be useful for rapid identification of closely related Liriope and Ophiopogon species.     

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 .     

水稻基腐病细菌毒素的遗传特性和产毒相关的分子标记

[目的]水稻基腐病(Erwinia chrysanthemi pv.zeae)是水稻上重要的细菌病害之一,本论文对该病菌的毒素遗传特性和产毒相关的分子标记进行了研究.[方法]通过化学诱变方法,筛选基腐细菌去质粒的突变体Ech7-mu1;应用RAPD技术,筛选产毒素相关的分子标记.[结果]毒素活性测定结果表明,野生菌Ech7和去质粒菌株Ech7-mu1都能产生毒素.从260条随机引物中,筛选出引物K10,该引物能从不产生毒素的突变株Ech7-4中扩增出大小为2139bp的DNA特异片段,但不能扩增野生菌Ech7,将该片段克隆,测序分析,设计特异引物,在突变体Ech7-4中获得了与毒素产生相关的SCAR分子标记(标记符合率为100%).该基因片段有5个ORFs,其中2个ORFs分别编码NADH-黄素还原酶和N-乙酰转移酶,另外2个不完整的ORFs编码的蛋白分别与Pseudomonas aerginosa(ZP00136947)和Yersinia Pestis(ZP01177873)的抗菌素代谢转运蛋白通透酶(DMT)具有66%和46%的同源率.[结论]水稻基腐细菌毒素的生物合成是由染色体基因编码,与质粒无关.不产生毒素的突变菌株基因突变的位点位于SCAR标记DNA的3'末端.     

黄瓜霜霉病抗病基因的RAPD及SCAR标记

以感霜霉病黄瓜L18-10-2和抗霜霉病黄瓜129为亲本构建F2代分离群体,以F3代植株霜霉病抗性鉴定表示F2代各单株抗病性并得以区分各单株杂合或纯合感病性,采用RAPD技术和转SCAR的方法筛选黄瓜抗霜霉病基因分子标记.结果显示,在318条RAPD引物中有18条引物表现出两亲本间多态性,其中引物P18的SB-SP18561扩增片段与霜霉病抗病基因之间紧密连锁,根据交换率和Kosambi函数公式计算其遗传距离为7.85 cM.回收SBSP18561片段并克隆和测序,其准确长度为561 bp.将该RAPD标记转换为SCAR标记,长度为494 bp,命名为SSBSP18494.     

Genetic characterization of morphologically variant strains of Paracoccidioides brasiliensis

Molecular characterization of Paracoccidioides brasiliensis variant strains that had been preserved under mineral oil for decades was carried out by random amplified polymorphic DNA analysis (RAPD). On P. brasiliensis variants in the transitional phase and strains with typical morphology, RAPD produced reproducible polymorphic amplification products that differentiated them. A dendrogram based on the generated RAPD patterns placed the 14 P. brasiliensis strains into five groups with similarity coefficients of 72%. A high correlation between the genotypic and phenotypic characteristics of the strains was observed. A 750 bp-RAPD fragment found only in the wild-type phenotype strains was cloned and sequenced. Genetic similarity analysis using BLASTx suggested that this RAPD marker represents a putative domain of a hypothetical flavin-binding monooxygenase (FMO)-like protein of Neurospora crassa.     

利用真菌纤维素结合域(CBD)保守性序列进行草菇木聚糖酶cDNA的克隆

木聚糖是植物细胞壁的主要组分,它是木糖以β1 ,4 木糖苷键形成主链,乙酰基,阿拉伯糖基等为附链组成的复合多聚糖.木聚糖酶可以降解木聚糖主链,在木聚糖的生物降解中起着非常重要的作用[1 ] .根据木聚糖酶催化域(catalyticdomain ,CD)氨基酸序列的相似性,木聚糖酶可分为两个家     

Recombinant bovine interferon alpha causes only a temporary prolongation of the lifespan of the corpus luteum

Abstract

A method is described for developing a sheep‐ vs. goat‐specific DNA marker using sequence characterized amplified regions (SCARs) derived from a random amplified polymorphic DNA (RAPD) marker from sheep DNA samples. A sheep 645 bp DNA fragment that was absent in goat DNA was identified by analyzing pools of sheep and goat DNA with RAPD primers. This fragment was cloned and partially sequenced to design extended, strand‐specific 24‐mer oligonucleotide primers. Each primer contained the original 10 bases of the RAPD primer and the following 14 internal bases. The pair of primers resulted in the amplification of a single band of 645 bp when used to amplify sheep DNA, and in no amplification when used to amplify goat DNA. These SCAR primers successfully amplified the equivalent of DNA from one nucleated sheep cell in a sample of 5000 nucleated goat cells. This level of sensitivity is especially desirable for research involving the detection of interspecific chimerism.     

甘薯贮藏蛋白(sporam in)A基因编码区克隆及序列同源性分析

采用 PCR技术 ,从我国广泛栽培甘薯品种南薯 88基因组中扩增和克隆到甘薯贮藏蛋白 A基因编码区段 ,并测定了其全部核苷酸序列 .该编码区长 65 7bp,编码一个长 2 1 9个氨基酸残基的蛋白质 ,其中信号肽长 37个氨基酸残基 ,成熟蛋白质长 1 82个氨基酸残基 ,其分子量为 2 0 k D.将该片段的核苷酸序列与已登录在 Gen Bank中的另外 6个甘薯贮藏蛋白 A基因编码区序列进行比较 ,发现其同源性高达 90 % ,说明甘薯贮藏蛋白 A基因编码区序列具有高度保守性 .虽然 7个基因编码区的核苷酸总变异为 1 0 % ,但在每两个基因之间的比较则表明其核苷酸的变异范围小于 7% .     

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.     

苹果铁结合蛋白基因（＊＊Apf1）的克隆和序列分析

铁结合蛋白是一种广泛存在于动物、植物和微生物中的铁储藏蛋白,是动、植物生长发育使用的储存铁的唯一共同来源.该蛋白在植物体中的主要功能是在种子形成、叶片衰老或环境中铁过量时积累,在种子萌发或质体绿化过程中释放铁,从而调节植物对铁的吸收和释放[1,2].同时,该蛋白也是解决全球动物和人类饮食缺铁有效的方法[3].转基因研究证明大豆铁结合蛋白基因能提高水稻种子中铁结合蛋白的的含量[4].同时在转基因烟草植株后代中由于叶片中积累了铁结合蛋白而对病毒引起的坏死和真菌的感染表现出耐性,对因各种环境胁迫而导致的细胞氧化性损伤有保护作用[5].铁结合蛋白基因是植物体内唯一依赖于铁而进行表达的基因[6].     

芦笋雌性特异性片段的克隆和分析(简报)

芦笋(Asparagus officinalis L.)又名石刁柏、龙须菜,系雌雄异株宿根性植物,是重要的经济作物之一。芦笋的性染色体为一对同形的L5染色体,雌性的性染色体为XX,雄性的性染色体为XY。性别决定的多态性是由位于一对L5性染色体上的一个显性基因M决定的[1-3],雌株基因型为隐性纯合子mm,雄株为显性纯合子MM(又称超雄株)或杂合子Mm。在生产上,由于雄株比雌株高产25%以上[4],并具有极强的抗病性和生命力,故雄株特别是超雄株则倍受生产者的青睐,但芦笋雌雄鉴定只有等到种植的第二年待植株开花时才能进行,这就严重影响了芦笋的有目的种植和经济效…     

Molecular characterization of Yarrowia lipolytica and Candida zeylanoides isolated from poultry

Yeast isolates from raw and processed poultry products were characterized using PCR amplification of the internally transcribed spacer (ITS) 5.8S ribosomal DNA region (ITS-PCR), restriction analysis of amplified products, randomly amplified polymorphic DNA (RAPD) analysis, and pulsed-field gel electrophoresis (PFGE). ITS-PCR resulted in single fragments of 350 and 650 bp, respectively, from eight strains of Yarrowia lipolytica and seven strains of Candida zeylanoides. Digestion of amplicons with HinfI and HaeIII produced two fragments of 200 and 150 bp from Y. lipolytica and three fragments of 350, 150, and 100 bp from C. zeylanoides, respectively. Although these fragments showed species-specific patterns and confirmed species identification, characterization did not enable intraspecies typing. Contour-clamped heterogeneous electric field PFGE separated chromosomal DNA of Y. lipolytica into three to five bands, most larger than 2 Mbp, whereas six to eight bands in the range of 750 to 2,200 bp were obtained from C. zeylanoides. Karyotypes of both yeasts showed different polymorphic patterns among strains. RAPD analysis, using enterobacterial repetitive intergenic sequences as primers, discriminated between strains within the same species. Cluster analysis of patterns formed groups that correlated with the source of isolation. For ITS-PCR, extraction of DNA by boiling yeast cells was successfully used.     

一条卡瓦胡椒特异RAPD带转化成SCAR标记的研究

采用27份不同来源的胡椒属(Piper)材料和1份不同属的草胡椒(Peperomia pellucida)材料用引物OPQ-03扩增得到一条约400碱基对(bp)卡瓦胡椒特异片段。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 amplifiedre-gions,序列特征化扩增区)分子标记。本研究设计出了1对卡瓦胡椒特异SCAR引物P7.1(5′-GGT CAC CTC ACC GCA GCA GGA TGA ACG-3′)和P7.2(5′-GGT CAC CTC AAT GAC ATG GGA TGA ATC-3′),用这对特异引物对本次试验的28份材料进行PCR扩增,结果只有不同属的草胡椒材料无任何扩增,其它材料均扩增出了预期大小440bp的特异带。