红平红球菌复苏促进因子基因克隆及功能域分析

复苏促进因子(Rpf)广泛存在于高G+C含量的革兰氏阳性细菌中,与细菌生长及抵抗不良环境有关,不同细菌Rpf种类和数量有一定差异。红平红球菌(Rhodococcus erythropolis)KB1分离自石油污染土壤,具有高效石油降解能力和环境适应性。为探索Rpf在红平红球菌KB1适应环境过程中作用,设计了复苏因子基因特异引物,从红平红球菌KB1基因组DNA扩增出4种rpf基因。序列分析发现4种基因分别与藤黄微球菌(Micrococcus luteus)rpf基因,结核分枝杆菌(Mycobacterium tuberculosis)rpfB、rpfC及链霉菌(Streptomyces coelicolor)rpfB相似性较高。4个rpf基因编码蛋白都有一个类似Mt细胞复苏促进因子Rpf域,由大约70个氨基酸组成。其中Rpf-1与结核分枝杆菌、链霉菌RpfC相似,只含1个Rpf结构域;Rpf-2与结核分枝杆菌RpfB相似,含有1个Rpf域、1个G5域和2个DUF348;Rpf-3与链霉菌RpfB相似,含有1个Rpf域、G5域和3个DUF348;Rpf-4与藤黄微球菌Rpf相似,含1个Rpf域和1个LysM域。Rpf-2、Rpf-3含信号肽序列,Rpf-1、Rpf-4不含信号肽。     

人免疫球蛋白重链可变区基因引物设计方法的改良

针对抗体胚系基因数据库的数据不断更新和完善,为获得人全部免疫球蛋白(Ig)重链可变区基因,改进引物设计方法,自主设计针对可变区基因高度保守的框架区1(FR1)和框架区4(FR4)的引物,提取未经免疫的健康人外周血单个核细胞,通过RT-PCR扩增重链可变区基因.其DNA序列与GenBank数据库和IMGT/V-QUEST软件比对,序列分析符合人免疫球蛋白重链基本框架结构,为胚系基因重排产生的序列.多个克隆的测序结果对比分析显示了良好的多样性.获得的重链序列为研制基因工程抗体及构建噬菌体抗体库奠定了物质基础,也为扩增其他物种Ig可变区基因的引物提供新的设计思路.     

分离自印度洋深海沉积物的部分链霉菌分离株多位点序列分析

【目的】采用多位点序列分析方法,研究印度洋3 000 m以下深海沉积物中分离得到的16S rRNA基因比对高度相似的链霉菌菌株的种间系统发育关系,同时探讨各管家基因及多基因聚类分析后的种间区分能力。【方法】以分离自印度洋深海沉积物的7株Streptomyces albidoflavus,11株Streptomyces cavourensis,16株Streptomyces pratensis为研究对象,以16S rRNA、atpD、recA和rpoB基因片段为标记,通过PCR扩增、测序,获得序列。同时从NCBI上下载5株S.pratensis上述4个基因的序列,将所有序列在MLST网站进行比对,并构建系统进化树进行比较。【结果】S.pratensis各菌株种内比较发现,16S rRNA基因构建的系统进化树中相同基因型的菌株没有聚在一起,系统进化树不稳定,区分度不高。其余3个构建的系统进化树稳定,菌株的聚类关系与MLST数据库得到的基因型一致。同时,多基因聚类分析后将菌株分为6个类群。在3个种的种间多位点序列比较中,除区分度明显增加、进化树更加稳定以外,还发现rec A基因进化上比较特殊的菌株。【结论】多位点序列分析将实验菌株分为很多不同的类型,成功地将所分离的链霉菌进行了更细的分类,同时也找到部分菌株在个别基因上差异较大。此方法可以用于相近种的快速鉴定。     

利用两种不同引物扩增金龟子COI序列片段的研究与对比

利用两类不同的引物,即通用引物(L1490,H219S)与特异引物(Pat,Jerry)分别对4种常见金龟子线粒体细胞色素C氧化酶I(COI)基因片段序列进行扩增和测序,获得长度为689 bp与775 bp的序列.对测序结果进行遗传距离分析,并构建了4种金龟子系统进化树.结果表明,特异引物扩增序列的遗传距离在种内稳定性与种间的差异性都明显优于通用引物扩增序列,利用特异引物扩增序列所构建的系统进化树最符合实际情况,因此利用特异引物扩增序列更能够准确的对金龟子进行分类.     

利用两种不同引物扩增金龟子COⅠ序列片段的研究与对比

利用两类不同的引物,即通用引物(L1490,H2198)与特异引物(Pat,Jerry)分别对4种常见金龟子线粒体细胞色素C氧化酶I(COⅠ)基因片段序列进行扩增和测序,获得长度为689 bp与775 bp的序列。对测序结果进行遗传距离分析,并构建了4种金龟子系统进化树。结果表明,特异引物扩增序列的遗传距离在种内稳定性与种间的差异性都明显优于通用引物扩增序列,利用特异引物扩增序列所构建的系统进化树最符合实际情况,因此利用特异引物扩增序列更能够准确的对金龟子进行分类。     

负调节基因nsdA在链霉菌中同源性及激活沉默抗生素合成基因簇的研究

nsdA基因是在天蓝色链霉菌中发现的抗生素合成负调控基因。以nsdA基因片段为探针,通过Southern杂交发现nsdA存在于多种链霉菌中。根据天蓝色链霉菌和阿维链霉菌的nsdA序列设计PCR引物,扩增多种链霉菌中nsdA基因并测序。发现在不同链霉菌中nsdA基因的相似性高达77%~100%。其中变铅青链霉菌与天蓝色链霉菌A3(2)的nsdA序列100%一致。变铅青链霉菌通常不合成放线紫红素,中断nsdA获得的突变菌株WQ2能够合成放线紫红素;在WQ2中重新引入野生型nsdA,又失去产抗生素能力。表明nsdA的中断可以激活变铅青链霉菌中沉默的放线紫红素生物合成基因簇的表达;nsdA的广泛存在及其序列高度保守则提示可以尝试用于这些菌种的抗生素高产育种。     

鲢中华鳋线粒体基因组的基因组成及特征分析

研究旨在测定隶属桡足亚纲(Copepoda)杯口水蚤目(Poicilostom atoida)的寄生甲壳动物鲢中华鳋(Sinergasilus polycolpus)线粒体DNA(mtDNA)序列,分析其结构特征,为节肢动物系统进化研究积累资料。利用简并引物扩增鲢中华鳋Cytb和COI基因片断,据此设计特异性引物Long-PCR扩增鲢中华鳋mtDNA序列,拼接后得到12917bp的序列(GenBank登录号为EU621723)。这段序列A、T、C、G碱基含量分别为35.0%、35.8%、14.0%和15.2%,GC-Skew和AT-Skew值分别为0.041和-0.011。通过序列同源性和结构分析,鉴定了35个基因,包括13个蛋白编码基因、21个tRNA基因和1个12SrRNA基因,推测未能扩增到的片段包含16S rRNA、tRNAArg和tRNAThr基因以及控制区序列。tRNA基因长度在54-63bp之间,均可折叠成典型的三叶草结构,但TψC臂长度变化较大,其中有三个缺少TψC臂。35个基因中,4个蛋白质编码基因和7个tRNA基因位于N链,其余的位于J链。基因间重叠有12处,重叠碱基量达159bp。进一步研究桡足类及相关类群线粒体基因组的遗传特征将有助于揭示和阐明桡足类系统发育关系。       

一株多环芳烃降解菌的鉴定及GST基因克隆和序列分析

由石油污染土壤中分离到一株能以多环芳烃（菲、芴、萘）为唯一碳源的细菌,经形态观察、生理生化（BiologGN）和 G+C mol%分析,鉴定该菌为少动鞘氨醇单胞菌(Sphingomonas paucimobilis)。与16S rDNA序列同源性的比较进一步确证了鉴定结果。经菲诱导后的细菌谷胱甘肽S转移酶（Glutathione Stransferase, GST）酶活明显高于未诱导前,表明谷胱甘肽S转移酶可能与多环芳烃的降解有关。根据该酶基因的同源性序列设计引物,PCR扩增出编码谷胱甘肽S转移酶基因片段,进一步证实在该菌中有GST的存在。测序后基于编码GST的基因所进行的系统发育分析表明,该多环芳烃降解菌与其它多环芳烃降解菌在进化上亲缘关系较近。     

基于简并引物同步克隆两个红麻PDIL同源基因cDNA5'-末端序列

探索利用同一套简并引物结合通用引物同步扩增两个红麻PDIL同源基因的cDNA5’-末端序列,以期为同一转录组中两个旁系同源基因cDNA5' RACE的同步扩增提供借鉴.通过红麻HcPDIL5-2a和HcPDIL5-2b cDNA中间片段及3’-末端已知序列的比时,在其完全保守区段设计了一条引物用于两个基因5' RACE的共反转录;在其部分保守区段设计了两条简并引物,并利用其在两个基因的5'RACE扩增时退火温度的差异,结合通用引物巢式PCR同步扩增两个基因的cDNA 5 ’-末端未知序列.在两个基因全长cDNA拼接序列的基础上设计两对特异引物分别扩增它们的cDNA全长序列,测序结果进一步验证了序列拼接和cDNA 5' RACE同步扩增的可靠性.进化分析证实两个基因属于PDIL基因家族成员.     

粤蓝链霉菌代谢产物的抗菌抗肿瘤活性及相关基因的初步研究

粤蓝链霉菌(Streptomyces vietnam ensis)是新近报道的物种,能在多种培养基中产生水溶性紫罗兰蓝色素。本研究发现发酵液乙酸乙酯粗提物对革兰氏阳性细菌有较强的广谱抗菌活性,对部分革兰氏阴性菌也有不同程度的抑制作用,TLC生-物显影试验进一步表明,两个蓝色组分B1、B2是主要的抗菌活性成分;同时,粗提物在20μg/mL的浓度下对HeLa细胞的生长抑制率达96.7%,显示了极强的抗肿瘤活性。利用简并引物扩增PKS/NRPS基因保守区域,获得相关序列4条,其中两条所代表的PKS基因簇有可能是粤蓝链霉菌产生次级代谢产物的重要途径,这些新基因的发现为组合生物合成提供了更多的基因资源。     

A new set of PCR assays for the identification of multiple human adenovirus species in environmental samples

Aims:  To assess human adenovirus (HAdV) diversity in environmental samples based on sequence comparisons of hexon gene fragments amplified using newly designed HAdV-specific polymerase chain reaction (PCR) assays.
Methods and Results:  Six PCR primer sets were designed based on 56 aligned hexon sequences from NCBI GenBank to amplify different hexon gene sections (241–349 bp) of the six HAdV species. The amplified hexon genes from wastewater samples were cloned, sequenced, and compared with those in publicly accessible databases (i.e. NCBI GenBank) by using the B last program. A total of 46 analysed positive clones were affiliated to five HAdV serotypes, i.e. 1, 2, 12, 31 and 41. Similarities between the cloned and database hexon sequences ranged from 95·9 to 100% (with an average of 98·1 ± 1·0%).
Conclusion:  The designed primers showed higher amplification efficiencies when compared with the existing assays. Using the new assays, HAdV species A, C, and F (serotypes 1, 2, 12, 31 and 41 in particular) were identified in the studied municipal wastewater.
Significance and Impact of the Study:  The six PCR primer sets developed in this study can be used to efficiently amplify hexon gene fragments in HAdV. Multiple HAdV serotypes identified in the municipal wastewater provide new information about HAdV diversity in environmental samples.     

Development of PCR Primer Systems for Amplification of Nitrite Reductase Genes (nirK and nirS) To Detect Denitrifying Bacteria in Environmental Samples

A system was developed for the detection of denitrifying bacteria by the amplification of specific nitrite reductase gene fragments with PCR. Primer sequences were found for the amplification of fragments from both nitrite reductase genes (nirK and nirS) after comparative sequence analysis. Whenever amplification was tried with these primers, the known nir type of denitrifying laboratory cultures could be confirmed. Likewise, the method allowed a determination of the nir type of five laboratory strains. The nirK gene could be amplified from Blastobacter denitrificans, Alcaligenes xylosoxidans, and Alcaligenes sp. (DSM 30128); the nirS gene was amplified from Alcaligenes eutrophus DSM 530 and from the denitrifying isolate IFAM 3698. For each of the two genes, at least one primer combination amplified successfully for all of the test strains. Specific amplification products were not obtained with nondenitrifying bacteria or with strains of the other nir type. The specificity of the amplified products was confirmed by subsequent sequencing. These results suggest the suitability of the method for the qualitative detection of denitrifying bacteria in environmental samples. This was shown by applying one generally amplifying primer combination for each nir gene developed in this study to total DNA preparations from aquatic habitats.     

The metabolic pathway of 2,4-dichlorophenoxyacetic acid degradation involves different families of tfdA and tfdB genes according to PCR-RFLP analysis

Abstract: Twenty-five 2,4-dichlorophenoxyacetic acid (2,4-D) degrading bacteria from geographically diverse locations and presenting various degrees of similarity or no similarity to the tfdA and tfdB genes from Alcaligenes eutrophus JMP134 were analysed by PCR-RFLP (restriction length fragment polymorphism). Primers for the 2,4-D etherase gene were derived by sequence alignment of the tfdA genes from A. eutrophus JMP134 and Burkholderia sp. RASC. Primers for the 2,4-dichlorophenolhydroxylase gene were based on the tfdB gene sequence from A. eutrophus JMP134 by taking codon degeneration and variations in amino acid residue sequences into consideration. PCR amplification using the tfdA primer set produced fragments of 0.3 kb from 17 strains which showed varying degrees of similarity to the tfdA gene probe from A. eutrophus JMP134. Significant variations in the gene sequences were confirmed by PCR-RFLP analysis. DNA amplification using the tfdB primer set produced a 1.1 kb fragment from 19 strains. Amongst them, two did not show any similarity to the tfdB gene probe. The size and restriction pattern of the products obtained from A. eutrophus JMP134 were in accordance with the expected size calculated from the A. eutrophus tfdA and tfdB gene sequence and their theoretical PCR-RFLP patterns. Some strains which did not amplify using the tfdA primer set did however amplify with the tfdB primer set. These results suggest the independent evolution of these two genes in the construction of the 2,4-D metabolic pathway. Our tfdA and tfdB primer sets could be used for the detection of similar sequences in bacteria and soils. Moreover, PCR-RFLP patterns could also be used to select subsets of strains for sequencing to study the phylogeny of the tfdA and tfdB genes.     

An oligonucleotide primer system for amplification of the ribulose-1,5-bisphosphate carboxylase/oxygenase genes of bacteria of various taxonomic groups

Based on the analysis of GenBank nucleotide sequences of the cbbL and cbbM genes, coding for the large subunit of ribulose-1,5-bisphosphate carboxylase/oxygenase (RuBPC), the key enzyme of the Calvin cycle, a primer system was designed that allows about 800-bp-long fragments of these genes to be PCR-ampliflied in various photo- and chemotrophic bacteria. The efficiency of the designed primer system in detection of RuBPC genes was demonstrated in PCR with DNA of taxonomically diverse bacteria possessing RuBPC genes with a known primary structure. Nucleotide sequences of RuBPC gene fragments of bacteria belonging to the genera Acidithiobacillus. Ectothiorhodospira, Magnetospirillum, Methylocapsa, Thioalkalispira, Rhodobacter, and Rhodospirillum were determined to be deposited with GenBank and to be translated into amino acid sequences and subjected to phylogenetic analysis.     

Detection and enumeration of aromatic oxygenase genes by multiplex and real-time PCR

Our abilities to detect and enumerate pollutant-biodegrading microorganisms in the environment are rapidly advancing with the development of molecular genetic techniques. Techniques based on multiplex and real-time PCR amplification of aromatic oxygenase genes were developed to detect and quantify aromatic catabolic pathways, respectively. PCR primer sets were identified for the large subunits of aromatic oxygenases from alignments of known gene sequences and tested with genetically well-characterized strains. In all, primer sets which allowed amplification of naphthalene dioxygenase, biphenyl dioxygenase, toluene dioxygenase, xylene monooxygenase, phenol monooxygenase, and ring-hydroxylating toluene monooxygenase genes were identified. For each primer set, the length of the observed amplification product matched the length predicted from published sequences, and specificity was confirmed by hybridization. Primer sets were grouped according to the annealing temperature for multiplex PCR permitting simultaneous detection of various genotypes responsible for aromatic hydrocarbon biodegradation. Real-time PCR using SYBR green I was employed with the individual primer sets to determine the gene copy number. Optimum polymerization temperatures for real-time PCR were determined on the basis of the observed melting temperatures of the desired products. When a polymerization temperature of 4 to 5 degrees C below the melting temperature was used, background fluorescence signals were greatly reduced, allowing detection limits of 2 x 10(2) copies per reaction mixture. Improved in situ microbial characterization will provide more accurate assessment of pollutant biodegradation, enhance studies of the ecology of contaminated sites, and facilitate assessment of the impact of remediation technologies on indigenous microbial populations.     

GST-PRIME: a genome-wide primer design software for the generation of gene sequence tags

The availability of sequenced genomes has generated a need for experimental approaches that allow the simultaneous analysis of large, or even complete, sets of genes. To facilitate such analyses, we have developed GST-PRIME, a software package for retrieving and assembling gene sequences, even from complex genomes, using the NCBI public database, and then designing sets of primer pairs for use in gene amplification. Primers were designed by the program for the direct amplification of gene sequence tags (GSTs) from either genomic DNA or cDNA. Test runs of GST-PRIME on 2000 randomly selected Arabidopsis and Drosophila genes demonstrate that 93 and 88% of resulting GSTs, respectively, fulfilled imposed length criteria. GST-PRIME primer pairs were tested on a set of 1900 Arabidopsis genes coding for chloroplast-targeted proteins: 95% of the primer pairs used in PCRs with genomic DNA generated the correct amplicons. GST-PRIME can thus be reliably used for large-scale or specific amplification of intron-containing genes of multicellular eukaryotes.     

Conversion of AFLP markers to sequence-specific PCR markers in barley and wheat

 Conversion of amplified fragment length polymorphisms (AFLPs) to sequence-specific PCR primers would be useful for many genetic-linkage applications. We examined 21 wheat nullitetrasomic stocks and five wheat-barley addition lines using 12 and 14 AFLP primer combinations, respectively. On average, 36.8% of the scored AFLP fragments in the wheat nullitetrasomic stocks and 22.3% in the wheat-barley addition lines could be mapped to specific chromosomes, providing approximately 461 chromosome-specific AFLP markers in the wheat nullitetrasomic stocks and 174 in the wheat-barley addition lines. Ten AFLP fragments specific to barley chromosomes and 16 AFLP fragments specific to wheat 3BS and 4BS chromosome arms were isolated from the polyacrylamide gels, re-amplified, cloned and sequenced. Primer sets were designed from these sequences. Amplification of wheat and barley genomic DNA using the barley derived primers revealed that three primer sets amplified DNA from the expected chromosome, five amplified fragments from all barley chromosomes but not from wheat, one amplified a similar-sized fragment from multiple barley chromosomes and from wheat, and one gave no amplification. Amplification of wheat genomic DNA using the wheat-derived primer sets revealed that three primer sets amplified a fragment from the expected chromosome, 11 primer sets amplified a similar-sized fragment from multiple chromosomes, and two gave no amplification. These experiments indicate that polymorphisms identified by AFLP are often not transferable to more sequence-specific PCR applications. Received: 30 June 1998 / Accepted: 26 October 1998     

Detection and Enumeration of Aromatic Oxygenase Genes by Multiplex and Real-Time PCR

Our abilities to detect and enumerate pollutant-biodegrading microorganisms in the environment are rapidly advancing with the development of molecular genetic techniques. Techniques based on multiplex and real-time PCR amplification of aromatic oxygenase genes were developed to detect and quantify aromatic catabolic pathways, respectively. PCR primer sets were identified for the large subunits of aromatic oxygenases from alignments of known gene sequences and tested with genetically well-characterized strains. In all, primer sets which allowed amplification of naphthalene dioxygenase, biphenyl dioxygenase, toluene dioxygenase, xylene monooxygenase, phenol monooxygenase, and ring-hydroxylating toluene monooxygenase genes were identified. For each primer set, the length of the observed amplification product matched the length predicted from published sequences, and specificity was confirmed by hybridization. Primer sets were grouped according to the annealing temperature for multiplex PCR permitting simultaneous detection of various genotypes responsible for aromatic hydrocarbon biodegradation. Real-time PCR using SYBR green I was employed with the individual primer sets to determine the gene copy number. Optimum polymerization temperatures for real-time PCR were determined on the basis of the observed melting temperatures of the desired products. When a polymerization temperature of 4 to 5°C below the melting temperature was used, background fluorescence signals were greatly reduced, allowing detection limits of 2 × 10² copies per reaction mixture. Improved in situ microbial characterization will provide more accurate assessment of pollutant biodegradation, enhance studies of the ecology of contaminated sites, and facilitate assessment of the impact of remediation technologies on indigenous microbial populations.     

等位基因特异性引物PCR技术及其应用研究

目的：研究建立等位基因特异性引物PCR技术体系,并将其应用于基因单核苷酸多态性研究工作。方法：通过美国国家生物信息中心(NCBI)的genBank获取基因序列及其相应位点的SNP信息。利用Primer5．0软件设计引物,并经NCBI的Blast2．0软件检验其特异性。结果：建立了单一等位基因特异性引物PCR(SASP—PCR)与嵌套式等位基因特异性引物PCR(NASP-PCR)两种技术,并应用于β2肾上腺素受体及内皮源性一氧化氮合酶基因单核苷酸多态性的研究,证实该技术的稳定性和优越性。结论：等位基因特异性引物PCR技术是一种更为简便、特异性较高、费用少的、便于推广的SNP检测方法,特别是在群体基因单核苷酸多态性研究中更有优势。     

Analysis of bacterial degradation pathways for long-chain alkylphenols involving phenol hydroxylase, alkylphenol monooxygenase and catechol dioxygenase genes

Eighteen 4-t-octylphenol-degrading bacteria were isolated and screened for the presence of degradative genes by polymerase chain reaction method using four designed primer sets. The primer sets were designed to amplify specific fragments from multicomponent phenol hydroxylase, single component monooxygenase, catechol 1,2-dioxygenase and catechol 2,3-dioxygenase genes. Seventeen of the 18 isolates exhibited the presence of a 232 bp amplicon that shared 61-92% identity to known multicomponent phenol hydroxylase gene sequences from short and/or medium-chain alkylphenol-degrading strains. Twelve of the 18 isolates were positive for a 324 bp region that exhibited 78-95% identity to the closest published catechol 1,2-dioxygenase gene sequences. The two strains, Pseudomonas putida TX2 and Pseudomonas sp. TX1, contained catechol 1,2-dioxygenase genes also have catechol 2,3-dioxygenase genes. Our result revealed that most of the isolated bacteria are able to degrade long-chain alkylphenols via multicomponent phenol hydroxylase and the ortho-cleavage pathway.