药用植物华重楼(黑药花科)叶绿体全基因组研究

为探究华重楼(Paris polyphylla var. chinensis)的叶绿体基因组特征,利用叶绿体系统发育基因组学方法,对华重楼与其它百合目植物的叶绿体全基因组进行了比较。结果表明,华重楼的叶绿体全基因组长158307 bp,由4个区组成,包括2个反向重复区(IRA和IRB,27473 bp)、1个小单拷贝区(SSC,18175 bp)和1个大单拷贝区(LSC,85187 bp)。其叶绿体基因组有115个基因,包括81个编码蛋白质基因、30个转运RNA基因和4 个核糖体RNA基因。11种百合目植物的叶绿体全基因组的基因组成和基因顺序相似。华重楼的cemA基因是假基因,其起始密码子后有多聚核苷酸poly(A)及CA双核苷酸重复序列,编码序列中出现多个终止密码子, 且与北重楼(Paris verticillata)的cemA编码序列中的终止密码子位置不同。因此,华重楼叶绿体基因组比较保守;cemA结构及假基因化现象可能具有重要的进化与系统发育信息,其编码序列中的终止密码子可以区分华重楼和北重楼。     

来自南极洲类诺卡氏菌(Nocardioides sp.) InS609-2的全基因组序列分析

【背景】类诺卡氏菌（Nocardioides sp.） InS609-2是一株分离自南极洲罗斯海特拉诺瓦湾的恩克斯堡岛土壤中潜在的极地放线菌新种。尚无研究报道Nocardioides sp.InS609-2的全基因组序列，缺少对其功能基因、代谢产物合成途径及比较基因组学等的研究。【目的】解析Nocardioides sp.InS609-2的基因组序列信息，以深入挖掘次级代谢产物基因资源。【方法】利用Illumina HiSeq高通量测序平台对菌株InS609-2进行全基因组完成图测序，使用相关软件对测序数据进行基因组组装、基因预测和功能注释、预测次级代谢产物合成基因簇和共线性分析等。【结果】基因组最后得到的总长度为4 524 052 bp，G+C含量为69.42%，预测到4 656个基因、56个tRNA和6个rRNA。根据Nocardioides sp.InS609-2的全基因组测序结果，分别有3 761、3 052、1 767、4 134和2 725个基因在COG、GO、KEGG、NR和Swiss-Prot数据库中提取到注释信息。同时，还预测得到19个次级代谢产物合成基因簇。基因组测序数据提交至NCBI获得GenBank登录号为CP060034。Nocardioides sp.InS609-2与N. dokdonensis CP015079、N. yefusunii CP034929、N. euryhalodurans CP038267、N. seonyuensis CP038436、N. daphniae CP038462和N. okcheonensis CP087710这6株基因组同源性比较高的类诺卡氏菌进行共线性分析和蛋白聚类分类分析，得到的结果是7个基因组间既有保守性又各自有独特性。七个基因组共有44个蛋白聚类簇。最后进行16S rRNA基因系统发育树、泛基因组、core基因组和基因组进化树分析，进一步挖掘了Nocardioides sp.InS609-2的基因组信息。【结论】从基因组层面上预测了Nocardioides sp.InS609-2的次级代谢产物的生物合成基因簇，为InS609-2的后续相关研究提供了参考信息，具有重要意义。     

肺囊康定产生菌Glarea lozoyensis线粒体基因组序列的再分析

[目的] Glarea lozoyensis是抗真菌药物卡泊芬净的产生菌，其突变菌株ATCC 74030的线粒体基因组已被报道。我们此前的研究发现诱变剂能引起该菌某些细胞核基因的突变，但诱变剂是否也能引起线粒体DNA序列的改变并不清楚。[方法] 组装野生型菌株ATCC 20868的线粒体基因组，并与发表的突变型菌株ATCC 74030的线粒体基因组进行比较。通过PCR验证野生和突变菌株线粒体基因组间表现差异之处，并利用正确的线粒体基因组序列进行新的分析。[结果] 我们成功组装出野生型菌株ATCC 20868的线粒体基因组，通过比较其与发表的ATCC 74030的线粒体基因组序列，发现存在6处单核苷酸变异位点和2处具有长度差异的区域。然而，随后的PCR验证和序列比较并没有发现2个菌株间存在这些差异。最初观察到的碱基差异是因为发表的ATCC 74030线粒体基因组存在序列错误。有趣的是，在Glarea lozoyensis的线粒体基因组中，我们发现存在3个具有内含子的tRNA基因和1个rnpB基因。同时，该菌线粒体基因组中存在多种重复序列，在其线粒体和细胞核基因组间也存在明显的DNA片段重复事件。[结论] 诱变剂没有引起G. lozoyensis线粒体DNA的任何改变；发表的ATCC 74030的线粒体基因组存在序列错误。我们报道G. lozoyensis正确的线粒体基因组序列，并且发现该菌线粒体和细胞核基因组间频繁的基因交流。     

不同来源植物乳杆菌基因组结构和功能差异的比较研究

[目的] 本试验研究不同来源植物乳杆菌（Lactobacillus plantarum）基因特点以及在不同环境下其基因多样性,探究2株L.plantarum A8和P9在肠道生境及植物表面适应性的异同,为优良菌株的开发提供理论基础。[方法] 本研究对从动物肠道和植物表面分离获得的L.plantarum A8和L.plantarum P9的基因组进行分析,利用第二代测序技术（NextGeneration Sequencing,NGS）,基于Illumina NovaSeq测序平台,同时利用第三代单分子测序技术,基于PacBio Sequel测序平台,对L.plantarum A8和L.plantarum P9进行测序。采用Carbohydrate-active enzymes（CAZy）、Koyto encyclopedia of genes and genomes（KEGG）和Clusters of orthologous genes（COG）数据库对基因组进行功能注释;采用CGView软件绘制菌株的基因组环形图谱。应用比较基因组学与已经公开发表的其他L.plantarum基因组进行比较分析。[结果] 由研究可知L.plantarum A8和L.plantarum P9基因组大小存在差异,通过构建系统发育树发现2株菌与其他来源的L.plantarum分在同一分支,并且L.plantarum P9与母乳来源的L.plantarum WLPL04菌株距离最近,而L.plantarum A8与L.paraplantarum DSM10667距离最近。通过基因家族分析可知,2株菌共有基因为2643个,其中包括一些抗应激蛋白如热休克蛋白、冷休克蛋白。L.plantarum A8和P9独特基因分别为321和336个,L.plantarum A8中独特基因主要参与DNA复制、ABC转运系统（ABC transfer system）、PTS系统（phosphotransferase system）、磺酸盐转运系统、氨基酸生物合成等代谢通路;L.plantarum P9的独特基因以参与碳水化合物的运输和代谢基因居多,例如rpiA基因、lacZ基因、FruA基因等。[结论] 通过比较基因组学方法解析L.plantarum的基因组信息,发现动物肠道来源的L.plantarum具有较好的氨基酸转运能力,植物表面附着的L.plantarum菌株具有较好碳水化合物利用能力,从而为益生菌的开发与利用提供理论依据。     

幽门螺杆菌临床分离株的随机扩增多态性DNA指纹图分析

目的:建立武汉及周边地区幽门螺杆菌(Helicobacter pylori,Hp)感染病人胃内分离的Hp的DNA指纹图谱,并进行数理统计分析,探讨Hp基因型与疾病的相互关系,为临床诊断、防治及致病机制提供理论与实践基础.方法:采取随机扩增多态性DNA指纹法(Random amplified polymorphic DNA,RAPD)对48例病人Hp基因组DNA进行PCR反应,其随机引物为:1290 5'-GTGGATGCGA-3'.反应产物经2%琼脂糖凝胶电泳,成像存盘.用统计分析软件(Statistic analysis software,SAS)对Hp DNA指纹图的相似性以及与疾病的相关性进行分析.结果:每个菌株都有其独特的DNA指纹图,显示其基因的多态性;计算机聚类分析显示:Hp DNA指纹图可分为两大类,其与宿主疾病之间有一定程度的相关性(P＜0.05).结论:(1)RAPD对 Hp DNA扩增结果是稳定、可靠的,是一种较好的分型方法.(2)幽门螺杆菌感染所致疾病可能与其基因型相关.     

幽门螺杆菌AlpA基因中四种黏附素基因保守区的克隆、表达、纯化及鉴定

幽门螺杆菌（Helicobacter pylori,Hp）感染是慢性活动性胃炎和消化性溃疡的主要病因,与胃腺癌、胃黏膜相关淋巴样组织（MALT）淋巴瘤的发生亦密切相关.鉴于Hp已证实的四种粘附素保守区（AB）是外膜蛋白（OMP）和膜孔素(porin)样成分,而外膜蛋白和膜孔素样成分是优秀的疫苗候选抗原.用PCR技术扩增AB基因,将其定向插入pET-22b（+）载体,在BL21（DE3）大肠杆菌中表达.测序显示AB基因长588 bp,编码195个氨基酸.SDS-聚丙烯酰胺凝胶电泳和凝胶扫描分析,AB基因表达的蛋白质分子质量约为22.5 ku,其重组蛋白质表达量占菌体总蛋白质的29%,表达产物经亲和层析纯化后蛋白质纯度达96%.经免疫印迹证实该重组蛋白可以被AlpA免疫兔血清所识别.AB蛋白的获得为进一步研究Hp黏附素保守区的分子黏附机制和免疫防治作用提供了基础.     

胃溃疡、胃癌组织中幽门螺杆菌及真菌基因片段的扩增分析

探讨胃溃疡、胃癌组织中幽门螺杆菌(Helicobacter pylori,Hp)、真菌(Fungi)单纯感染及混合感染的可能性并进行验证。应用聚合酶链反应(PCR)技术,分别自4例胃溃疡和4例胃癌并伴单纯幽门螺杆菌、真菌及其混合感染病例石蜡包埋组织(FFPE)中扩增Hp及fungi基因特异片段并进行测序分析。成功提取了FF-PE胃组织基因组DNA,并扩增出Hp 16S rRNA及真菌内转录间隔区18S rDNA基因和28S rDNA之间的基因特异条带,测序大小分别为114 bp和357 bp,经在线BLAST比对分析表明所扩增基因与Hp及真菌核苷酸具有高度同源性。胃溃疡、胃癌组织中存在Hp和真菌单纯感染及混合感染。推测Hp与真菌混合感染可能是加重胃溃疡发展和诱发胃癌发生的又一致病因素。积极治疗Hp与真菌混合感染有助于提高胃溃疡的治愈率和减少胃癌的发生。     

极小种群植物川柿叶绿体基因组特征与系统发育分析（附录）

川柿(Diospyros sutchuensis)为极小种群和国家重点保护野生植物,分布范围狭窄,种群数量极少。目前,川柿基因组信息缺乏,在柿属(Diospyros)中的系统亲缘关系不明确。该研究通过Illumina平台对川柿叶绿体基因组进行测序,应用Getorganellev1.7.3.4和PGA软件对基因组进行组装和注释,使用DnaSP6.12.03软件进行多序列对比分析,并使用REPuter、Tandem Reapeats Finder和MISA软件进行重复序列分析,使用CodonW1.4和EasyCodemL软件分别进行密码子偏好性和选择压力分析。同时,基于4个不同的叶绿体基因组序列数据集,使用IQtree软件分析川柿与11个柿属物种的系统发育关系。结果表明:(1)川柿叶绿体基因组全长157 917 bp,包含1对26 111 bp的反向重复区、大单拷贝区(87 303 bp)和小单拷贝区(18 392 bp),GC碱基含量为37.4%。(2)川柿叶绿体基因组共注释到113个基因,包括79个蛋白编码基因、30个tRNA基因和4个rRNA基因; 共检测到49个长重复序列、27个串联重复序列和34个简单重复序列; 蛋白编码基因中高频密码子31个,多数密码子末位碱基为A或U,编码亮氨酸的密码子使用最多; 基因组编码区比非编码区更为保守,10个高变热点区域可作为潜在的分子标记; 蛋白编码基因中有8个基因(ndhB、ndhG、ndhI、rbcL、rpoB、petB、petD、rps12)受到正选择压力。(3)系统发育分析显示,川柿与老鸦柿(D. rhombifolia)和乌柿(D. cathayensis)亲缘关系最为密切,它们与海南柿(D. hainanensis)共同形成一个单系分支。该研究结果既为川柿及柿属种质资源鉴定、遗传多样性保护以及种群恢复等提供了叶绿体基因组资源,也为阐明川柿的系统进化提供了重要的分子信息。     

桃叶珊瑚属植物的叶绿体基因组结构特征及系统发育分析

为确定桃叶珊瑚属(Aucuba)植物叶绿体基因组的结构及其序列变异,揭示其属下种间亲缘关系,该研究对桃叶珊瑚(A. chinensis)、花叶青木(A. japonica var. variegata)等6种桃叶珊瑚属植物和丝缨花属植物黄杨叶丝缨花(Garrya buxifolia)进行二代测序,利用生物信息学软件对其叶绿体基因组序列进行组装和注释,并进行基本特征分析、序列比较以及系统发育分析。结果表明:(1)桃叶珊瑚属植物叶绿体基因组具典型的环状四分体结构,6条序列全长157 891～158 325 bp,均编码114个基因,包括80个蛋白质编码基因、30个tRNA基因和4个rRNA基因。(2)6种植物叶绿体基因组高频密码子数均为29个,偏好以A/U结尾,确定了这6条序列的最优密码子共100个,包含12个共有的最优密码子。(3)6条叶绿体基因组序列共检测到270条散在重复序列,133条串联重复序列以及412个SSR位点。(4)比较基因组学分析结果表明,该属植物叶绿体基因组序列高度保守。(5)从叶绿体基因组中筛选出10个高变片段。(6)系统发育分析结果显示支持桃叶珊瑚属为一个支持率较高的单系,与丝缨花属关系较近。该研究中的5种桃叶珊瑚属植物以及1种丝缨花属植物的叶绿体基因组均为首次测序组装,揭示了桃叶珊瑚属及其属下种间的系统发育关系,为桃叶珊瑚属植物的分类鉴定和系统发育提供了参考资料。     

滇黄精叶绿体全基因组序列及其密码子使用偏性分析

为探究滇黄精(Polygonatum kingianum)叶绿体全基因组特征和密码子使用偏性,利用第二代测序技术对滇黄精嫩叶进行测序,再经组装与注释后得到其叶绿体基因组全序列,通过MISA、EMBOSS和CodonW等软件对滇黄精叶绿体全基因组的SSR位点、系统发育及密码子偏好性进行分析。结果表明,滇黄精完整叶绿体基因组长度为155 852 bp,基因组平均GC含量为37.7%,其大、小单拷贝区(LSC)长度分别为84 633和185 25 bp,反向重复区长度为26 347 bp,注释了132个基因,包括86个蛋白编码基因、38个tRNA基因和8个核糖rRNA基因。叶绿体基因组中共有69个SSR位点,绝大多数属于单碱基重复的A/T类型。系统发育分析表明滇黄精与格脉黄精(P. tessellatum)亲缘关系近,可能与分布地域有关。密码子偏好性分析表明,滇黄精叶绿体基因组密码子使用模式受到自然选择影响大于突变因素,最终确定9个最优密码子。因此, 滇黄精叶绿体基因组遗传结构和系统发育位置及其密码子偏倚的分析,为叶绿体基因工程研究提供理论依据。     

Oxidative damage of the gastric mucosa in Helicobacter pylori positive chronic atrophic and nonatrophic gastritis, before and after eradication

Background. Helicobacter pylori is the main cause of gastritis and a primary carcinogen. The aim of this study was to assess oxidative damage in mucosal compartments of gastric mucosa in H. pylori positive and negative atrophic and nonatrophic gastritis. Materials and methods. Five groups of 10 patients each were identified according to H. pylori positive or negative chronic atrophic (Hp‐CAG and CAG, respectively) and nonatrophic gastritis (Hp‐CG and CG, respectively), and H. pylori negative normal mucosa (controls). Oxidative damage was evaluated by nitrotyrosine immunohistochemistry in the whole mucosa and in each compartment at baseline and at 2 and 12 months after eradication. Types of intestinal metaplasia were classified by histochemistry. Results. Total nitrotyrosine levels appeared significantly higher in H. pylori positive than in negative patients, and in Hp‐CAG than in Hp‐CG (p < .001); no differences were found between H. pylori negative gastritis and normal mucosa. Nitrotyrosine were found in foveolae and intestinal metaplasia only in Hp‐CAG. At 12 months after H. pylori eradication, total nitrotyrosine levels showed a trend toward a decrease in Hp‐CG and decreased significantly in Hp‐CAG (p = .002), disappearing from the foveolae (p = .002), but remaining unchanged in intestinal metaplasia. Type I and II of intestinal metaplasia were present with the same prevalence in Hp‐CAG and CAG, and did not change after H. pylori eradication. Conclusions. Oxidative damage of the gastric mucosa increases from Hp‐CG to Hp‐CAG, involving the foveolae and intestinal metaplasia. H. pylori eradication induces a complete healing of foveolae but not of intestinal metaplasia, reducing the overall oxidative damage in the mucosa.     

Transgenic Peanut (<Emphasis Type="Italic">Arachis hypogaea</Emphasis> L.) Expressing the Urease Subunit B Gene of <Emphasis Type="Italic">Helicobacter pylori</Emphasis>

Helicobacter pylori (H. pylori) has been identified as the main pathogenic factors of chronic gastritis and peptic ulcer, and the Class I carcinogen of gastric cancer by WHO. Vaccine has become the most effective measure to prevent and cure H. pylori infection. The UreB is the most effective and common immunogen of all strains of H. pylori and may stimulate the immunoresponse protecting the human body against the challenge of H. pylori. UreB antigen gene was cloned into the binary vector pBI121 which contains a seed-specific promoter Oleosin of peanut and a kanamycin resistance gene, and then UreB gene was transformed into peanut embryo leaflets by Agrobacter-mediated method. The putative transgenic plants were examined for the presence of UreB in the nuclear genome of peanut plants by PCR analysis. Expression of UreB gene in plants was identified by RT-PCR and Western blot analysis. These results suggest that the UreB transgenic peanut can be potentially used as an edible vaccine for controlling H. pylori.     

Variability of gene order in different Helicobacter pylori strains contributes to genome diversity

Considerable genomic microdiversity has been reported previously among Helicobacter pylori isolates. We have constructed genome maps of four unrelated H. pylori strains (NCTC11637, NCTC11639, UA802 and UA861) using pulsed-field gel electrophoresis (PFGE) with Notl and Nrul, hybridization with extracted PFGE DNA fragments and probing with 17 gene probes. These strains of H. pylori were compared with a fifth unrelated H. pylori strain NCTC11638 mapped previously. Considerable diversity in gene arrangement was evident among the five H, pylori maps, and no consistent gene clustering was found. The association of only four genes, katA (catalase gene), vacA (vacuo-lating cytotoxin gene), hpaA (a putative adhesin gene), and pfr (bacterial ferritin gene) were generally conserved within approximately the same 25% of the genome; however, the order of these genes also varied. Our study demonstrates that macrodiversity, i.e. variability in gene order, in addition to microdiversity, is a characteristic of the H. pylori genome.     

Mutation as an origin of genetic variability in Helicobacter pylori

The availability of two complete Helicobacter pylori genome sequences and recent studies of its population genetics have provided a detailed picture of genetic diversity in this important human gastric pathogen. It is believed that, in addition to genetic recombination, de novo mutation could have a role in generating the high level of genetic variation in H. pylori.     

Functional characterization of Helicobacter pylori TlyA: Pore-forming hemolytic activity and cytotoxic property of the protein

Helicobacter pylori is a human specific gastric pathogen. H. pylori pathogenesis process involves a number of well-studied virulence factors that include the ‘vacuolating cytotoxin’ and the ‘cytotoxin associated gene A’. Analysis of the H. pylori genome, however, indicates presence of additional virulence factors that are yet to be characterized in molecular detail. For example, H. pylori genome harbors a gene that has potential to encode a protein with sequence similarity to those of the TlyA-like proteins of several pathogenic bacteria. Earlier studies have indicated potential association of this H. pylori tlyA gene in the virulence mechanism of the organism. Despite such notions, however, the TlyA-like protein of H. pylori has not been studied previously in molecular detail. In particular, purified form of H. pylori TlyA has never been studied before toward exploring its functional properties. Here, we report characterization of the H. pylori TlyA protein purified from the recombinant over-expression system in Escherichia coli. Purified form of the recombinant TlyA exhibits prominent hemolytic activity against human erythrocytes, presumably via formation of pores of specific diameter in the cell membrane. Purified TlyA also triggers prominent cytotoxic responses in human gastric adenocarcinoma cells. Altogether, our study establishes H. pylori TlyA as a potential virulence factor of the organism.     

The Hsp60 protein of Helicobacter pylori: structure and immune response in patients with gastroduodenal diseases

Helicobacter pylori is a human pathogen that has been associated with gastritis, peptic ulcer and gastric carcinoma. The role of the direct action of H. pylori virulence factors and of the induction of autoreactive immunity in the development of chronic gastritis has not been clarified yet. Here we report the cloning and molecular characterization of a gene of H. pylori coding for a protein of 58kDa, recognized by sera of patients affected by H. pylori-induced gastroduodenal diseases. This antigen is present in all the H. pylori strains tested and it belongs to the Hsp60 family of heat-shock proteins, with high homology with other bacterial and eukaryotic proteins of the same family. This class of homologous proteins has been implicated in the induction of autoimmune disorders in different systems. The presence in infected patients of anti-H. pylori Hsp60 antibodies, potentially cross-reacting with the human homologue, and cross-reactivity between human Hsp60 and a rabbit antiserum against H. pylori Hsp60 suggest that a role of this protein in gastroduodenal diseases is possible.     

Geographic distribution of methyltransferases of Helicobacter pylori: evidence of human host population isolation and migration

Background  

Helicobacter pylori colonizes the human stomach and is associated with gastritis, peptic ulcer, and gastric cancer. This ubiquitous association between H. pylori and humans is thought to be present since the origin of modern humans. The H. pylori genome encodes for an exceptional number of restriction and modifications (R-M) systems. To evaluate if R-M systems are an adequate tool to determine the geographic distribution of H. pylori strains, we typed 221 strains from Africa, America, Asia, and Europe, and evaluated the expression of different 29 methyltransferases.     

PCR-Denaturing Gradient Gel Electrophoresis and Two Feces Antigen Tests for Detection of <Emphasis Type="Italic">Helicobacter pylori</Emphasis> in Mice

PCR-denaturing Gradient Gel Electrophoresis (PCR-DGGE), a method suitable for the detection of microbial species in complex ecosystems, was evaluated for the detection and identification of Helicobacter spp. in feces and stomach tissue of mice. Two commercially available stool antigen tests for clinical diagnostics in humans were also evaluated in the C57B1/6 mouse model of H. pylori infection. PCR-DGGE detected only Helicobacter ganmani in feces from H. pylori-infected as well as control animals, whereas in stomach specimens it demonstrated the presence of H. pylori in challenged and H. ganmani in control animals. Hence, the method detected DNA only of the predominant Helicobacter spp., which was also shown in cell dilution experiments. The Amplified IDEIA Hp StAR feces antigen test detected H. pylori in feces from all infected animals and generated no false-positive results, whereas the Premier Platinum HpSA-test also detected H. pylori in all infected animals but generated false-positive or equivocal results in 50% of the control animals. Premier Platinum HpSA, as opposed to Hp StAR, cross-reacted with non-pylori Helicobacter spp. in vitro.Received: 21 August 2002 / Accepted: 6 December 2002