基于SAFLP的我国常见索线虫科昆虫病原线虫亲缘关系分析

本研究建立并优化了索线虫科(Mermithidae)SAFLP体系,构建了我国常见索线虫科昆虫病原线虫6属11种/亚种的指纹图谱。采用EcoRⅠ和MseⅠ两种限制性内切酶单酶切,结果显示EcoRⅠ酶更适合作为索线虫科线虫SAFLP的内切酶。3个带有3个选择性碱基的EcoRⅠ引物进行扩增共得条带225个,片段大小为250～1 650 bp。通过NTsys-PC2.1软件计算了索线虫科6属11种/亚种的Nei-Li遗传距离(0.1980～034554)和相似系数,利用NTsys-PC2.1软件中的UPGMA方法构建其聚类图。索线虫科这6属11种/亚种从属级阶元可以分为两大类群：罗索属Romanomermis和八腱索属Octomyomermis聚为一支构成第一大类群;六索属Hexamermis与卵索属Ovomermis先聚在一起然后与多索属Agamermis聚在一起,再与两索属Amphimermis聚在一起构成第二大类群。在八腱索属和两索属中属内不同种/亚种间线虫采集地相距较近的其遗传距离较近。优化的索线虫科线虫SAFLP体系能够反映索线虫科线虫种属间的亲缘关系,并与形态学的研究结果基本相符,可以用于属种的分类和亲缘关系的研究。     

中华卵索线虫雌雄寄生后期幼虫基因差异表达分析

索科线虫是一类具有很大生防潜力的昆虫(如棉铃虫等)天敌资源,但由于其体外培养尚未获得成功,阻碍了商业化生产和大规模应用,究其原因主要是体外培养的线虫不能完成雌雄性别分化。因此,研究该类线虫性别分化机制成为近年本领域的热点课题。该文以中华卵索线虫为实验材料,采用mRNA差异显示的方法,分析了中华卵索线虫性别分化关键时期雌、雄寄生后期幼线虫的基因表达差异。在雌雄线虫体内得到具有表达差异的基因片段20条。其中8条在雄虫体内特异性表达,12条在雌虫体内特异性表达。利用信息生物学技术对所分离到的差异片段进行了序列分析。其中,Ensembl分析发现4个片段与秀丽线虫X染色体具有可匹配片段,推测这些片段可能是影响中华卵索线虫性别分化的重要基因。这些结果将为后续研究提供思路。     

棉铃虫感染中华卵索线虫后血淋巴酚氧化酶活性的变化及其分离纯化

研究了中华卵索线虫Ovomermis sinensis感染棉铃虫Helicoverpa armigera幼虫后宿主体内酚氧化酶活性的变化。研究结果表明,在感染后的第1天,中华卵索线虫的侵入引起酚氧化酶活性的增加,感染组酶活性是同期对照组的1.12倍; 但在随后的寄生期间,中华卵索线虫抑制了宿主的酚氧化酶活性,其中以第5天的抑制最为强烈： 同期对照组酶活性是感染组的1.52倍。对酚氧化酶进行了初步的分离纯化,纯化倍数为41.5倍,酶得率为12.7%,比活力为4 030.6 U/mg。     

索科线虫分子系统学研究进展

昆虫病原索科线虫是一类宝贵的昆虫天敌资源,对农、林及卫生害虫的综合治理、环境保护以及实现农田生物多样性,都具有重要的学术和实用价值。其分子系统学研究涉及RAPD技术、SAFLP技术和基因分子标记技术对索科线虫种属间的亲缘关系探究,以及其线粒体全基因组分析等。     

五种索科线虫RAPD亲缘关系分析

采用RAPD技术构建了索科线虫4属5种的指纹图谱。从47个引物中筛选出12个稳定性好、多态性高的引物,共扩增出161条谱带,其中150条谱带具遗传多态性,占93·17%。所获片段长度大小为200~3200bp,单个引物扩增的条带数在11~16之间,平均为13·42条。采用RAPDistance软件及MEGA程序,计算Nei氏相似系数和遗传距离,建立UPGMA和NJ聚类图,两个聚类图拓扑结构相同,将5种索科线虫分为两大分支:同属于蚊幼寄生罗索属线虫的食蚊罗索线虫(Romanomermisculicivorax)与武昌罗索线虫(R.wuchangensis)亲缘关系最近,先聚在一起,再与同翅目(Homoptera)寄生长沙多索线虫(Agamermischang-shaensis)聚为一支;鳞翅目(Lepidoptera)寄生中华卵索线虫(Ovomermissinensis)和同翅目寄生两索属线虫(Amphimermissp·)亲缘关系较近,两者聚为一支。5种索线虫属内种间的遗传距离较小,食蚊罗索线虫与武昌罗索线虫之间遗传距离仅为0·1789;而属间遗传距离较大,在0·4471~0·5488之间。上述结果表明:RAPD技术可以应用于索科线虫亲缘关系的分析,能够反映出不同线虫间的遗传差距,从而成功地进行属、种的分类及进化问题研究。     

鸮形目两种鸟类线粒体基因组全序列测定与比较研究

利用Long-PCR和Primer Walking结合克隆测序法对短耳鸮和长耳鸮线粒体基因组进行了全序列测定. 结果表明: 短耳鸮mtDNA序列全长为18858 bp, 长耳鸮mtDNA全长为18493 bp, 其中短耳鸮mtDNA是目前已知最长的鸟类线粒体基因组. 两种鸮类的基因组结构和基因排列顺序与家鸡相同, 无假控制区, 在ND3基因174位点都存在一个额外插入的胞苷酸(C). 控制区序列异常增大是造成这两种鸟类mtDNA增大的主要原因, 短耳鸮控制区长度为3288 bp, 长耳鸮为2926 bp, 这是目前已知的脊椎动物线粒体基因组中仅次于盲鳗的最大的控制区. 在其控制区3′端存在大量的串联重复序列, 分析发现这两种鸮类的重复序列和Mt5调控元件有较高的序列相似性, 且能形成多重的茎环二级结构, 这表明该重复序列可能具有一定的生理功能, 影响线粒体基因组的复制或转录表达, 从而使相应物种具有更大的选择优势, 以适应环境和生存竞争.     

乌龟线粒体全基因组序列和结构分析

龟鳖类同其它类群脊椎动物的系统进化关系一直存在争论。为进一步从分子水平上探讨这一问题,本文参照近源物种的线粒体基因组,设计了16对特异引物,采用PCR产物直接测序法测得了乌龟线粒体基因组全序列。结果表明:乌龟线粒体基因组序列全长16576bp,包括2个rRNA基因、22个tRNA基因、13个蛋白质编码基因和1个非编码控制区。乌龟线粒体基因组结构和基因排列顺序与其它龟鳖类相同,在“WANCY区”包含一个“stemloop”结构,ND3基因174位点存在一个额外插入的腺苷酸(A)。本文通过比较分析结构基因在主要脊椎动物类群中的排列顺序,探讨了龟鳖类与其它主要脊椎动物类群的系统进化关系     

象甲科线粒体基因组特征及系统发育分析

昆虫线粒体基因组广泛应用于系统发育关系的重新建立、分子进化、谱系地理学及物种诊断等领域。为揭示象甲科昆虫线粒体全基因组序列的主要结构特征,探究其系统发育相关信息,为进化遗传学研究和分子标记选取等提供参考依据,本研究利用比较基因组学和生物信息学方法,对NCBI上已公布的35种象甲科物种线粒体全基因组序列进行了分析。结果显示:(1)象甲科tRNA基因存在排序及数目异常情况,不同物种中蛋白质编码基因和2种rRNAs排列相同,线粒体全基因组具有明显AT偏向;(2)COX1、ATP6、ND5、ND4、ND4L和ND1基因除标准三联密码子外,还存在特殊的起始密码子AAT、TTG和GTG;(3)13种蛋白质编码基因的进化速率顺序为COX3ATP8ND2ND5ND1ND4ND6ND4LND3ATP6CytbCOX1COX2;(4)13个蛋白编码基因和rRNAs基因中,ND5、rrnL、ND4和ND2基因变异位点数较高,可作为备选的分子标记;(5)各亚科的系统发育关系可能为(((小蠹亚科Scolytinae+长小蠹亚科Platypodinae)+(隐喙象亚科Cryptorhynchinae+魔喙象亚科Molytinae+象虫亚科Curculioninae)+((孢喙象亚科Cyclominae+粗喙象亚科Entiminae)+(隐颏象亚科Dryophthorinae+长小蠹亚科))),为象甲科的系统发育分析有提供参考。     

水稻线粒体DNA酶切带型研究

水稻IR36线粒体DNA经6种限制酶酶切,用脉冲电泳和长距离琼脂糖凝胶电泳分离酶切片段,获得高分辨率的清晰带型。每组酶切片段加和测得水稻IR36线粒体基因组大小分别为227kb(HindⅢ)、253kb(EcoRⅠ)、253kb(XhoⅠ)、294kb(BamHⅠ)、239kb(SalⅠ)和283kb(xbal)采用9个来自水稻和玉米线粒体基因组的基因探针与酶切条带杂交发现,水稻线粒体基因组含有包括编码基因在内的重复顺序。     

棉铃虫感染中华卵索线虫后血淋巴游离氨基酸含量的变化

中华卵索线虫Ovomermis sinensis感染棉铃虫Helicoverpa armigera 1天后,棉铃虫幼虫血淋巴中游离氨基酸总量大幅度下降,各种游离氨基酸的含量也是如此变化。感染2～4天后的棉铃虫血淋巴中游离氨基酸总量变化不大,各种游离氨基酸的含量有升有降。感染5～6天后的棉铃虫血淋巴中游离氨基酸总量和各种氨基酸的含量都急剧上升。研究表明,中华卵索线虫寄生棉铃虫时,棉铃虫血淋巴中游离氨基酸含量的变化朝着有利于线虫生长发育的方向进行。     

Mitochondrial genome haplotype hypervariation within the isopod parasitic nematode Thaumamermis cosgrovei

Characterization of mitochondrial genomes from individual Thaumamermis cosgrovei nematodes, obligate parasites of the isopod Armadillidium vulgare, revealed that numerous mtDNA haplotypes, ranging in size from 19 to 34 kb, are maintained in several spatially separated isopod populations. The magnitude and frequency of conspecific mtDNA size variation is unprecedented among all studied size-polymorphic metazoan mitochondrial genomes. To understand the molecular basis of this hypervariation, complete nucleotide sequences of two T. cosgrovei mtDNA haplotypes were determined. A hypervariable segment, residing between the atp6 and rrnL genes, contributes exclusively to T. cosgrovei mtDNA size variation. Within this region, mtDNA coding genes and putative nonfunctional sequences have accumulated substitutions and are duplicated and rearranged to varying extents. Hypervariation at this level has enabled a first insight into the life history of T. cosgrovei. In five A. vulgare hosts infected with multiple nematodes, four carried nematodes with identical mtDNA haplotypes, suggesting that hosts may become infected by ingesting a recently hatched egg clutch or become parasitized by individuals from the same brood prior to dispersal of siblings within the soil.     

Complete mitochondrial genome of the Amur stickleback Pungitius sinensis (Gasterosteiformes, Gasterosteidae)

The complete mitochondrial genome was sequenced from the Amur stickleback Pungitius sinensis. The genome sequence was 16,581 bp in size, and the gene order and contents were identical with those of previously reported fish mitochondrial genomes. Of 13 protein-coding genes (PCGs), four genes (ND2, CO2, ND4, Cytb) had incomplete stop codons. The base composition of P. sinensis showed anti-G bias (9.53%) on the third position of PCGs.     

Complete mitochondrial DNA sequences of two haplotypes of the smallmouth bass, <Emphasis Type="Italic">Micropterus dolomieu</Emphasis>, collected from nonindigenous populations in Japan

We determined the complete mitochondrial genome sequences of two haplotypes of the smallmouth bass, Micropterus dolomieu; individuals used in the analysis were collected from nonindigenous populations in Japan. Both genomes comprised 16,488 bp, with genome contents and gene orders being identical to those of other teleost fishes. A previous study revealed that the Japanese smallmouth bass had only two haplotypes, and the present study revealed that the complete mitochondrial DNA (mtDNA) sequences of the haplotypes differed in only one nucleotide difference. The low genetic diversity in the mtDNA of the smallmouth bass individuals in our study and the results of the mtDNA sequence comparison between the Japanese and the North American individuals suggested that the fish had been transplanted from a fish farm with a low-diversity stock.     

Unusual mitochondrial genome structure of the freshwater goby Odontobutis platycephala: rearrangement of tRNAs and an additional non-coding region

Mitochondrial DNA was isolated from the Korean freshwater gobioid fish Odontobutis platycephala by long-polymerase chain reaction with conserved primers and this mtDNA was sequenced by primer walking using flanking sequences as sequencing primers. The resultant O. platycephala mtDNA sequence was found to be 17 588 bp in size with a mostly conserved structural organization when compared with that of other teleost fish. Rearrangements of tRNAs (tRNA-Ser, tRNA-Leu, tRNA-His) and an additional non-coding region (533 bp) were present between the ND4 and ND5 genes. In the present paper, the basic characteristics of the O. platycephala mitochondrial genome is reported, including its structural organization, base composition of rRNAs, tRNAs and protein-encoding genes, characteristics of mitochondrial tRNAs and the peculiar rearrangement features of some parts of the mtDNA. Phylogenetic analysis performed using the cytochrome b gene sequences of 16 Korean freshwater fishes (15 gobioids) with the Bayesian algorithm showed that O. platycephala forms a clade (1·00 of posterior probability) with other species of Odontobutis . This suggests that the observed rearrangement between the ND4 and ND5 genes in the O. platycephala mitogenome reflects independent events.     

安徽汉族群体mtDNA高变区I序列多态性分析

以Anderson标准序列作为对照,用GeneDOC软件确定42个安徽汉族无关个体的mtDNA高变区I序列在线粒体基因组中的位置,通过序列比对软件clustalX分析安徽汉族群体mt DNA高变区I序列多态性,共检测到38种单倍型和57个变异位点.在mtDNA高变区I序列中14个bp的高变结构域中,安徽汉人16183位点变异率高达38%,在16187位点的变异率为4.8%.同时发现,安徽汉人与成都汉人在mtDNA高变区I 16183和16189位点的变异率接近,明显高于广东汉人.     

The complete sequence of the mitochondrial genome of the African Penguin (Spheniscus demersus)

The complete mitochondrial genome of the African Penguin (Spheniscus demersus) was sequenced. The molecule was sequenced via next generation sequencing and primer walking. The size of the genome is 17,346 bp in length. Comparison with the mitochondrial DNA of two other penguin genomes that have so far been reported was conducted namely; Little blue penguin (Eudyptula minor) and the Rockhopper penguin (Eudyptes chrysocome). This analysis made it possible to identify common penguin mitochondrial DNA characteristics. The S. demersus mtDNA genome is very similar, both in composition and length to both the E. chrysocome and E. minor genomes. The gene content of the African penguin mitochondrial genome is typical of vertebrates and all three penguin species have the standard gene order originally identified in the chicken. The control region for S. demersus is located between tRNA-Glu and tRNA-Phe and all three species of penguins contain two sets of similar repeats with varying copy numbers towards the 3′ end of the control region, accounting for the size variance. This is the first report of the complete nucleotide sequence for the mitochondrial genome of the African penguin, S. demersus. These results can be subsequently used to provide information for penguin phylogenetic studies and insights into the evolution of genomes.     

Presence of two mitochondrial genomes in the mytilid Perumytilus purpuratus: Phylogenetic evidence for doubly uniparental inheritance

This study presents evidence, using sequences of ribosomal 16S and COI mtDNA, for the presence of two mitochondrial genomes in Perumytilus purpuratus. This may be considered evidence of doubly uniparental mtDNA inheritance. The presence of the two types of mitochondrial genomes differentiates females from males. The F genome was found in the somatic and gonadal tissues of females and in the somatic tissues of males; the M genome was found in the gonads and mantle of males only. For the mitochondrial 16S region, ten haplotypes were found for the F genome (nucleotide diversity 0.004), and 7 haplotypes for the M genome (nucleotide diversity 0.001), with a distance Dxy of 0.125 and divergence Kxy of 60.33%. For the COI gene 17 haplotypes were found for the F genome (nucleotide diversity 0.009), and 10 haplotypes for the M genome (nucleotide diversity 0.010), with a genetic distance Dxy of 0.184 and divergence Kxy of 99.97%. Our results report the presence of two well-differentiated, sex-specific types of mitochondrial genome (one present in the male gonad, the other in the female gonad), implying the presence of DUI in P. purpuratus. These results indicate that care must be taken in phylogenetic comparisons using mtDNA sequences of P. purpuratus without considering the sex of the individuals.     

Complete mitochondrial genome of the Teinopalpus aureus guangxiensis (Lepidoptera: Papilionidae) and related phylogenetic analyses

In this study, we sequenced the complete mitochondrial genome of Teinopalpus aureus guangxiensis (Lepidoptera: Papilionidae), which is considered as an endemic species in China. It is listed as a vulnerable species by International Union for Conservation of Nature and Natural Resources Red List and also a first class endangered species in China. The complete mtDNA from T. aureus guangxiensis was 15,235 base pairs in length and contained 13 protein-coding genes (PCGs), 2 rRNA genes, 22 tRNA genes, and a control region. The T. aureus guangxiensis genes were in the same order and orientation as the completely sequenced mitogenomes of other lepidopteran species. All PCGs of T. aureus guangxiensis mitogenome start with a typical ATN codon and terminate in the common stop codon TAA, except that ND1 gene uses TTA, ND3 gene uses ATT, and ND4 and ND4L gene use TAA. The phylogenetic relationships were reconstructed with the concatenated sequences of the 13 PCGs of the mitochondrial genome, and phylogenetic results confirmed that Nymphalidae, Lycaenidae, Papilionidae, Pieridae are monophyletic clades.     

Reconstructing the plant mitochondrial genome for marker discovery: a case study using Pinus

Whole‐genome‐shotgun (WGS) sequencing of total genomic DNA was used to recover ~1 Mbp of novel mitochondrial (mtDNA) sequence from Pinus sylvestris (L.) and three members of the closely related Pinus mugo species complex. DNA was extracted from megagametophyte tissue from six mother trees from locations across Europe, and 100‐bp paired‐end sequencing was performed on the Illumina HiSeq platform. Candidate mtDNA sequences were identified by their size and coverage characteristics, and by comparison with published plant mitochondrial genomes. Novel variants were identified, and primers targeting these loci were trialled on a set of 28 individuals from across Europe. In total, 31 SNP loci were successfully resequenced, characterizing 15 unique haplotypes. This approach offers a cost‐effective means of developing marker resources for mitochondrial genomes in other plant species where reference sequences are unavailable.