鸻形目15种鸟类线粒体ND6基因序列差异及其系统进化关系

采用PCR和质粒克隆测序方法,首次获得鸻形目l5种鸟类线粒体基因组的ND6基因全长522bp的序列。经对位排列,序列间末见有插入和缺失,共有216个变异位点,种间序列差异为5．17％—19．92％。以白鹤为外群,用NJ法构建15种鸟类的进化关系树。研究结果表明：构建的系统树将鸻形目15种鸟类分为2个支系：第1支系包括蒙古沙鸻、环颈鸻、灰斑鸻和反嘴鹬。第2支系包括红脚鹬、林鹬、青脚鹬、翘嘴鹬、翻石鹬、大滨鹬、尖尾滨鹬、斑尾塍鹬、中杓鹬、大杓鹬和白腰杓鹬,其中鹬属的3个种和杓鹬属的3个种分别组成一个单系;翘嘴鹬和翻石鹬、大滨鹬和尖尾滨鹬分别聚为姊妹群,表现出较近的亲缘关系;斑尾塍鹬独立分支出来。分子证据提示：鹬科中的塍鹬属、鸻科中的斑鸻属应提升为亚科分类阶元;反嘴鹬与鸻科鸟类亲缘关系较近,组成一个单系,将其归入鸻科下属的一个类群更为合理,与核型研究结果及Sibley新分类体系的观点相一致。     

通用引物双重PCR在节肢动物物种鉴定中的应用

【目的】本研究旨在使用基于线粒体基因通用引物的双重PCR技术同时扩增单一样本中两条标记基因,从而达到简化节肢动物物种鉴定流程的目的。【方法】在一次PCR实验中同时加入可扩增线粒体COI基因和16S rDNA两个不同分子标记的引物,对3纲8目14科的14种节肢动物物种标本的基因组DNA进行扩增;扩增产物经电泳和胶回收后测序,并BLAST在线搜索相似序列,验证基于通用引物的双重PCR在不同的动物类群中用于物种鉴定的有效性。【结果】应用基于COI和16S rDNA的引物从分属于3纲8目14科的14种节肢动物基因组DNA中均可成功扩增目的基因;扩增产物测序结果进一步证实了扩增的准确性。【结论】通过本方法进行物种的分子鉴定,不仅可以保证物种鉴定的高准确率,还可以明显减少时间与DNA样本量的消耗,这对需要快速准确鉴定物种或珍稀的材料样本十分重要。     

北京鸭线粒体基因组全序列测定和分析

线粒体DNA作为遗传标记,已在家鸡(Gallus gallus)和家鹅(Anser anser)的研究中取得了重大进展,而对家鸭(Anas platyrhychos domesticus)的研究却很少.本研究参照近源物种线粒体基因组序列设计15对引物,通过PCR扩增、测序、拼接,获得北京鸭(A.platyrhychos)线粒体基因组全序列,初步分析其特点和各基因的定位.结果显示,北京鸭线粒体基因组全长16 604 bp,碱基组成为29.19%A、22.20%T、15.80%G、32.81%C,包含13个蛋白质编码基因、2个rRNA基因、22个tRNA基因和1个非编码控制区(D-loop),基因组成及排列顺序与其他鸟类相似.基于线粒体D-loop区全序列,用N-J法构建了7种雁形目鸟类系统进化树,结果表明,北京鸭与绿头鸭(A.platyrhychos)系统进化关系较近.     

社鼠（Niviventer confucianus）线粒体基因组全序列分析

社鼠（Niviventer confucianus）属于啮齿目（Rodentia）、鼠科（Muridae）、白腹鼠属（Niviventer）,关于该物种的分子系统学研究极少。为获取社鼠线粒体基因组全序列,提取其基因组总DNA,参照近缘物种线粒体基因组全序列设计34对特异性引物,利用PCR扩增全部片段后进行测序,之后对其基因组组成及结构特点进行了初步分析。结果表明,社鼠线粒体基因组全序列长16 281 bp（GenBank收录号：KJ152220）,包含22个tRNA基因、13个蛋白质编码基因、2个rRNA基因和1个非编码控制区;基因组核苷酸组成为34.0%A、28.6%T、24.9%C、12.5%G。将所得序列与社鼠近缘物种（川西白腹鼠、小家鼠、褐家鼠）的线粒体全基因组进行比较,结果显示,四个物种的线粒体基因组虽然在基因组大小、部分tRNA二级结构、部分蛋白质编码基因的起始或终止密码子及控制区长度和碱基组成上有差异,但基因组结构和序列特征方面都具有较高的相似性。四个物种线粒体全基因组间的遗传距离显示,社鼠与川西白腹鼠距离最近,而与小家鼠距离最远。该研究为利用线粒体全基因组信息进行啮齿类分子系统学研究提供了有价值的资料。     

辽宁鸟类分布新记录4种：小滨鹬、 长嘴半蹼鹬、斑胸滨鹬、流苏鹬

2010年至2019年间,鸟类研究者和观鸟爱好者在辽宁鸭绿江口和辽河口湿地累计记录到鸻形目（Charadriiformes）水鸟48种,其中小滨鹬（Calidris minuta）、长嘴半蹼鹬（Limnodromus scolopaceus）、斑胸滨鹬（C. melanotos）、流苏鹬（C. pugnax）等4种是辽宁省鸟类分布新记录种。     

双翅目昆虫线粒体基因组结构特点及其测序通用引物的设计和应用

研究双翅目昆虫线粒体基因组的结构特点, 并设计其测序的通用引物, 为今后双翅目昆虫线粒体基因组的研究提供参考和依据。利用比较基因组学和生物信息学方法, 分析了已经完全测序的26个双翅目昆虫线粒体基因组的结构特点、 碱基组成和保守区, 并据此设计了双翅目昆虫基因组测序的通用引物。结果表明： 双翅目昆虫线粒体基因组长14 503~19 517 bp, 其结构保守, 含有37个编码基因, 包括13个蛋白质编码基因, 22个tRNA编码基因和2个rRNA编码基因, 此外还包含一段长度差异很大的非编码区(AT富含区)。基因组内基因排列次序稳定, 除个别基因外, 其余都与黑腹果蝇Drosophila melanogaster基因排列次序一致。基因组的碱基组成不均衡, AT含量在72.59%~85.15%之间, 碱基使用存在偏向性, 偏好使用AC碱基。全基因组的核苷酸和氨基酸序列保守, 共鉴定了11个保守区。在保守区内共设计了26对双翅目线粒体基因组测序通用引物, 扩增的目标片段都在1 200 bp以内。将该套通用引物用于葱蝇Delia antiqua线粒体全基因组测序, 结果证明其高效、 合用。     

长江口、杭州湾北部的鸻形目鸟类群落

鸻形目鸟类(下简称“鹬鸻”)在海岸各鸟类中,其种类和数量均占首位。鹬鸻群落的研究对海岸生态系统的能流和结构的分析,海涂环境质量的评价起着十分重要的作用。国外对鸻鸟群落做了一些工作(Swmebroad 1964.Myers等1979),但鹬鸻群落在生态系统中的地位,鹬鸻群落在迁徙期的结构特征及引起群落结构变化的因子等方面系统的研究甚少,而国内这方面报道尚未见到。我们于1981年至1983年对上述鹬鸻群落研究方向在长江口、杭州湾北部进行了系统研究,现将阶段工作的一些结果简报如下:     

瓦氏黄颡鱼线粒体全基因组序列分析及系统进化

鲿科鱼类种类繁多, 外形相似, 形态学分类较为困难。为了给鲿科鱼类乃至鲇形目鱼类的系统进化研究积累基础资料, 文章采用参照近缘物种线粒体基因组设计覆盖全基因组引物的方法, 利用16对引物对瓦氏黄颡鱼(Pelteobagrus vachelli)线粒体全基因组进行扩增, PCR产物转化到质粒后测序, 最终获得线粒体基因组全序列, 其全长为16 527 bp, 包括2个rRNA基因、22个tRNA基因、13个编码蛋白质基因和一个非编码控制区。瓦氏黄颡鱼(P. vachelli)线粒体基因组结构和基因排列顺序与现已公布的鲇形目鱼类完全一致, 序列分析表明, 与鲇形目其他种属间具有较高的同源性, 与拟鲿属的同源性最高(91%)。利用鲇形目共4科6属9种及3个外群的线粒体全基因组序列, 从线粒体基因组水平探讨了鲿科鱼类及其在鲇形目的系统进化地位, 结果表明: 鲿科鱼类的瓦氏黄颡鱼(P. vachelli)、黄颡鱼(Pelteobagrus fulvidraco)、光泽黄颡鱼(Pelteobagrus nitidus)及越南拟鲿(Pseudobagrus tokiensis)构成一单系群; 拟鲿属与黄颡鱼属的关系较近; 黄颡鱼属中瓦氏黄颡鱼(P. vachelli)与光泽黄颡鱼(P.nitidus)的关系近于黄颡鱼(P. fulvidraco)。     

形目15种鸟类线粒体ND6基因序列差异及其系统进化关系

采用PCR和质粒克隆测序方法 ,首次获得形目 15种鸟类线粒体基因组的ND6基因全长 5 2 2bp的序列。经对位排列 ,序列间未见有插入和缺失 ,共有 2 16个变异位点 ,种间序列差异为 5 17%～ 19 92 %。以白鹳为外群 ,用NJ法构建 15种鸟类的进化关系树。研究结果表明 :构建的系统树将形目 15种鸟类分为 2个支系。第 1支系包括蒙古沙、环颈、灰斑和反嘴鹬。第 2支系包括红脚鹬、林鹬、青脚鹬、翘嘴鹬、翻石鹬、大滨鹬、尖尾滨鹬、斑尾塍鹬、中杓鹬、大杓鹬和白腰杓鹬 ,其中鹬属的 3个种和杓鹬属的 3个种分别组成一个单系 ;翘嘴鹬和翻石鹬、大滨鹬和尖尾滨鹬分别聚为姊妹群 ,表现出较近的亲缘关系 ;斑尾塍鹬独立分支出来。分子证据提示 :鹬科中的塍鹬属、科中的斑属应提升为亚科分类阶元 ;反嘴鹬与科鸟类亲缘关系较近 ,组成一个单系 ,将其归入科下属的一个类群更为合理 ,与核型研究结果及Sibley新分类体系的观点相一致 [动物学报 49(1) :6 1～ 6 7,2 0 0 3]。     

线粒体基因组测序策略和方法

本文综述了线粒体基因组测序策略和方法,在传统测序方法中介绍了基于物理分离线粒体DNA的克隆文库测序方法和基于PCR扩增产物的直接测序方法,后者重点介绍了基于长PCR扩增产物的引物步移法和基于总DNA的引物步移法;应用新一代高通量测序方法有基于总DNA样品的方法,包括需要预扩增mtDNA的多物种平行高通量和无需预扩增mtDNA的高通量方法,基于总RNA样品的转录组测序方法等。在实际工作中,选择哪种方法取决于研究规模、样品大小和保存状态、经费情况等。总的来说,基于长PCR扩增产物的引物步移法尤其适合小规模昆虫线粒体基因组研究,而对于大规模线粒体基因组研究来说,NGS技术无疑是省时省力的最佳选择。     

Highly effective sequencing whole chloroplast genomes of angiosperms by nine novel universal primer pairs

Chloroplast genomes supply indispensable information that helps improve the phylogenetic resolution and even as organelle‐scale barcodes. Next‐generation sequencing technologies have helped promote sequencing of complete chloroplast genomes, but compared with the number of angiosperms, relatively few chloroplast genomes have been sequenced. There are two major reasons for the paucity of completely sequenced chloroplast genomes: (i) massive amounts of fresh leaves are needed for chloroplast sequencing and (ii) there are considerable gaps in the sequenced chloroplast genomes of many plants because of the difficulty of isolating high‐quality chloroplast DNA, preventing complete chloroplast genomes from being assembled. To overcome these obstacles, all known angiosperm chloroplast genomes available to date were analysed, and then we designed nine universal primer pairs corresponding to the highly conserved regions. Using these primers, angiosperm whole chloroplast genomes can be amplified using long‐range PCR and sequenced using next‐generation sequencing methods. The primers showed high universality, which was tested using 24 species representing major clades of angiosperms. To validate the functionality of the primers, eight species representing major groups of angiosperms, that is, early‐diverging angiosperms, magnoliids, monocots, Saxifragales, fabids, malvids and asterids, were sequenced and assembled their complete chloroplast genomes. In our trials, only 100 mg of fresh leaves was used. The results show that the universal primer set provided an easy, effective and feasible approach for sequencing whole chloroplast genomes in angiosperms. The designed universal primer pairs provide a possibility to accelerate genome‐scale data acquisition and will therefore magnify the phylogenetic resolution and species identification in angiosperms.     

Traced orthologous amplified sequence tags (TOASTs) and mammalian comparative maps

Progress on mammalian comparative maps could be significantly accelerated by developing reagents defining orthologous landmarks in the genome of many mammalian species. Using the large databases of gene sequences, we designed 225 orthologous gene-specific primer pairs corresponding to 146 functional genes. Of these 225 primer pairs, 155 (68.9%), 182 (80.9%), 126 (56.0%), and 82 (36.4%) produced a single PCR product when tested against human, pig, dog, and hamster genomic DNA, respectively. In addition to the general rules of primer designing, particular factors must be taken into consideration when choosing gene-specific universal primers—for instance, preference for single-exon regions or highly conserved segments among species, avoidance of GC-rich regions. Sequencing all the canine PCR products traced by these primers demonstrated that of 123 traced canine fragments with readable and reliable sequences, 121 (98.4%) were found to match the GenBank orthologous sequences used for designing the primers, after a BLAST search. Comparative characterization of PCR fragments among human, pig, dog, and hamster revealed that the length of a single exon was much conserved among species, with few exceptions. As the fragments were traced with amplification by orthologous gene-specific primers, we suggest they be termed Traced Orthologous Amplified Sequence Tags (TOASTs). Received: 22 December 1997 / Accepted: 16 March 1998     

Designing primers from multiple sequences using matchup program to improve detection of hepatitis B virus by polymerase chain reaction

Traditionally primers for PCR detection of viruses have been selected from genomic sequence of single or representative viral strain. However, high mutation rate of viral genomes often results in failure in detecting viruses in clinical and environmental samples. Thus, it seems necessary to consider primers designed from multiple viral sequences in order to improve detection of viral variants. Matchup is a program intended to select universal primers from multiple sequences. We designed using Matchup program primer pairs for HBV detection from 691 full genomic HBV DNA sequences available from NCBI GenBank database. Thousands of primer candidates were initially extracted and these were sequentially filtered down to 5 primer pairs. These primer pairs were tested by PCR using 5 HBV Korean HBsAg(+) patient sera, and eventually one universal primer pair was selected and named MUW (multiple-universal-worldwide). This primer pair, 3 HBV reference primer pairs reported by others and 1 commercial primer pair were compared using 86 HBV HBsAg(+) sera from Korean and Vietnamese patients. The detection rate for MUW primer pair was 72.1%, much greater than those obtained by reference and commercial primers (32.5 to 40.7%). The superiority of MUW primer pair appeared to be correlated with the conserved sequences of the forward primer binding sites and primer quality score. These results suggest that the universal primers designed by the Matchup program from multiple sequences could be useful in detecting viruses from clinical samples.     

PCR-Based Approach for Sequencing Mitochondrial Genomes of Decapod Crustaceans,with a Practical Example from Kuruma Prawn (<Emphasis Type="Italic">Marsupenaeus japonicus</Emphasis>)

An approach for sequencing the entire mitochondrial genomes (mitogenomes) of decapod crustaceans using 79 newly designed and 7 published polymerase chain reaction (PCR) primers is described. The approach comprises the following steps: (1) the entire mitogenome is amplified in 2 or 3 long PCRs; (2) the 86 primers are used in different combinations to amplify contiguous, overlapping short segments of the entire mitogenome with the diluted long PCR products as templates; (3) direct cycle sequencing is conducted using the short PCR products. This strategy allows a more rapid determination of decapod mitogenomic sequences than a traditional method using cloned mitochondrial DNA and primer walking strategy. As a practical example, the mitogenomic sequence for a kuruma prawn Marsupenaeus japonicus (Crustacea: Decapoda), was determined using the PCR-based approach.     

Amplification and sequencing of variable regions in bacterial 23S ribosomal RNA genes with conserved primer sequences

Published bacterial 23S ribosomal RNA sequences were aligned, and universally conserved regions flanking highly variable regions were looked for. In strategically positioned conserved regions, six oligonucleotides suitable for polymerase chain reaction (PCR) and sequencing were designed, allowing fast sequencing of four of the most variable 23S rRNA regions. Two other primers were designed for PCR amplification of nearly complete 23S rRNA genes. All these primers successfully amplified fragments of 23S rRNA genes from seven unrelated bacteria. Four primers were used to determine 938 bp of sequence forCampylobacter jejuni subsp.jejuni. These results indicate that the oligonucleotide sequences presented here are useful for PCR amplification and sequence determination of variable 23S rRNA regions for a broad variety of eubacterial species.     

Fast and reliable sexing of prosimian and human DNA

Molecular sexing of mammals is normally done by PCR amplification of Y chromosomal fragments, or coamplification of homologous fragments from both sex chromosomes. Existing primers are often unreliable for distantly related species due to mutations in primer regions. Currently there are no published primers for the sexing of prosimian DNA. We show that an existing method (using the zinc finger protein) based on a size difference between the X and Y homologs does not work in prosimians. Multiple alignments of distantly related mammalian species from Genbank and genome databases enabled us to identify conserved regions in the amelogenin gene. Using these conserved regions, we can target species that have no sequence information. We designed a single, conserved primer pair that is useful for fast and reliable molecular sexing of prosimian primates. A single PCR yields two fragments in males and only one in females, which are easily separated with the use of agarose gels. Amplification of separable fragments was successful in seven species of lemurs, as well as humans.     

Fifteen novel universal primer pairs for sequencing whole chloroplast genomes and a primer pair for nuclear ribosomal DNAs

Chloroplast genome information helps improve the phylogenetic resolution and can act as organelle-scale barcodes in recently radiated plant groups. Previously we reported that nine universal primer pairs could amplify angiosperm whole chloroplast genomes by long-range polymerase chain reaction and using next-generation sequencing. Although these primers show high universality and efficiency for sequencing whole chloroplast genomes in angiosperms, they did not fully resolve the following two issues surrounding sequencing angiosperm chloroplast genomes: (i) approximately 30% of angiosperms cannot be amplified successfully; and (ii) only fresh leaves can be applied. In this study, we designed another set of 15 universal primer pairs for amplifying angiosperm whole chloroplast genomes to complement the original nine primer pairs. Furthermore, we designed a primer pair for nuclear ribosomal DNAs (nrDNAs). To validate the functionality of the primers, we tested 44 species with silica gel-dried leaves and 15 species with fresh leaves that have been shown to not be amplified with the original nine primer pairs. The result showed that, in 65.9% and 88.6% of the 44 species with silica gel-dried leaves, the whole chloroplast genome and nrDNAs could be amplified, respectively. In addition, all 15 fresh leaf samples could have the whole chloroplast genome successfully amplified. The nrDNAs comprise partial sequences of 18S and 26S, along with the complete sequence of 5.8S and the internal transcribed spacers ITS1 and ITS2. The mean size of nrDNA was 5800 bp. This study shows that the 15 universal primer set is an indispensable tool for amplifying whole chloroplast genomes in angiosperms, and these are an important supplement to the nine reported primer pairs.     

Conserved PCR primer set designing for closely-related species to complete mitochondrial genome sequencing using a sliding window-based PSO algorithm

Background

Complete mitochondrial (mt) genome sequencing is becoming increasingly common for phylogenetic reconstruction and as a model for genome evolution. For long template sequencing, i.e., like the entire mtDNA, it is essential to design primers for Polymerase Chain Reaction (PCR) amplicons which are partly overlapping each other. The presented chromosome walking strategy provides the overlapping design to solve the problem for unreliable sequencing data at the 5′ end and provides the effective sequencing. However, current algorithms and tools are mostly focused on the primer design for a local region in the genomic sequence. Accordingly, it is still challenging to provide the primer sets for the entire mtDNA.

Methodology/Principal Findings

The purpose of this study is to develop an integrated primer design algorithm for entire mt genome in general, and for the common primer sets for closely-related species in particular. We introduce ClustalW to generate the multiple sequence alignment needed to find the conserved sequences in closely-related species. These conserved sequences are suitable for designing the common primers for the entire mtDNA. Using a heuristic algorithm particle swarm optimization (PSO), all the designed primers were computationally validated to fit the common primer design constraints, such as the melting temperature, primer length and GC content, PCR product length, secondary structure, specificity, and terminal limitation. The overlap requirement for PCR amplicons in the entire mtDNA is satisfied by defining the overlapping region with the sliding window technology. Finally, primer sets were designed within the overlapping region. The primer sets for the entire mtDNA sequences were successfully demonstrated in the example of two closely-related fish species. The pseudo code for the primer design algorithm is provided.

Conclusions/Significance

In conclusion, it can be said that our proposed sliding window-based PSO algorithm provides the necessary primer sets for the entire mt genome amplification and sequencing.     

Single nucleotide polymorphism (SNP) discovery in mammals: a targeted-gene approach

Single nucleotide polymorphisms (SNPs) have rarely been exploited in nonhuman and nonmodel organism genetic studies. This is due partly to difficulties in finding SNPs in species where little DNA sequence data exist, as well as to a lack of robust and inexpensive genotyping methods. We have explored one SNP discovery method for molecular ecology, evolution, and conservation studies to evaluate the method and its limitations for population genetics in mammals. We made use of 'CATS' (or 'EPIC') primers to screen for novel SNPs in mammals. Most of these primer sets were designed from primates and/or rodents, for amplifying intron regions from conserved genes. We have screened 202 loci in 16 representatives of the major mammalian clades. Polymerase chain reaction (PCR) success correlated with phylogenetic distance from the human and mouse sequences used to design most primers; for example, specific PCR products from primates and the mouse amplified the most consistently and the marsupial and armadillo amplifications were least successful. Approximately 24% (opossum) to 65% (chimpanzee) of primers produced usable PCR product(s) in the mammals tested. Products produced generally high but variable levels of readable sequence and similarity to the expected genes. In a preliminary screen of chimpanzee DNA, 12 SNPs were identified from six (of 11) sequenced regions, yielding a SNP on average every 400 base pairs (bp). Given the progress in genome sequencing, and the large numbers of CATS-like primers published to date, this approach may yield sufficient SNPs per species for population and conservation genetic studies in nonmodel mammals and other organisms.     

A comparative genomics strategy for targeted discovery of single-nucleotide polymorphisms and conserved-noncoding sequences in orphan crops

Completed genome sequences provide templates for the design of genome analysis tools in orphan species lacking sequence information. To demonstrate this principle, we designed 384 PCR primer pairs to conserved exonic regions flanking introns, using Sorghum/Pennisetum expressed sequence tag alignments to the Oryza genome. Conserved-intron scanning primers (CISPs) amplified single-copy loci at 37% to 80% success rates in taxa that sample much of the approximately 50-million years of Poaceae divergence. While the conserved nature of exons fostered cross-taxon amplification, the lesser evolutionary constraints on introns enhanced single-nucleotide polymorphism detection. For example, in eight rice (Oryza sativa) genotypes, polymorphism averaged 12.1 per kb in introns but only 3.6 per kb in exons. Curiously, among 124 CISPs evaluated across Oryza, Sorghum, Pennisetum, Cynodon, Eragrostis, Zea, Triticum, and Hordeum, 23 (18.5%) seemed to be subject to rigid intron size constraints that were independent of per-nucleotide DNA sequence variation. Furthermore, we identified 487 conserved-noncoding sequence motifs in 129 CISP loci. A large CISP set (6,062 primer pairs, amplifying introns from 1,676 genes) designed using an automated pipeline showed generally higher abundance in recombinogenic than in nonrecombinogenic regions of the rice genome, thus providing relatively even distribution along genetic maps. CISPs are an effective means to explore poorly characterized genomes for both DNA polymorphism and noncoding sequence conservation on a genome-wide or candidate gene basis, and also provide anchor points for comparative genomics across a diverse range of species.