DNA identification of gut contents of large pelagic fishes

Partially digested prey items taken from the gut contents of seven species of large pelagic fishes were identified by DNA sequencing of part of the cytochrome b gene. Sequences matched against those of five pelagic prey species held in GenBank® with 99–100% identities. The method is applicable to most gut content identifications, the only limiting factor being the range of control species sequences held in the reference database.     

Establishment of a mitochondrial DNA sequence database for the identification of fish species commercially available in South Africa

The limitations intrinsic to morphology-based identification systems have created an urgent need for reliable genetic methods that enable the unequivocal recognition of fish species, particularly those that are prone to overexploitation and/or market substitution. The aim of this study was to develop a comprehensive reference library of DNA sequence data to allow the explicit identification of 53 commercially available fish species in South Africa, most of which were locally caught marine species. Sequences of approximately 655 base pairs were generated for all species from the cytochrome c oxidase I (COI) gene, the region widely adopted for DNA barcoding. Specimens of the genus Thunnus were examined in further detail, employing additional mitochondrial DNA control region sequencing. Cumulative analysis of the sequences from the COI region revealed mean conspecific, congeneric and confamilial Kimura 2-parameter distances of 0.10%, 4.58% and 15.43%, respectively. The results showed that the vast majority (98%) of fish species examined could be readily differentiated by their COI barcodes, but that supplementary control region sequencing was more useful for the discrimination of three Thunnus species. Additionally, the analysis of COI data raised the prospect that Thyrsites atun (snoek) could constitute a species pair. The present study has established the necessary genetic information to permit the unambiguous identification of 53 commonly marketed fish species in South Africa, the applications of which hold a plethora of benefits relating to ecology research, fisheries management and control of commercial practices.     

Diatom assemblages in tsunami deposits associated with the 2004 Indian Ocean tsunami at Phra Thong Island, Thailand

Diatom assemblages in sandy deposits of the 2004 tsunami at Phra Thong Island, Thailand may provide clues to flow conditions during the tsunami. The tsunami deposits contain one or more beds that fine upward, commonly from medium sand to silty very fine sand. Diatom assemblages of the lowermost portion of the deposit predominantly comprise unbroken beach and subtidal species that live attached to sand grains. The dominant taxa shift to marine plankton species in the middle of the bed and to a mix of freshwater, brackish, and marine species near the top. These trends are consistent with expected changes in current velocities of tsunami through time. During high current velocities, medium sand is deposited; only beach and subtidal benthic diatoms attached to sediment can be incorporated into the tsunami deposit. High shear velocity keeps finer material, including planktonic diatoms in suspension. With decreasing current velocities, finer material including marine plankton can be deposited. Finally, during the lull between tsunami waves, the entrained freshwater, brackish, and marine species settle out with mud and plant trash. Low numbers of broken diatoms in the lower medium sand implies rapid entrainment and deposition, whilst selective breakage of marine plankton (Thalassionema nitzschioides, and Thalassiosira and Coscinodiscus spp.) in the middle portion of the deposit probably results from abrasion in the turbulent current before deposition.     

Species identification of aphids (Insecta: Hemiptera: Aphididae) through DNA barcodes

A 658-bp fragment of mitochondrial DNA from the 5' region of the mitochondrial cytochrome c oxidase 1 (COI) gene has been adopted as the standard DNA barcode region for animal life. In this study, we test its effectiveness in the discrimination of over 300 species of aphids from more than 130 genera. Most (96%) species were well differentiated, and sequence variation within species was low, averaging just 0.2%. Despite the complex life cycles and parthenogenetic reproduction of aphids, DNA barcodes are an effective tool for identification.     

A reliable DNA barcode reference library for the identification of the North European shelf fish fauna

Valid fish species identification is an essential step both for fundamental science and fisheries management. The traditional identification is mainly based on external morphological diagnostic characters, leading to inconsistent results in many cases. Here, we provide a sequence reference library based on mitochondrial cytochrome c oxidase subunit I (COI) for a valid identification of 93 North Atlantic fish species originating from the North Sea and adjacent waters, including many commercially exploited species. Neighbour‐joining analysis based on K2P genetic distances formed nonoverlapping clusters for all species with a ≥99% bootstrap support each. Identification was successful for 100% of the species as the minimum genetic distance to the nearest neighbour always exceeded the maximum intraspecific distance. A barcoding gap was apparent for the whole data set. Within‐species distances ranged from 0 to 2.35%, while interspecific distances varied between 3.15 and 28.09%. Distances between congeners were on average 51‐fold higher than those within species. The validation of the sequence library by applying BOLDs barcode index number (BIN) analysis tool and a ranking system demonstrated high taxonomic reliability of the DNA barcodes for 85% of the investigated fish species. Thus, the sequence library presented here can be confidently used as a benchmark for identification of at least two‐thirds of the typical fish species recorded for the North Sea.     

Brief communication: identification of the authentic ancient DNA sequence in a human bone contaminated with modern DNA

We present a method to distinguish authentic ancient DNA from contaminating DNA in a human bone. This is achieved by taking account of the spatial distribution of the various sequence families within the bone and the extent of degradation of the template DNAs, as revealed by the error content of the sequences. To demonstrate the veracity of the method, we handled two ancient human tibiae in order to contaminate them with modern DNA, and then subjected segments of the bones to various decontaminating treatments, including removal of the outer 1-2 mm, before extracting DNA, cloning, and obtaining a total of 107 mitochondrial DNA sequences. Sequences resulting from the deliberate contamination were located exclusively in the outer 1-2 mm of the bones, and only one of these 27 sequences contained an error that could be ascribed to DNA degradation. A second, much smaller set of relatively error-free sequences, which we ascribe to contamination during excavation or curation, was also located exclusively in the outer 1-2 mm. In contrast, a family of 72 sequences, displaying extensive degradation products but identifiable as haplogroup U5a1a, was distributed throughout one of the bones and represents the authentic ancient DNA content of this specimen.     

DNA barcoding for the identification of smoked fish products

DNA barcoding was applied to the identification of smoked products from fish in 10 families in four orders and allowed identification to the species level, even among closely related species in the same genus. Barcoding is likely to become a standard tool for identification of fish specimens and products.     

Evaluating the utility of cox1 for cetacean species identification

The mitochondrial cytochrome c oxidase I (cox1) gene has been promoted as a universal reference gene, or barcode, to identify organisms to the species level. We evaluated whether cox1 would be appropriate to diagnose cetacean species. The 5′ end of cox1 (686 base pairs, bp) was sequenced for 46 of 86 recognized species of cetaceans. In addition, we included 105 sequences from GenBank, increasing our taxonomic coverage to 61 species. Particular focus was placed on sampling two subfamilies that contain closely related taxa: the Delphininae and the Globicephalinae. Species‐specific sequences were observed for all but three taxa (Delphinus delphis, D. capensis, and Stenella coeruleoalba). Although correct assignment was seen for most species, significant overlap between intra‐ and interspecific variation makes cox1 an imperfect barcode for cetaceans. The efficacy of cox1 was compared to the 5′ end of the cytochrome b (cytb) gene, a mitochondrial region routinely used for cetacean species identification. Although cytb performed better than cox1 for some species, this marker could not differentiate other closely related taxa (Eubalaena spp.). Species identification for taxa not reliably identified using cox1 or cytb might be best addressed through use of multiple mitochondrial DNA fragments or other newly developed markers.     

DNA条形码技术在毒品原植物大麻鉴定中的应用

准确鉴定毒品原植物大麻的种属及品种具有重要的理论和实践意义。为了探讨DNA条形码技术用于毒品原植物大麻种属鉴定及品种鉴定的可行性,该研究以60份大麻原植物(分别采自内蒙、黑龙江、陕西延安、陕西榆林4个地区的栽培大麻雌雄各6株及新疆玛纳斯地区的野生大麻雌雄各6株)为材料,通过从其叶片中提取的DNA为模版,利用核糖体DNA基因间隔区的通用引物ITS2和叶绿体DNA的通用引物psbAtrnH进行PCR扩增,对扩增片段进行双向测序,将测序结果进行人工矫正和比对。结果显示:所有大麻样本的ITS2扩增片段序列没有变异完全一致,但psbA-trnH扩增片段变异较大共检测出8种cpDNA单倍型,用MEGE5.1软件计算种间遗传距离,并构建NJ系统聚类树可以有效把这五个地区的大麻样本区别开来,因此证明DNA条形码技术在毒品原植物大麻的种属鉴定方面具有可行性,但其用于大麻的种属鉴定的准确性、可靠性及在其来源地鉴定及品种鉴定中的可能性还有待进一步深入地研究。     

Assessment of the DNA barcoding for identification of Trigonostigma somphongsi,a critically endangered species in Thailand

Trigonostigma somphongsi, a critically endangered species, is a rare and endemic fish in Thailand. This species had disappeared from its natural habitat for 20 years until 2006. The DNA barcodes or the fragments of cytochrome c oxidase I (COI) of T. somphongsi were investigated for species identification. The remaining two native species in the genus Trigonostigma, T. heteromorpha and T. espei were also identified using Boraras urophthalmoides as an outgroup species. The 707-bp fragments were successfully amplified and sequenced in all fifteen fish samples. In the genus Trigonostigma, the genetic distance within and between species ranged from 0.000 to 0.005 and 0.016 to 0.039, respectively. The lowest genetic distance (0.016) was between T. heteromorpha and T. espei, while the highest genetic distance (0.039) was between T. somphongsi and T. espei, followed by T. somphongsi and T. heteromorpha (0.035). The phylogenetic analysis showed that the relationship between the three Trigonostigma species (T. somphongsi was clearly separated from T. heteromorpha and T. espei) agreed with the morphological characteristics. These results suggest that DNA barcoding is an effective approach to identify Trigonostigma species for use in the conservation and management of fisheries.     

Species identification of Chilean Artemia populations based on mitochondrial DNA RFLP analysis

Aim Two species of the brine shrimp, namely Artemia franciscana Kellogg and A. persimilis Piccinelli and Prosdocimi, inhabit Chile. Most studies so far have shown that A. franciscana is the most widely distributed species in Chile, with A. persimilis present only in Chilean Patagonia. In general, there is good agreement between morphological and genetic comparisons of Chilean populations with respect to species discrimination. However, a number of results indicate an overlap with some populations tending to diverge from A. franciscana and/or resembling A. persimilis. Prior to the mid 90's the use of DNA markers in Artemia was rather limited, despite their successful application in numerous other species. In this study, we investigate whether the conclusions drawn from traditional comparative tools are congruent with the pattern of genetic divergence depicted by DNA analysis at the mitochondrial level. Location Eight sites in Chile and two reference samples of A. franciscana and A. persimilis from San Francisco Bay (USA) and Buenos Aires (Argentina), respectively. Methods Restriction fragment length polymorphism (RFLP) analysis of a 535 bp segment of the mitochondrial 16S rRNA gene with nine restriction enzymes in 240 individuals. Results No haplotype was shared between the two species. Five restriction enzymes produced species‐specific patterns, enabling the unambiguous assignment of populations to species. Very high (100%) bootstrap values supported the clustering of haplotypes in two groups corresponding to the two species. The two species were clearly differentiated with average sequence divergence of 12.3%. High genetic differentiation was also found among con‐specific populations of A. franciscana with an F_ST estimate of 91%. Main conclusions The mitochondrial DNA (mtDNA) results of this study show a broadly similar pattern to those of previous allozyme and nuclear DNA analyses, with the two New World species appearing as highly divergent. The presence of A. persimilis in southern Chile (Chilean Patagonia) was confirmed. Hence, a species previously regarded as geographically restricted mainly to Argentina, appears to have expanded its range. Populations of A. franciscana appear highly structured with a level of inter‐population genetic differentiation much higher for mtDNA than previously reported with allozymes. Clustering of these populations does not follow a clear geographic pattern. The identification of population‐specific genetic markers for A. persimilis and A. franciscana will help to tackle further aspects of the speciation patterns of these species.     

DNA barcoding highlights a cryptic species of grenadier Macrourus in the Southern Ocean

Although three species of the genus Macrourus are recognized in the Southern Ocean, DNA sequencing of the mitochondrial COI gene revealed four well-supported clades. These barcode data suggest the presence of an undescribed species, a conclusion supported by meristic and morphometric examination of specimens.     

Individual and sexual identification for the wild black muntjac (Muntiacus crinifrons) based on fecal DNA

The black muntjac (Muntiacus crinifrons), endemic to China, was categorized as a Grade I National Key Protected Animal by the Ministry of Agriculture of China and classified as Vulnerable (VU) by IUCN. Recent years, studies had been conducted on this species mainly focusing on habitat selection, food habit, gene flow etc., only with a few reports on the population dynamics. Individual identification of wild animals is one of the most important subjects in the population dynamic research. Of various molecular markers, microsatellite DNA fingerprinting has been used most frequently and successfully on many kinds of animals. Here, we constructed identification system for the black muntjac using 8 microsatellite loci. 31 black muntjacs were identified from 141 fecal samples, whereas 43 samples could be used for PCR after repeated trials. Further, the sequencing for Cytb gene was also conducted for convincing us the identity of fecal samples. The results, highly consistent between sequencing consequence and sequence data from Genebank, implied that those experienced local people are of the convincing knowledge about wild animals, especially at the respects of identification to black muntjac’ feces pellets. Moreover, we detected the specificity of identification system to black muntjac. BM1225 was the only one locus that unsuccessful PCR for the muscle samples of Muntiacus reevesi was observed, which suggested that our identification system could be used for excluding the non-researched objects in some cases. Analyses using softwares CERVUS 3.0 and POPGENE 1.21 showed that the present identification system had strong discrimination power: 0.938 per loci (DP) or 0.999 in total (CDP). The mean observed number of alleles (Na), mean effective number of alleles (Ne), and mean excepted heterogosity (He) were 8.875, 6.375, and 0.829 respectively. Considering that the change of sex ratio in population could exert significant impact on population growth, density to some extent, we also analyzed the sex ratio of those individuals that had been identified based on fecal samples from filed using SRY (Sex-determining region Y) gene amplification, which identified 19 males and 12 females.     

Highly efficient identification of thousands of microsatellite loci in the pearl oyster (Pinctada martensii) from RNA-Seq

High-throughput RNA-Seq affords a cost and time effective means of obtaining large numbers of genetic markers for aquatic genomics. Here, we present thousands of novel microsatellite loci developed for the pearl oyster, Pinctada martensii from the Illumina HiSeq™ 2000 library of the pearl sac. Free user-friendly bioinformatics tools were employed to screen for microsatellite loci and design appropriate primers in 102,762 unigenes with 7216 microsatellite loci identified in total, 4862 of which had flanking sequences suitable for polymerase chain reaction primer design. The 50 randomly chosen primer pairs were tested in two populations of pearl oyster (base population (POP1) and selected population (POP2), with 30 individuals of each population). All the primer pairs were amplified successfully in two populations. All loci were polymorphic in POP1, while there were 3 loci showing monomorphism in POP2. In POP1 and POP2, observed heterozygosity from 0.033 to 1.000 and 0.000 to 1.000, 19 and 16 microsatellite loci deviated significantly from Hardy–Weinberg expectations including a Bonferroni correction (P < 0.001). Thirteen loci were highly informative content (PIC ≥ 0.5) in both populations. These identified loci will be useful for potential application for evolutionary, population genetic and chromosome linkage mapping research on pearl oyster.     

DNA mini‐barcoding of leporids using noninvasive fecal DNA samples and its significance for monitoring an invasive species

Introduced in South America at the end of the 19th century, the European hare population has expanded dramatically and now represents a risk to native Brazilian forest rabbits. Monitoring the invasive Lepus europaeus and its coexistence with native Sylvilagus brasiliensis is a challenge that can be efficiently addressed by the use of molecular tools. This work describes a set of primers useful for amplifying three mini‐barcodes for the molecular identification of both invasive and native leporid species using degraded fecal DNA. In addition, tests in silico indicate that these mini‐barcodes can successfully amplify the DNA sequences of a number of leporids. These mini‐barcodes constitute a powerful tool for the monitoring and management of the invasive L. europaeus and the conservation of native rabbits.     

mtDNA中COⅠ分子标记在常见食尸性蝇类鉴定中的应用

死后不同时间,在尸体上出现不同种类食尸性蝇类的演替规律,可用于准确推断死亡时间。传统上仅依据蝇类形态学特征来判断种属,但由于蝇类的形态结构复杂和种间形态差异微小等特点,对蝇类尤其是对蝇类幼虫的种属鉴别很难。因此应用分子生物学方法对食尸性蝇类及其幼虫进行种属鉴定非常重要。本研究主要是利用此方法对我国西部部分地区常见双翅目食尸性蝇类包括：开普黑蝇、大头金蝇、丝光绿蝇及部分卵,铜绿蝇、棕尾别麻蝇及部分幼虫和蛹的线粒体DNA(mtDNA)上细胞色素氧化酶辅酶Ⅰ(COⅠ)中278 bp的基因序列进行鉴别。除个别蝇类如丝光绿蝇与铜绿蝇外,该方法均能有效地将上述食尸性蝇类鉴定到种属水平。在我国,它将成为法医鉴别食尸性蝇类种属的可靠依据。     

悬钩子属DNA条形码通用序列的初步筛选

为了建立悬钩子属（Rubus）植物的DNA条形码分子鉴定技术,筛选获得适用于悬钩子属植物的通用条形码序列。该研究基于GenBank数据对ITS、ITS2、matK、rbcL、trnH-psbA、trnL-trnF 6个DNA条形码序列进行了遗传变异、barcoding gap、建树等评估分析。结果显示,trnH-psbA、matK、rbcL、rtnL-trnF的种内变异与种间变异差异较大,变异分辨率分别为97.32%、83.33%、79.07%、64.95%,存在较大的barcoding gap;NJ一致树分析显示,matK的单系性比例最高（67%）,其次为trnH-psbA（64%）,rtnL-trnF（43%）,rbcL（30%）。结果表明,悬钩子属植物的matK与trnH-psbA序列种内变异与种间变异差异较大,能较好地区分不同物种,具有较大的鉴定潜力。建议将matK和trnH-psbA作为悬钩子属植物鉴定的核心条形码序列,rtnL-trnF、rbcL作为辅助条形码序列。     

Testing the potential of proposed DNA barcodes for species identification of Zingiberaceae

In 2009, the Consortium for the Barcode of Life (CBOL) recommended the combination of rbcL and matK as the plant barcode based on assessments of recoverability, sequencing quality, and levels of species discrimination. Subsequently, based on a study of more than 6600 samples belonging to 193 families from seven phyla, the internal transcribed spacer (ITS) 2 locus was proposed as a universal barcode sequence for all major plant taxa used in traditional herbal medicine. Neither of these two studies was based on a detailed analysis of a particular family. Here, Zingiberaceae plants, including many closely related species, were used to compare the genetic divergence and species identification efficiency of ITS2, rbcL, matK, psbK-psbI, trnH-psbA, and rpoB.The results indicate that ITS2 has the highest interspecific divergence and significant differences between inter- and intraspecific divergence, whereas matK and rbcL have much lower divergence values. Among 260 species belongingto 30 genera in Zingiberaceae, the discrimination ability of the ITS2 locus was 99.5% at the genus level and 73.1% at the species level. Thus, we propose that ITS2 is the preferred DNA barcode sequence for identifying Zingiberaceae plants.     

A new DNA profiling system for cell line identification for use in cell banks in Japan

Summary Using the polymorphic DNA probes, ChdTC-15, ChdTC-114, pYNH24, and λTM-18, a DNA profiling system was developed that verified identities of individual cultured cell lines collected in the Japanese cell banks, JCRB, RCB, and IFO. These highly polymorphic DNA probes include both VNTR (Variable Number of Tandem Repeats) sequences and substantial lengths of unique regions. In the mixed probe system, several distinct bands from four to eight can be used for cell line identification. These bands were widely spread in a range of molecular sizes, and were stable and reproducible under stringent conditions of Southern blot hybridization. Because the DNA profile was specific for each individual human cell line, it is useful not only to authenticate many existing cultured cell lines but also to monitor their identity during propagation in a laboratory, and to confirm newly established lines as unique.