A novel multiplex PCR assay for the identification of Indian crocodiles

Illegal hunting has been a major threat for the survival of wildlife fauna, including the three crocodile species that India harbours: Crocodylus palustris, Crocodylus porosus and Gavialis gangeticus. Although law prevents trade on these species, illicit hunting for trade continues to threaten the survival of these endangered species; conservation strategies therefore require a rapid molecular identification technique for Indian crocodiles. A multiplex polymerase chain reaction (PCR) assay with species-specific primers, considered as one of the most effective molecular techniques, is described herein. The primers were designed to yield species-specific sized amplicons. The assay discriminates the three Indian crocodile species unambiguously within a short time period using only simple agarose gel electrophoresis. We recommend this multiplex PCR assay to be used in the identification of Indian crocodile species.     

尼罗鳄线粒体基因组全序列分析及鳄类系统发生关系的探讨

大多数脊椎动物的线粒体基因组（约16—18kb）的组成是相对较稳定的,但在不同类群中,线粒体基因组在基因结构和基因排列方式等方面均显示了极大的多样性,这种多样性可能反映了真核细胞不同的进化路线（Saccone et al．,1999）。就目前的研究而言,线粒体基因组是惟一一个能够从基因组水平上来分析动物系统发生的分子标记,可以从线粒体基因组序列信息、基因组成及基因排列方式等进行多方位的分子进化研究,因而线粒体基因组全序列将成为动物分子系统发生最有力的证据（Saccone et al．,1999）。     

New haplotype of the complete mitochondrial genome of <Emphasis Type="Italic">Crocodylus siamensis</Emphasis> and its species-specific DNA markers: distinguishing <Emphasis Type="Italic">C. siamensis</Emphasis> from <Emphasis Type="Italic">C. porosus</Emphasis> in Thailand

Based on molecular phylogeny of available complete mitochondrial DNA (mtDNA) genome sequences reveals that Crocodylus siamensis and C. porosus are closely related species. Yet, the sequence divergence of their mtDNA showed only a few values under conspecific level. In this study, a new haplotype (haplotype2, EF581859) of the complete mtDNA genome of Siamese crocodile (C. siamensis) was determined. The genome organization, which appeared to be highly similar to haplotype1 (DQ353946) mtDNA genome of C. siamensis, was 16,814 bp in length. However, the sequence divergence between the two genomes differed by around 7–10 and 0.7–2.1% for the haplotype1 between C. siamensis and C. porosus (AJ810453). These results were consistent with the phylogenetic relationship among the three genomes, suggesting that C. siamensis haplotype1 mtDNA genome might be the hybrid or the intraspecific variation of C. porosus. On the other hand, our specimen was found to be a true C. siamensis. Simultaneously, the seven species-specific DNA markers designed based on the distinctive site between haplotype2 mtDNA sequences of C. siamensis and haplotype1 mtDNA sequence of C. siamensis–C. porosus were successfully used to distinguish C. siamensis from C. porosus. These effective markers could be used primarily for rapid and accurate species identification in population, ecology and conservation studies.     

Cross-species amplification of microsatellites in crocodilians: assessment and applications for the future

Microsatellite DNA loci have emerged as the dominant genetic tool for addressing questions associated with genetic diversity in many wildlife species, including crocodilians. Despite their usefulness, their isolation and development can be costly, as well as labour intensive, limiting their wider use in many crocodilian species. In this study, we investigate the cross-species amplification success of 82 existing microsatellites previously isolated for the saltwater crocodile (Crocodylus porosus) in 18 non-target crocodilian species; Alligator sinensis, Caiman crocodylus, Caiman latirostris, Caiman yacare, Melanosuchus niger, Paleosuchus palpebrosus, Crocodylus acutus, Mecistops cataphractus, Crocodylus intermedius, Crocodylus johnstoni, Crocodylus mindorensis, Crocodylus moreletii, Crocodylus niloticus, Crocodylus novaeguineae, Crocodylus palustis, Crocodylus rhombifer, Crocodylus siamensis, and Osteolaemus tetraspis. Our results show a high level of microsatellites cross-amplification making available polymorphic markers for a range of crocodilian species previously lacking informative genetic markers.     

Novel universal primers establish identity of an enormous number of animal species for forensic application

This study describes a polymerase chain reaction (PCR)‐based approach, which without knowing the history of a forensic sample, is able to reveal whether the source of the sample is human or animal, and, if animal, which of the 221 animal species included in the study, simply by using one set of novel primers to amplify and sequence the PCR amplicons. The primers described in this study universally amplify a specific segment of mitochondrial cytochrome b sequence from a sample of unknown origin and delineate its identity to the level of family, genus and species. Because these primers are universal, this approach can be applied to an enormous number of other species, which are not included in the study, and could be an ultimate solution for the identification of species for forensic application.     

Molecular identification of dolphinfish species (genus Coryphaena) using multiplex haplotype-specific PCR of mitochondrial DNA

A rapid and reliable method of dolphinfish species identification was designed based on PCR amplification of diagnostic DNA fragments from the mitochondrial cytochrome b gene. It consisted in a tetraplex reaction producing a positive control amplicon and species-specific fragments in Coryphaena hippurus and C. equiselis. It was successfully tested in specimens of known identity and in nominal C. hippurus samples among which two C. equiselis were discovered. This approach has significant advantages over other molecular species identification methods and may help in determining species composition of mixed catches, and in forensic and food control applications of dolphinfish specimens or products.     

Multiplex PCR assay for rapid identification of three endangered snake species of India

Species identification has been the core issue in all approaches of conservation of endangered wild life. In this regard molecular techniques for species authentication have proved indispensable. A novel multiplex PCR assay for the identification of three Indian snake species Python morulus, Ptyas mucosus, and Naja naja is successfully demonstrated using 16S rRNA gene. Three reverse primers and a common forward primer were designed to generate three different size species-specific PCR fragments. Absence of any PCR amplification in non-target species proves the specificity of the primers. These four primers were combined in a multiplex assay to enable identification of three snake species in a single reaction. The assay described here shows its utility in identifying unknown snake specimen and in case of samples yielding low quality DNA. This multiplex PCR technique using novel primers is an unprecedented approach offered for forensic identification of exhibits originating from three Indian snake species. It is expected that this endeavor will help strengthening conservation efforts for these species.     

Cloning and sequencing of complete tau-crystallin cDNA from embryonic lens of Crocodylus palustris

τ-Crystallin is a taxon-specific structural protein found in eye lenses. We present here the cloning and sequencing of complete τ-crystallin cDNA from the embryonic lens ofCrocodylus palustris and establish it to be identical to the α-enolase gene from non-lenticular tissues. Quantitatively, the τ-crystallin was found to be the least abundant crystallin of the crocodilian embryonic lenses. Crocodile τ-crystallin cDNA was isolated by RT-PCR using primers designed from the only other reported sequence from duck and completed by 5′- and 3′-rapid amplification of cDNA ends (RACE) using crocodile gene specific primers designed in the study. The complete τ-crystallin cDNA of crocodile comprises 1305 bp long ORF and 92 and 409 bp long untranslated 5′- and 3′-ends respectively. Further, it was found to be identical to its putative counterpart enzyme α-enolase, from brain, heart and gonad, suggesting both to be the product of the same gene. The study thus provides the first report on cDNA sequence of τ-crystallin from a reptilian species and also re-confirms it to be an example of the phenomenon of gene sharing as was demonstrated earlier in the case of peking duck. Moreover, the gene lineage reconstruction analysis helps our understanding of the evolution of crocodilians and avian species.     

莪术基原植物DNA条形码序列的筛选与鉴定

为寻找适用于中药材莪术基原植物鉴定的DNA条形码序列,探索快速高效的莪术基原植物鉴定的新方法,该文首先利用扩增成功率和测序成功率对中药材莪术三种基原植物,9个样本的7种DNA条形码序列(ITS、ITS2、matK、psbA-trnH、trnL-trnF、rpoB和atpB-rbcL)进行评估,然后利用MEGA6.0软件对获得的高质量的序列通过变异位点分析、遗传距离计算和系统树分析等进一步进行评估,最后将筛选到的DNA条形码序列对未知基原的待测样品进行基原鉴定。结果表明:(1) ITS、ITS2和matK等条形码序列在莪术基原植物中的扩增或测序成功率较低,难以应用于实际鉴定;而psbA-trnH、trnL-trnF和rpoB条形码序列变异位点信息过少,不足于区分莪术的三种不同基原植物;只有atpB-rbcL条形码序列的扩增和测序成功率较高,容易获得高质量的序列,同时序列长度(642～645 bp)理想,变异位点多(11个),可实现莪术的三种不同基原的区分鉴别。(2)待测样品经基于atpB-rbcL序列构建的系统发育树鉴别为温郁金。综上所述,叶绿体atpB-rbcL序列能够准确鉴定莪术不同基原植物,可以作为中药材莪术基原植物鉴定的条形码序列。     

PCR with degenerate primers amplifies a subgenomic DNA fragment from the endoglucanase gene(s) of Torula thermophila, a thermophilic fungus

The aim of this study was to enable the polymerase chain reaction (PCR) amplification of DNA fragments within endoglucanase gene(s) of Torula thermophila, by using degenerate primers so that the amplified fragment(s) could be used as homologous probe(s) for cloning of full-length endoglucanase gene(s). The design of the degenerate PCR primers was mainly based on the endoglucanase sequences of other fungi. The endoglucanase gene sequence of Humicola insolens was the only sequence from a thermophilic fungus publicly available in the literature. Therefore, the endoglucanase sequences of the two Trichoderma species, Trichoderma reesei and Trichoderma longibrachiatum, were used to generalize the primers. PCR amplification of T. thermophila genomic DNA with these primers resilied in a specific amplification. The specificity of the amplified fragment was shown by Southern hybridization analysis using egl3 gene of T. reesei as probe. This result suggested that the degenerate primers used in this study may be of value for studies aimed at cloning of endoglucanase genes from a range of related fungi.     

穿山甲标本和甲片的DNA提取及PCR扩增

为验证经处理后的穿山甲(Manis spp.)标本和甲片是否可以用于种间分子鉴定标记的开发及个体识别工作,本文在样品的预处理、消化、提取后纯化等方面对传统提取方法进行了改进,分别从穿山甲剥制标本、干皮标本及甲片中提取总DNA;然后用Cyt b基因扩增通用引物、12S rRNA基因全序列扩增引物、RAPD引物及微卫星引物进行了PCR扩增,并对部分扩增结果进行了序列测定.结果表明,除剥制标本的脚底皮张组织外,其他样品基本都可以提取出DNA.以此为模板的PCR扩增中,2种线粒体基因引物扩增出明显目的条带,RAPD引物扩增出种间特异条带,测序结果可用于种间特异性引物及SCAR引物的开发;微卫星引物在甲片样品中扩增稳定,可用于个体识别工作.     

Use of a novel multiplex probe array for rapid identification of <Emphasis Type="Italic">Mycobacterium</Emphasis> species from clinical isolates

Conventional identification of mycobacteria is based on the analysis of their phenotypic and biochemical characteristics after culture; thus this method is time-consuming, laborious, and is not always conclusive. Developing a fast and accurate method for rapid identification of Mycobacterium species is in urgent need for early diagnosis of mycobacteriosis and effective patient management. In this study, an efficient and affordable novel multiplex probe array which allows simultaneous identification of 15 medically important mycobacterial species was developed. A pair of genus-specific primers and a set of genus- and species-specific probes were designed according to the conserved and polymorphic regions of the 16S rRNA gene, internal transcribed spacer (ITS) sequence, and 23S rRNA gene of mycobacteria. This probe array was applied for the identification of 78 clinical mycobacterial isolates recovered from Henan, China. The results showed that the specificity and sensitivity of the probe array were 100% for both genus-specific probe and Mycobacterium tuberculosis complex-specific probe. Among 52 isolates of nontuberculous mycobacteria, 43 isolates (82.7%) can be rapidly identified to the species level. Genetic variability of 16S-23S rRNA gene ITS region in M. avium, M. intracellulare, M. chelonae, M. abscessus and M. fortuitum were analyzed. With the accumulation of the sequences of ITS identified and further optimization of probes, the multiplex probe array has the potential to be developed into a practical tool for rapid and accurate identification of mycobacterial species in clinical laboratory.     

Escaping introns in COI through cDNA barcoding of mushrooms: Pleurotus as a test case

DNA barcoding involves the use of one or more short, standardized DNA fragments for the rapid identification of species. A 648‐bp segment near the 5′ terminus of the mitochondrial cytochrome c oxidase subunit I (COI) gene has been adopted as the universal DNA barcode for members of the animal kingdom, but its utility in mushrooms is complicated by the frequent occurrence of large introns. As a consequence, ITS has been adopted as the standard DNA barcode marker for mushrooms despite several shortcomings. This study employed newly designed primers coupled with cDNA analysis to examine COI sequence diversity in six species of Pleurotus and compared these results with those for ITS. The ability of the COI gene to discriminate six species of Pleurotus, the commonly cultivated oyster mushroom, was examined by analysis of cDNA. The amplification success, sequence variation within and among species, and the ability to design effective primers was tested. We compared ITS sequences to their COI cDNA counterparts for all isolates. ITS discriminated between all six species, but some sequence results were uninterpretable, because of length variation among ITS copies. By comparison, a complete COI sequences were recovered from all but three individuals of Pleurotus giganteus where only the 5′ region was obtained. The COI sequences permitted the resolution of all species when partial data was excluded for P. giganteus. Our results suggest that COI can be a useful barcode marker for mushrooms when cDNA analysis is adopted, permitting identifications in cases where ITS cannot be recovered or where it offers higher resolution when fresh tissue is. The suitability of this approach remains to be confirmed for other mushrooms.     

DNA fingerprinting of Pakistani buffalo breeds (Nili-Ravi, Kundi) using microsatellite and cytochrome b gene markers

Cytochrome b gene markers have been proved as an efficient and powerful tool for breed characterization and species identification of buffaloes. This study represents the substantial analysis of mitochondrial DNA variation in Pakistani buffalo breeds and provides information about their genetic diversity. In this study partial amplification of cytochrome b gene of 1,061 bp was done and sequencing results showed ten haplotypes. Comparing all fifty samples from two buffalo breeds of Pakistan, fifteen polymorphic sites were observed out of which, twelve codons 42, 71, 118, 120, 199, 235, 269, 297, 318, 327, 350, 355 of mitochondrial cytochrome b gene are monomorphic which translate same amino acids as in the reference protein sequence due to silent mutation while different in DNA sequence. Similarly three codons 163, 246, 337 of mitochondrial cytochrome b are polymorphic and different from the reference sequence with respect to DNA as well as protein sequence. For the further confirmation a panel of nine microsatellite markers was used with high polymorphism information content (PIC). The frequency distribution of these alleles varies from three to eight allele at locus CSSM66 and ILST029 respectively. The results obtained from this study may contribute to the establishment of routine genotyping service of buffalo breeds for buffalo farmers for animal forensic application in case of any dispute. Additionally this study may help for breed characterization and phylogeny of aforementioned breeds of buffalo.     

Barcoding bushmeat: molecular identification of Central African and South American harvested vertebrates

The creation and use of a globally available database of DNA sequences from a standardized gene region has been proposed as a tool for species identification, assessing genetic diversity and monitoring the legal and illegal trade in wildlife species. Here, we contribute to the Barcode of Life Data System and test whether a short region of the mitochondrial cytochrome c oxidase subunit 1 (COX1) gene would reliably distinguish among a suite of commonly hunted African and South American mammal and reptile species. We used universal primers to generate reference barcode sequences of 645 bp for 23 species from five vertebrate families (Crocodilidae, Alligatoridae, Bovidae, Suidae and Cercopithecidae). Primer cocktails yielded high quality barcode sequences for 179 out of 204 samples (87.7%) from all species included in the study. For most taxa, we sequenced multiple individuals to estimate intraspecific sequence variability and document fixed diagnostic characters for species identification. Polymorphism in the COX1 fragment was generally low (mean = 0.24%), while differences between congeneric species averaged 9.77%. Both fixed character differences and tree-based maximum likelihood distance methods unambiguously identified unknown and misidentified samples with a high degree of certainty. Barcode sequences also differentiated among newly identified lineages of African crocodiles and identified unusually high levels of genetic diversity in one species of African duiker. DNA barcoding offers promise as an effective tool for monitoring poaching and commercial trade in endangered species, especially when investigating semi-processed or morphologically indistinguishable wildlife products. We discuss additional benefits of barcoding to ecology and conservation.     

Phylogenetic Relationships Among Ten Sole Species (Soleidae,Pleuronectiformes) from the Gulf of Cádiz (Spain) Based on Mitochondrial DNA Sequences

The entire sequence of the mitochondrial cytochrome b gene and 2 partial sequences of the ribosomal RNA12S and 16S genes have been used to study the molecular phylogeny in 10 species of soles belonging to the genera Solea, Monochirus, Microchirus, Dicologlossa, and Synaptura from the Atlantic waters of the Gulf of Cádiz (Spain). The results obtained by means of different phylogenetic analyses (maximum likelihood, maximum parsimony, and neighbor-joining) were quite similar, supporting the monophyly of the Solea species. Nevertheless, they favor the differentiation of Dicologlossa cuneata and Dicologlossa hexophthalma in 2 distinct genera, since the most closely related species to the last one is Microchirus azevia. The fact that M. azevia is also more closely linked to Monochirus hispidus than to its congeneric Microchirus boscanion argues in favor of a taxonomic reorganization of these genera.     

False phylogenies on wood mice due to cryptic cytochrome-b pseudogene

The phylogeny and phylogeography of the Old World wood mice (subgenus Sylvaemus, genus Apodemus, Muridae) are well-documented. Nevertheless, the distributions of species, such as A. fulvipectus and A. ponticus remain dubious, as well as their phylogenetic relationships with A. sylvaticus. We analysed samples of Apodemus spp. across Europe using the mitochondrial cytochrome-b gene (cyt-b) and compared the DNA and amino-acid compositions of previously published sequences. The main result stemming from this study is the presence of a well-differentiated lineage of Sylvaemus including samples of various species (A. sylvaticus, A. fulvipectus, A. ponticus) from distant locations, which were revealed to be nuclear copies of the mitochondrial cyt-b. The presence of this cryptic pseudogene in published sequences is supported by different pathways. This has led to important errors in previous molecular trees and hence to partial misinterpretations in the phylogeny of Apodemus.     

Large subunit ribosomal RNA gene variation and sequence heterogeneity of Dinophysis (Dinophyceae) species from Scottish coastal waters

The purpose of the study was to investigate the genetic diversity of Dinophysis species from around the Scottish coast, with a view to an improved understanding of the dynamics and identification of this genus in Scottish waters. Single-cell PCR amplification with direct sequencing was performed on a total of 441 Dinophysis cells isolated from both live and Lugol's fixed plankton net samples. Universal eukaryotic primers were used to amplify the large subunit (LSU) ribosomal RNA (rRNA) gene of the Dinophysis isolates, with a frequency of PCR success of 26% for non-fixed and 48% for fixed samples. From this a total of 30 isolates were selected for this study and the D1–D2 region of the LSU-rRNA gene sequenced for phylogenetic analysis. No significant correlation could be made between geographical location and LSU sequence, although some regional sequence heterogeneity was observed within the Dinophysis acuta species. LSU sequence data was used to design Dinophysis genus specific and Dinophysis clade-specific primers primarily to ensure clean sequences from universal D1–D2 amplicons without a requirement for cloning. Three clade-specific primers designed to a region within the D2 hypervariable region of the LSU-rRNA gene allowed discrimination of Dinophysis acuminata/norvegica from Dinophysis tripos/caudata and Dinophysis fortii/acuta. In two isolates, SC359 (D. tripos) and LC58 (D. acuta), nested PCR products were observed with both the expected clade-specific primer, and Dasd-R2, the D. acuminata/norvegica clade-specific primer. Cloning and sequence analysis suggested that these amplicons were genuine “D. acuminata-like” sequences and their presence, albeit at a low frequency within different Dinophysis species, indicated that individual Dinophysis cells possess heterologous copies of the LSU-rRNA gene that are similar to LSU sequences normally associated with D. acuminata. The nature of the process that generated these hybrid cells, the frequency of such events and their importance is as yet unknown, but may provide a cautionary note for the development of PCR-based species specific detection methods.     

Dinoflagellate community analysis of a fish kill using denaturing gradient gel electrophoresis

A molecular method using the polymerase chain reaction (PCR) amplification of small subunit gene sequences (18S rDNA) and denaturing gradient gel electrophoresis (DGGE) was used to determine both the population complexity and species identification of organisms in harmful algal blooms. Eighteen laboratory cultures of dinoflagellates, including Akashiwo, Gymnodinium, Heterocapsa, Karenia, Karlodinium, Pfiesteria, and Pfiesteria-like species were analyzed using dinoflagellate-specific oligonucleotide primers and DGGE. The method is sensitive and able to determine the number of species in a sample, as well as the taxonomic identity of each species, and is particularly useful in detecting differences between species of the same genus, as well as differences between morphologically similar species. Using this method, each of eight Pfiesteria-like species was verified as being clonal isolates of Pfiesteria piscicida. The sensitivity of dinoflagellate DGGE is approximately 1000 cells/ml, which is 100-fold less sensitive than real-time PCR. However, the advantage of DGGE lies in its ability to analyze dinoflagellate community structure without needing to know what is there, while real-time PCR provides much higher sensitivity and detection levels, if probes exist for the species of interest, attributes that complement DGGE analysis. In a blinded test, dinoflagellate DGGE was used to analyze two environmental fish kill samples whose species composition had been previously determined by other analyses. DGGE correctly identified the dominant species in these samples as Karlodinium micrum and Heterocapsa rotundata, proving the efficacy of this method on environmental samples. Toxin analysis of a clonal isolate obtained from the fish kill samples confirmed the presence of KmTx2, corroborating the earlier genetic identification of toxic K. micrum in the fish kill water sample.     

The sequence of the isoepoxydon dehydrogenase gene of the patulin biosynthetic pathway in <Emphasis Type="Italic">Penicillium</Emphasis> species

Interest in species of the genus Penicillium is related to their ability to produce the mycotoxin patulin and to cause spoilage of fruit products worldwide. The sequence of the isoepoxydon dehydrogenase (idh) gene, a gene in the patulin biosynthetic pathway, was determined for 28 strains representing 12 different Penicillium species known to produce the mycotoxin patulin. Isolates of Penicillium carneum, Penicillium clavigerum, Penicillium concentricum, Penicillium coprobium, Penicillium dipodomyicola, Penicillium expansum, Penicillium gladioli, Penicillium glandicola, Penicillium griseofulvum, Penicillium paneum, Penicillium sclerotigenum and Penicillium vulpinum were compared. Primer pairs for DNA amplification and sequencing were designed from the P. griseofulvum idh gene (GenBank AF006680). The two introns present were removed from the nucleotide sequences, which were translated to produce the IDH sequences of the 12 species for comparison. Phylogenetic relationships among the species were determined from rDNA (ITS1, 5.8 S, ITS2 and partial sequence of 28S rDNA) and from the idh nucleotide sequences minus the two introns. Maximum parsimony analysis showed trees based on rDNA and idh sequences to be congruent. It is anticipated that the genetic information obtained in the present study will aid in the design of probes, specific for patulin biosynthetic pathway genes, to identify the presence of these mycotoxigenic fungi. The U.S. Government's right to retain a non-exclusive, royalty-free license in and to any copyright is acknowledged.