Defeating numts: Semi-pure mitochondrial DNA from eggs and simple purification methods for field-collected wildlife tissues

Genome ◽  
2006 ◽  
Vol 49 (11) ◽  
pp. 1438-1450 ◽  
Author(s):  
Gabriela Ibarguchi ◽  
Vicki L. Friesen ◽  
Stephen C. Lougheed
Keyword(s):  
Mitochondrial Dna ◽  
Gradient Methods ◽  
Pcr Amplification ◽  
Cesium Chloride ◽  
Pcr Cloning ◽  
Degenerate Primers ◽  
Purification Methods ◽  
Mitochondrial Origin ◽  
Reference Sequences ◽  
Species Specific

Mitochondrial DNA (mtDNA) continues to play a pivotal role in phylogeographic, phylogenetic, and population genetic studies. PCR amplification with mitochondrial primers often yields ambiguous sequences, in part because of the coamplification of nuclear copies of mitochondrial genes (numts) and true mitochondrial heteroplasmy arising from mutations, hybridization with paternal leakage, gene duplications, and recombination. Failing to detect numts or to distinguish the origin of such homologous sequences results in the incorrect interpretation of data. However, few studies obtain purified mtDNA to confirm the mitochondrial origin of the first reference sequences for a species. Here, we demonstrate the importance and ease of obtaining semi-pure mtDNA from wildlife tissues, preserved under various typical field conditions, and investigate the success of 3 commercial extraction kits, cesium-chloride gradient mtDNA purification, long-template PCR amplification, cloning, and more species-specific degenerate primers. Using more detailed avian examples, we illustrate that unfertilized or undeveloped eggs provide the purest sources of mtDNA; that kits provide an alternative to cesium-chloride gradient methods; and that long-template PCR, cloning, and degenerate primers cannot be used to produce reliable mitochondrial reference sequences, but can be powerful tools when used in conjunction with purified mtDNA stocks to distinguish numts from true heteroplasmy.

Direct and Highly Species-Specific Detection of Pork Meat and Fat in Meat Products by PCR Amplification of Mitochondrial DNA

2000 ◽  
Vol 48 (7) ◽  
pp. 2829-2832 ◽  
Author(s):  
J. F. Montiel-Sosa ◽  
E. Ruiz-Pesini ◽  
J. Montoya ◽  
P. Roncalés ◽  
M. J. López-Pérez ◽  
...  
Keyword(s):  
Mitochondrial Dna ◽  
Meat Products ◽  
Pcr Amplification ◽  
Pork Meat ◽  
Specific Detection ◽  
Species Specific

Application of mitochondrial DNA analysis for microbial source tracking purposes in shellfish harvesting waters

2010 ◽  
Vol 61 (1) ◽  
pp. 1-7 ◽  
Author(s):  
Craig Baker-Austin ◽  
Rachel Rangdale ◽  
James Lowther ◽  
David N. Lees
Keyword(s):  
Mitochondrial Dna ◽  
Real Time ◽  
Real Time Pcr ◽  
Dna Analysis ◽  
Pcr Amplification ◽  
Source Tracking ◽  
Pcr Analysis ◽  
Taqman Probes ◽  
Faecal Matter ◽  
Species Specific

We present a method for the reliable detection and source characterisation of faecal pollution in water and shellfish matrices, utilising real-time PCR analysis of mitochondrial DNA targets. In this study we designed real-time PCR (TaqMan) probes to target human, bovine, ovine and swine mtDNA. PCR amplification using species-specific TaqMan probes on faecal matter and mixed effluent slurries revealed no cross-reactions between species of interest and other vertebrate faecal matter. Performed as a single blind experiment we were able to correctly identify faecal material in 17/20 effluents (85% correct). mtDNA degrades relatively quickly in faecally-spiked water samples (∼2 weeks), a similar timeframe of environmental persistence to several bacterial faecal indictors, highlighting its applicability. The procedure described here is specific, rapid (<5 hours) and sensitive. These results confirm the suitability of using species-specific mtDNA as an indicator in source tracking studies in surface waters, shellfish harvesting areas and shellfish matrices.

A Method for Authentication of Meat by PCR Amplification of Species-specific Markers of Mitochondrial Origin

2021 ◽  
Author(s):  
R. Thomas ◽  
M. Saikia ◽  
S. Singha ◽  
Z. Baruah ◽  
R. Kalita ◽  
...  
Keyword(s):  
Core Temperature ◽  
Pcr Amplification ◽  
Hot Water ◽  
Eastern Region ◽  
Meat Industry ◽  
Target Species ◽  
D Loop ◽  
Mitochondrial Origin ◽  
Meat Samples ◽  
Species Specific

Background: Adulteration of meat with their cheaper or inferior counterparts has become a common practice in the meat industry which threatens the feelings as well as the health of the people. Meat adulteration has issues relating to social, religious, economic, and public health. Therefore, it is important to develop simple and reliable techniques for the authentication of species of meat. Mitochondrial markers have been widely used in species identification and authentication as PCR of species-specific markers of mitochondrial origin is relatively rapid, accurate, sensitive and cost-effective as compared to other PCR based assays. The present study was carried out for authentication of raw and cooked meat from different species using PCR amplification of species-specific Cytb and D-loop markers of mitochondrial origin.Methods: In this study, detection of different raw meat viz. beef, carabeef, mutton, chevon, chicken, duck meat and dog meat as well as meat samples subjected to different processing temperatures was done using PCR of species-specific mitochondrial Cytb and D-loop markers. Samples of beef, carabeef, mutton, chevon, chicken, duck meat and dog meat were collected randomly from different locations of the North-Eastern region of India. The meat samples were subjected to heat treatment in hot water (80oC) to have 75oC core temperature. They were also cooked in steam to have the core temperature of 95oC. The samples were also subjected to autoclaving at a temperature of 121oC and 15 lb pressure. Result: The markers used in this study successfully amplified unique fragments for beef, carabeef, mutton, chevon, chicken, duck meat and dog meat. The sizes of the amplified products were 126 bp for beef, 226 bp for carabeef, 254 bp for mutton, 453 bp for chevon, 256 bp for chicken, 292 bp for duck meat and 100 bp for dog meat. The results were consistent in the meat samples which were subjected to different cooking temperatures ranging from 75-121oC. Consequently, these markers were validated for cross-amplification by checking them with other meat samples and no amplifications were observed in non-target species. The results suggested that all the markers were highly specific for the target species. The simplicity, sensitivity and stability of the assay indicated that this method could be very useful for meat authentication and thereby to detect adulteration. 

Molecular Evidence for Nosocomial Transmission of Human Immunodeficiency Virus from a Surgeon to One of His Patients

1998 ◽  
Vol 72 (5) ◽  
pp. 4537-4540 ◽  
Author(s):  
Alain Blanchard ◽  
Stéphane Ferris ◽  
Sophie Chamaret ◽  
Denise Guétard ◽  
Luc Montagnier
Keyword(s):  
Human Immunodeficiency Virus ◽  
Viral Genome ◽  
Pcr Amplification ◽  
Nosocomial Transmission ◽  
Molecular Evidence ◽  
Immunodeficiency Virus ◽  
Reference Sequences ◽  
Hiv Type 1 ◽  
Viral Sequences

ABSTRACT We have investigated the molecular evidence in favor of the transmission of human immunodeficiency virus (HIV) from an HIV-infected surgeon to one of his patients. After PCR amplification, theenv and gag sequences from the viral genome were cloned and sequenced. Phylogenetic analysis revealed that the viral sequences derived from the surgeon and his patient are closely related, which strongly suggests that nosocomial transmission occurred. In addition, these viral sequences belong to group M of HIV type 1 but are divergent from the reference sequences of the known subtypes.

scholarly journals PrimerPooler: automated primer pooling to prepare library for targeted sequencing

2017 ◽  
Vol 2 (1) ◽  
Author(s):  
Silas S. Brown ◽  
Yun-Wen Chen ◽  
Ming Wang ◽  
Alexandra Clipson ◽  
Eguzkine Ochoa ◽  
...  
Keyword(s):  
Variant Calling ◽  
Pcr Amplification ◽  
Illumina Miseq ◽  
Degenerate Primers ◽  
Cross Hybridization ◽  
Targeted Next Generation Sequencing ◽  
Target Sequencing ◽  
A Genome ◽  
Experimental Protocols ◽  
Minimal Depth

Abstract Targeted next-generation sequencing based on PCR amplification involves pooling of hundreds to thousands of primers, for preamplification and subsequent parallel single/multiplex PCR. It is often necessary to allocate the set of primers into subpools, a common issue being potential cross-hybridization. For smaller numbers of primers, pool division can be done manually using trial and error to minimize potential hybridization, but this becomes inefficient and time consuming with increasing numbers of primer pairs. We developed PrimerPooler that automates swapping of primer pairs between any user-defined number of subpools to obtain combinations with low-potential interactions. PrimerPooler performs inter-/intra-primer hybridization analysis to identify the adverse interactions, as well as simultaneous mapping of all primers onto a genome sequence in a single run without requiring a prior index of the genome. This allows detection of overlapping primer pairs and allocation of these primer pairs into separate subpools where tiling approaches are used. Using PrimerPooler, 1153 primer pairs were assigned to three preamplification pools (388, 389 and 376 primer pairs each), then 144 subpools of six- to nine-plex PCR for Fluidigm Access Array PCR, followed by Illumina MiSeq sequencing. With optimized experimental protocols, an average of 3269 reads was achieved for the targeted regions, with 95% of targets covered by at least 50 reads, the minimal depth of reads for confident variant calling. PrimerPooler provides a fast and highly efficient stratification of primer pairs for targeted enrichment, thus ensuring representative amplification of the targeted sequences. PrimerPooler is also able to analyse degenerate primers, and is thus also useful for microbiological identification and related target sequencing.

Quantitative Detection of Species-Specific DNA in Feedstuffs and Fish Meals

2005 ◽  
Vol 68 (6) ◽  
pp. 1217-1221 ◽  
Author(s):  
PAVEL KRCMAR ◽  
EVA RENCOVA
Keyword(s):  
Mitochondrial Dna ◽  
Real Time ◽  
Dna Sequences ◽  
Real Time Pcr ◽  
Single Species ◽  
Absolute Quantification ◽  
Quantitative Detection ◽  
Vertebrate Species ◽  
Target Species ◽  
Species Specific

A sensitive and rapid method for the quantitative detection of bovine-, ovine-, swine-, and chicken-specific mitochondrial DNA sequences based on real-time PCR has been developed. The specificity of the primers and probes for real-time PCR has been tested using DNA samples of other vertebrate species that may also be present in rendered products. The quantitative detection was performed with dual-labeled probes (TaqMan) using absolute quantification with external standards of single species meat-and-bone meals. This method facilitates the detection of 0.01% of the target species–derived material in concentrate feed mixtures and fish meals.

ISSR-Derived Species-Specific SCAR Marker for Rapid and Accurate Authentication of Ocimum tenuiflorum L.

Planta Medica ◽  
2017 ◽  
Vol 84 (02) ◽  
pp. 117-122 ◽  
Author(s):  
Amit Kumar ◽  
Vereena Rodrigues ◽  
Priyanka Mishra ◽  
Kuppusamy Baskaran ◽  
Ashutosh Shukla ◽  
...  
Keyword(s):  
Pcr Amplification ◽  
High Volume ◽  
Inter Simple Sequence Repeat ◽  
Rapid Identification ◽  
Medicinal Species ◽  
Accurate Identification ◽  
Sequence Characterized Amplified Region ◽  
Medicinal Value ◽  
Ocimum Tenuiflorum ◽  
Species Specific

Abstract Ocimum tenuiflorum has been widely used in traditional medicine and has high medicinal value. High volume trade of this potential medicinal plant species led to unscrupulous adulteration of both crude drugs as well as formulations. Morphology-based authentication is difficult in cases of incomplete or damaged samples and in dried herbal materials. In such cases, PCR-based molecular methods may aid in accurate identification. The present study aimed at developing species-specific DNA marker(s) for the authentication of O. tenuiflorum. A species-specific amplicon (279 bp) generated through an inter-simple sequence repeat marker (UBC 835) in all individuals of O. tenuiflorum was cloned, sequenced, and a primer pair was developed (designated as CIM-OT-835F/CIM-OT-835R). The newly developed sequence characterized amplified region marker was validated through PCR amplification in all available seven species of Ocimum, and its specificity for O. tenuiflorum was confirmed with the consistent generation of an amplicon of 177 bp. The developed marker can be used for accurate and rapid identification of the species for certification purposes and will be useful in quality control of medicinal preparations containing this important medicinal species.

Fate of genetically marked mitochondrial DNA from spermatocytes microinjected into mouse zygotes

Zygote ◽  
1999 ◽  
Vol 7 (2) ◽  
pp. 151-156 ◽  
Author(s):  
James M. Cummins ◽  
Hidefumi Kishikawa ◽  
Denise Mehmet ◽  
Ryuzo Yanagimachi
Keyword(s):  
Mitochondrial Dna ◽  
Germ Cells ◽  
Restriction Site ◽  
Mutual Recognition ◽  
Nuclear Genome ◽  
Pcr Amplification ◽  
Cell Stage ◽  
Mt Dna ◽  
Mouse Zygotes ◽  
Host Embryo

Cytoplasts from single spermatocytes of NZB/BinJ mice were separated from the nuclei and individually microinjected into B6D2F1 (C57BL/6 × DNBA/2J) hybrid embryos at the pronuclear stage (20 h after hCG injection). Of 363 zygotes injected, 311 (86%) survived and developed. From these experiments, we transferred 222 embryos into 20 pseudopregnant recipients. Eighteen (90%) became pregnant and 82 pups were born (37% of transfers). Mitochondrial DNA (mt DNA) from the NZB/BinJ strain lacks a RsaI restriction site and can thus be distinguished from the host embryo following PCR amplification. We were unable to detect the transferred mtDNA in blastocysts on day 4–5 after injection. Nor could we detect NZB/BinJ mtDNA in placentae, nor in tissues from mice born to host mothers following the transfer of blastocysts that developed from injected zygotes. Rejection of paternal mitochondria by the embryo normally occurs at the 4- to 8-cell stage in mice and is apparently dependent on mutual recognition between the mitochondria and the nuclear genome. We conclude that this mechanism has probably already developed by the time the germ cells have become committed to meiosis.

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