Trends in DNA forensic analysis

Carey, Loucinda; Mitnik, Luba

doi:10.1002/1522-2683(200205)23:10<1386::aid-elps1386>3.0.co;2-m

Cited by 57 publications

(30 citation statements)

References 62 publications

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“…Today, almost all DNA analyses performed in forensic laboratories are based on PCR of short tandem repeats (STRs) [21]. The STRs are highly polymorphic and sufficient discrimination can, in most cases, be acquired by analyzing 10-15 STRs.…”

Section: Discussionmentioning

confidence: 99%

Multiplex PCR, amplicon size and hybridization efficiency on the NanoChip electronic microarray

Børsting

Sánchez

Morling

2004

International Journal of Legal Medicine

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We tested the SNP typing protocol developed for the NanoChip electronic microarray by analyzing the four Y chromosome loci SRY1532, SRY8299, TAT, and 92R7. Amplicons of different lengths containing the same locus were purified and addressed to the NanoChip array and fluorescently labelled reporter probes were hybridized to the amplicons. We demonstrated that as little as 10-30 fmol of 50 bp DNA amplicons was sufficient to obtain strong and reproducible results. The hybridization to 50 bp amplicons was up to 10 times more efficient than the hybridization to 200 bp amplicons containing the same SNP. Hybridization to individual amplicons in multiplexes was less efficient suggesting that intramolecular and intermolecular interactions may block access to the target sequence on the NanoChip array. We observed a high risk of contamination with amplicons shorter than 60 bp and therefore, we recommend the use of 60-200 bp amplicons for SNP typing analysis on the NanoChip platform. In a comparative study, we typed the 5 Y chromosome loci M173, 92R7, P25, SRY1532, and M9 in 400 males using the NanoChip SNP typing protocol and the SNaPshot kit. Concording results were obtained for all samples demonstrating the accuracy of the NanoChip SNP typing protocol.

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Section: Discussionmentioning

confidence: 99%

Multiplex PCR, amplicon size and hybridization efficiency on the NanoChip electronic microarray

Børsting

Sánchez

Morling

2004

International Journal of Legal Medicine

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“…In this process CE, and particularly capillary array electrophoretic instrumentation, and microdevice systems play a crucial role. Recent reviews covering the application of capillary electrophoretic techniques to forensic DNA typing have been published by Carey and Mitnik [88] and by Brettel et al [1].…”

Section: Forensic Dna and Rna Analysismentioning

confidence: 99%

Recent advances in the applications of CE to forensic sciences (2001–2004)

Tagliaro

Bortolotti

2006

Electrophoresis

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Recent advances in the applications of CE to forensic sciences (2001-2004)The present article reviews the applications of CE in forensic science covering the period from 2001 until the first part of 2005. The overview includes the most relevant examples of analytical applications of capillary electrophoretic and electrokinetic techniques in the following fields: (i) Forensic drugs and poisons, (ii) explosive analysis and gunshot residues, (iii) small ions of forensic interest, (iv) forensic DNA and RNA analysis, (v) proteins of forensic interest, and (vi) ink analysis.

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“…Comparison of transgene and conventional genomes by using species-specific genome-fragment libraries for reference should enable rapid discrimination between GMO and non-GMO samples. Short DNA repeats were recently successfully analyzed by use of MS techniques for forensic purposes (Carey and Mitnik 2002). Although MS analysis of DNA is currently limited by the molecular size of nucleic acids, these detection methods will become increasingly important as high-throughput applications become common.…”

Section: Mass Spectrometry (Ms) Of Dnamentioning

confidence: 99%

DNA‐based Methods for Detection of Genetic Modifications

Einspanier¹

2006

Genetically Engineered Food

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Trends in DNA forensic analysis

Cited by 57 publications

References 62 publications

Multiplex PCR, amplicon size and hybridization efficiency on the NanoChip electronic microarray

Multiplex PCR, amplicon size and hybridization efficiency on the NanoChip electronic microarray

Recent advances in the applications of CE to forensic sciences (2001–2004)

DNA‐based Methods for Detection of Genetic Modifications

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