Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress 2023 EHA Congress 2023 ASCO Annual Meeting
Clinical Collections
Advances in Alzheimer’s

Keynote webinar | Spotlight on sleep in brain health

LIVE: Thursday 2nd May 2024, 18:00-19:30 (CEST)

Quality sleep is essential for health. But what happens to our brains when sleep patterns are disturbed? Join our experts to explore the interplay between sleep disruption and neurological diseases, and the questions that you need to be asking your patients to help you prevent the harmful effects of sleep deprivation.
ADVANCED SEARCH
Log in
Top
International Journal of Legal Medicine
Published in: International Journal of Legal Medicine 1/2020

01-01-2020 | Original Article

Genotyping genetic markers from LCN and degraded DNA by HRM and their application in hair shaft

Authors: Enzhu Jiang, Siyi Zhang, Hao Pang

Published in: International Journal of Legal Medicine | Issue 1/2020

Login to get access

Abstract

Degraded and low copy number (LCN) DNA samples are common challenging materials in forensic casework because they increase the difficulty of sample processing and reduce the possibility of obtaining genetic information from DNA. High-resolution melting (HRM) curve analysis is promising for genotyping genetic markers and has been applied to the detection of LCN and degraded DNA in the field of forensic science. However, the exact assessment based on HRM at multiple genetic markers from both degraded and LCN DNA materials has not been optimized. To explore the ability of HRM to genotype LCN and degraded DNA samples, we selected three genetic markers to genotype in experimental LCN and degraded DNA and practical hair shaft materials, which are often encountered as degraded and LCN DNA in forensic medicine. The results show that DNA samples of as low as 100 pg and as short as 60 bp were successfully genotyped by the HRM assay at all three genetic markers, whereas in hair shaft DNA, two loci were accurately genotyped. The HRM assay established in this study can be applied to LCN and degraded DNA analysis in forensic casework and can act as a reference point before genotyping short tandem repeat markers. Developing the HRM strategy for genotyping DNA genetic markers enriches detectable targets in hair shaft samples and provides valuable data for further exploration.
Appendix
Available only for authorised users
Literature
1.
Dabney J, Meyer M, Pääbo S. (2013) Ancient DNA damage , Cold Spring Harb Perspect Biol 5(7)CrossRef
2.
Giardina E, Pietrangeli I, Martone C, Zampatti S, Marsala P, Gabriele L, Ricci O, Solla G, Asili P, Arcudi G, Spinella A, Novelli G (2009) Whole genome amplification and real-time PCR in forensic casework. BMC Genomics 10:159CrossRef
3.
Marshall PL, King JL, Budowle B (2015) Utility of amplification enhancers in low copy number DNA analysis. Int J Legal Med 129:43–52CrossRef
4.
Ohira H, Sakamoto Y, Yamamoto I, Yamada Y (2018) DNA analysis of hairs in a suspected case of child abuse. Leg Med (Tokyo) 35:77–79CrossRef
5.
Pośpiech E, Chen Y, Kukla-Bartoszek M, Breslin K, Aliferi A, Andersen JD, Ballard D, Chaitanya L, Freire-Aradas A, van der Gaag KJ, Girón-Santamaría L, Gross TE, Gysi M, Huber G, Mosquera-Miguel A, Muralidharan C, Skowron M, Carracedo Á, Haas C, Morling N, Parson W, Phillips C, Schneider PM, Sijen T, Syndercombe-Court D, Vennemann M, Wu S, Xu S, Jin L, Wang S, Zhu G, Martin NG, Medland SE, Branicki W, Walsh S, Liu F, Kayser M (2018) Towards broadening forensic DNA phenotyping beyond pigmentation: improving the prediction of head hair shape from DNA. Forensic Sci Int Genet 37:241–251CrossRef
6.
Parson W, Huber G, Moreno L, Madel MB, Brandhagen MD, Nagl S, Xavier C, Eduardoff M, Callaghan TC, Irwin JA (2015) Massively parallel sequencing of complete mitochondrial genomes from hair shaft samples. Forensic Sci Int Genet 15:8–15CrossRef
7.
Linch CA (2009) Degeneration of nuclei and mitochondria in human hairs. J Forensic Sci 54:346–349CrossRef
8.
McNevin D, Wilson-Wilde L, Robertson J, Kyd J, Lennard C (2005) Short tandem repeat (STR) genotyping of keratinised hair. Part 2. An optimised genomic DNA extraction procedure reveals donor dependence of STR profiles. Forensic Sci Int 153:247–259CrossRef
9.
Nilsson M, Grånemo J, Buś MM, Havsjö M, Allen M (2016) Comparison of DNA polymerases for improved forensic analysis of challenging samples. Forensic Sci Int Genet 24:55–59CrossRef
10.
Cavanaugh SE, Bathrick AS (2018) Direct PCR amplification of forensic touch and other challenging DNA samples: a review. Forensic Sci Int Genet 32:40–49CrossRef
11.
Nicklas JA, Noreault-Conti T, Buel E (2012) Development of a fast, simple profiling method for sample screening using high resolution melting (HRM) of STRs. J Forensic Sci 57:478–488CrossRef
12.
Venables SJ, Mehta B, Daniel R, Walsh SJ, van Oorschot RA, McNevin D (2014) Assessment of high resolution melting analysis as a potential SNP genotyping technique in forensic casework. Electrophoresis 35:3036–3043CrossRef
13.
Deng JQ, Liu BQ, Wang Y, Liu W, Cai JF, Long R, Li WH (2016) Y-STR genetic screening by high-resolution melting analysis. Genet Mol Res 5:15
14.
Vossen RH, Aten E, Roos A, den Dunnen JT (2009) High-resolution melting analysis (HRMA): more than just sequence variant screening. Hum Mutat 30:860–866CrossRef
15.
Jiang E, Yu P, Zhang S, Li C, Ding M, Wang B, Pang H (2017) Establishment of an alternative efficiently genotyping strategy for human ABO gene. Leg Med (Tokyo) 29:72–76CrossRef
16.
Zhang Z, Wang BJ, Guan HY, Pang H, Xuan JF (2009) A LDR-PCR approach for multiplex polymorphisms genotyping of severely degraded DNA with fragment sizes <100 bp. J Forensic Sci 54:1304–1309CrossRef
17.
Swango KL, Timken MD, Chong MD, Buoncristiani MR (2006) A quantitative PCR assay for the assessment of DNA degradation in forensic samples. Forensic Sci Int 158:14–26CrossRef
18.
Burnside ES, Bintz BJ, Wilson MR (2013) Improved extraction efficiency of human mitochondrial DNA from hair shafts and its implications for sequencing of the entire mtGenome from a single hair fragment. Proc Am Acad Forensic Sci 19:63
19.
Pineda GM, Montgomery AH, Thompson R, Indest B, Carroll M, Sinha SK (2014) Development and validation of InnoQuant™, a sensitive human DNA quantitation and degradation assessment method for forensic samples using high copy number mobile elements Alu and SVA. Forensic Sci Int Genet 13:224–235CrossRef
20.
Schmidt U, Hulkkonen J, Naue J (2016) Detection of a G>C single nucleotide polymorphism within a repetitive DNA sequence by high-resolution DNA melting. Int J Legal Med 130:1181–1184CrossRef
21.
Ginart S, Caputo M, Alechine E, Corach D, Sala A (2016) Development of a quantitation approach for total human and male DNA based on real time PCR followed by high resolution melting analysis. Electrophoresis 37:2734–2741CrossRef
22.
Hamano Y, Manabe S, Morimoto C, Fujimoto S, Ozeki M, Tamaki K (2016) Forensic age prediction for dead or living samples by use of methylation-sensitive high resolution melting. Leg Med (Tokyo) 21:5–10CrossRef
23.
Mehta B, Daniel R, McNevin D (2017) HRM and SNaPshot as alternative forensic SNP genotyping methods. Forensic Sci Med Pathol 13:293–301CrossRef
24.
Madel MB, Niederstätter H, Parson W (2016) TriXY-homogeneous genetic sexing of highly degraded forensic samples including hair shafts. Forensic Sci Int Genet 25:166–174CrossRef
25.
Graham EA (2008) DNA reviews: low level DNA profiling. Forensic Sci Med Pathol 4:129–131CrossRef
26.
Moretti TR, Baumstark AL, Defenbaugh DA, Keys KM, Smerick JB, Budowle B (2001) Validation of short tandem repeats (STRs) for forensic usage: performance testing of fluorescent multiplex STR systems and analysis of authentic and simulated forensic samples. J Forensic Sci 46:647–660PubMed
27.
Moretti TR, Baumstark AL, Defenbaugh DA, Keys KM, Brown AL, Budowle B (2001) Validation of STR typing by capillary electrophoresis. J Forensic Sci 46:661–676PubMed
28.
Álvarez-Sandoval BA, Manzanilla LR, Montiel R (2014) Sex determination in highly fragmented human DNA by high-resolution melting (HRM) analysis. PLoS One 9:e104629CrossRef
29.
Hughes-Stamm SR, Ashton KJ, van Daal A (2011) Assessment of DNA degradation and the genotyping success of highly degraded samples. Int J Legal Med 125(3):341–348CrossRef
Metadata
Title
Genotyping genetic markers from LCN and degraded DNA by HRM and their application in hair shaft
Authors
Enzhu Jiang
Siyi Zhang
Hao Pang
Publication date
01-01-2020
Publisher
Springer Berlin Heidelberg
Published in
International Journal of Legal Medicine / Issue 1/2020
Print ISSN: 0937-9827
Electronic ISSN: 1437-1596
DOI
https://doi.org/10.1007/s00414-019-02045-w

Other articles of this Issue 1/2020

International Journal of Legal Medicine 1/2020 Go to the issue

Original Article

Dental age estimation based on the radiographic visibility of the periodontal ligament in the lower third molars: application of a new stage classification

Original Article

Ancestry-informative marker (AIM) SNP panel for the Malay population

Short Communication

Cleaning a crime scene 2.0—what to do with the bloody knife after the crime?

Short Communication

Postmortem interval determination using mRNA markers and DNA normalization

Case Report

Fatal cervix rupture due to intraplacental choriocarcinoma triggered by sexual intercourse

Method Paper

Inter-laboratory study on standardized MPS libraries: evaluation of performance, concordance, and sensitivity using mixtures and degraded DNA