Comparison of Three DNA Collection Methods on Nile Red Fluorescent Areas of a Porous Substrate
暂无分享,去创建一个
[1] M. Kavlick,et al. Comparison of the M‐Vac® Wet‐Vacuum‐Based Collection Method to a Wet‐Swabbing Method for DNA Recovery on Diluted Bloodstained Substrates*, †, ‡ , 2020, Journal of forensic sciences.
[2] A. Linacre,et al. Use of a Spray Device to Locate Touch DNA on Casework Samples , 2020, Journal of forensic sciences.
[3] W. Goodwin,et al. The effect of surface type, collection and extraction methods on touch DNA , 2019, Forensic Science International: Genetics Supplement Series.
[4] B. Daniel,et al. A review of trace "Touch DNA" deposits: Variability factors and an exploration of cellular composition. , 2019, Forensic science international. Genetics.
[5] K. Kirkbride,et al. Detection of latent DNA. , 2018, Forensic science international. Genetics.
[6] B. Daniel,et al. The use of the M-Vac® wet-vacuum system as a method for DNA recovery. , 2018, Science & justice : journal of the Forensic Science Society.
[7] J. Ballantyne,et al. Single source DNA profile recovery from single cells isolated from skin and fabric from touch DNA mixtures in mock physical assaults. , 2017, Science & justice : journal of the Forensic Science Society.
[8] R. Ansell,et al. Crime scene DNA sampling by wet-vacuum applying M-Vac , 2015 .
[9] S. Kanthaswamy,et al. Recovery of salivary DNA from the skin after showering , 2015, Forensic Science, Medicine, and Pathology.
[10] C. Lennard,et al. Synthesis and application of an aqueous nile red microemulsion for the development of fingermarks on porous surfaces. , 2014, Forensic science international.
[11] A. Cantu,et al. Nile red: Alternative to physical developer for the detection of latent fingermarks on wet porous surfaces? , 2013, Forensic science international.
[12] Céline Weyermann,et al. Composition of fingermark residue: a qualitative and quantitative review. , 2012, Forensic science international.
[13] Nia Archer,et al. Changes in the lipid composition of latent fingerprint residue with time after deposition on a surface. , 2005, Forensic science international.
[14] Eric Buel,et al. Development of an Alu-based, real-time PCR method for quantitation of human DNA in forensic samples. , 2003, Journal of forensic sciences.
[15] Gillian Tully,et al. The propensity of individuals to deposit DNA and secondary transfer of low level DNA from individuals to inert surfaces. , 2002, Forensic science international.
[16] L. McKenna,et al. Probability of detection of DNA deposited by habitual wearer and/or the second individual who touched the garment. , 2016, Forensic science international. Genetics.
[17] Dyan J Daly,et al. The transfer of touch DNA from hands to glass, fabric and wood. , 2012, Forensic science international. Genetics.