Abstract
Due to its proficiency to provide the most discriminating results for forensic applications, medical research and anthropological studies, multiplex PCR based STR analysis has been established as the most efficient technique in the forensic DNA analysis. Several multiplex amplification kits based on 4, 5 and 6 dyes chemistry are commercially available and used in forensic DNA typing across the globe. These multiplex PCR systems are routinely used for amplification of multiple STR loci (Autosomal, Y and/or X STR’s) in the DNA extracted from various biological samples. In the routine forensic DNA testing, DNA profile obtained is compared with the DNA profile of the reference sample, which takes a certain turnaround time and employs costly lab resources. Successive development in forensic DNA typing have resulted in advent of improved multiplex kits which have reduced the effective analysis time, cost and minimized the number of steps required in comparison to conventional forensic DNA typing. Specialized direct amplification compatible multiplex kits are also available nowadays. These kits are relatively costlier but still require few pre-processing steps, which does not make them worth the hefty cost. Herein, this study, we have used non-direct multiplex STR kits to assess their efficacy for direct amplification. In the present study, 103 saliva samples were directly amplified without any pre-treatment of the samples using thirteen non-direct multiplex kits (4 dyes, 5 dyes and 6 dyes chemistry based) for forensic DNA typing. Here, we report a validated direct PCR amplification protocol from the reference saliva samples by omitting DNA extraction and quantification steps, which resulted in 80% reduction of the turnaround time. The developed protocol is cost effective, time efficient and it does not compromise with the quality of DNA profiles. To the best of our knowledge, this is the first report for direct amplification of DNA with the most commonly used non-direct multiplex STR kits without any pre-treatment of the sample. Complete DNA profiles matching all the essential quality parameters were obtained successfully from all the tested samples.
Highlights
In early 1990s, the advent of the polymerase chain reaction (PCR) technology and the use of short tandem repeat (STR) polymorphism[1] was a major breakthrough in forensic DNA technology
Promising results in terms of good quality DNA profile from the pilot study resulted into this detailed study on the direct amplification of saliva samples using commercially available non-direct multiplex kits
Kits used in the study were from leading brands including Thermo Fisher Scientific (AMPFLSTR IDENTIFILER, AMPFLSTR IDENTIFILER PLUS, GLOBALFILER, AMPFLSTR Y FILER and AMPFLSTR YFILER PLUS), Promega (POWERPLEX 16HS SYSTEM, POWERPLEX 21 SYSTEM, POWERPLEX FUSION 6C SYSTEM and POWERPLEX Y 23 SYSTEM) and Qiagen (INVESTIGATOR IDPLEX PLUS, and INVESTIGATOR ARGUS X-12 MULTIPLEX KIT) were tested for direct amplification protocol
Summary
In early 1990s, the advent of the polymerase chain reaction (PCR) technology and the use of short tandem repeat (STR) polymorphism[1] was a major breakthrough in forensic DNA technology. The advantages associated with these advanced kits include the increase in the number of loci to be examined, as per the recommendation of the Scientific Working Group on DNA Analysis Methods (SWGDAM)[37], the master mix has been improved to reduce the amplification time and to cope with the PCR inhibitors. Kits used in the study were from leading brands including Thermo Fisher Scientific (AMPFLSTR IDENTIFILER, AMPFLSTR IDENTIFILER PLUS, GLOBALFILER, AMPFLSTR Y FILER and AMPFLSTR YFILER PLUS), Promega (POWERPLEX 16HS SYSTEM, POWERPLEX 21 SYSTEM, POWERPLEX FUSION 6C SYSTEM and POWERPLEX Y 23 SYSTEM) and Qiagen (INVESTIGATOR IDPLEX PLUS, and INVESTIGATOR ARGUS X-12 MULTIPLEX KIT) were tested for direct amplification protocol This novel protocol was tested using VERIFILER PLUS PCR AMPLIFICATION KIT (Thermo Fisher Scientific) and SURE ID PANGLOBAL HUMAN DNA IDENTIFICATION KIT (Health Gene Technologies) as well newly launched but still not used in routine forensic DNA typing kits. This study was designed with the aim to test and validate the direct amplification protocol using commercially available 4, 5 and 6 dyes chemistry based non-direct multiplex kits of leading brands in forensics
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