Mohaimin Kasu scite author profile

Mohaimin Kasu

5Publications

36Citation Statements Received

69Citation Statements Given

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104

Affiliations

University of the Western Cape, University of Cape Town

Publications

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The validation of forensic DNA extraction systems to utilize soil contaminated biological evidence

Kasu

Shires

2015

Legal Medicine

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The production of full DNA profiles from biological evidence found in soil has a high failure rate due largely to the inhibitory substance humic acid (HA). Abundant in various natural soils, HA co-extracts with DNA during extraction and inhibits DNA profiling by binding to the molecular components of the genotyping assay. To successfully utilize traces of soil contaminated evidence, such as that found at many murder and rape crime scenes in South Africa, a reliable HA removal extraction system would often be selected based on previous validation studies. However, for many standard forensic DNA extraction systems, peer-reviewed publications detailing the efficacy on soil evidence is either lacking or is incomplete. Consequently, these sample types are often not collected or fail to yield suitable DNA material due to the use of unsuitable methodology. The aim of this study was to validate the common forensic DNA collection and extraction systems used in South Africa, namely DNA IQ, FTA elute and Nucleosave for processing blood and saliva contaminated with HA. A forensic appropriate volume of biological evidence was spiked with HA (0, 0.5, 1.5 and 2.5 mg/ml) and processed through each extraction protocol for the evaluation of HA removal using QPCR and STR-genotyping. The DNA IQ magnetic bead system effectively removed HA from highly contaminated blood and saliva, and generated consistently acceptable STR profiles from both artificially spiked samples and crude soil samples. This system is highly recommended for use on soil-contaminated evidence over the cellulose card-based systems currently being preferentially used for DNA sample collection.

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Design, installation, and performance evaluation of a custom dye matrix standard for automated capillary electrophoresis

et al. 2016

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CE equipment detects and deconvolutes mixtures containing up to six fluorescently labeled DNA fragments. This deconvolution is done by the collection software that requires a spectral calibration file. The calibration file is used to adjust for the overlap that occurs between the emission spectra of fluorescence dyes. All commercial genotyping and sequencing kits require the installation of a corresponding matrix standard to generate a calibration file. Due to the differences in emission spectrum overlap between fluorescent dyes, the application of existing commercial matrix standards to the electrophoretic separation of DNA labeled with other fluorescent dyes can yield undesirable results. Currently, the number of fluorescent dyes available for oligonucleotide labeling surpasses the availability of commercial matrix standards. Therefore, in this study we developed and evaluated a customized matrix standard using ATTO 633, ATTO 565, ATTO 550, ATTO Rho6G, and 6-FAM dyes for which no commercial matrix standard is available. We highlighted the potential genotyping errors of using an incorrect matrix standard by evaluating the relative performance of our custom dye set using six matrix standards. The specific performance of two genotyping kits (UniQTyper™ Y-10 version 1.0 and PowerPlex® Y23 System) was also evaluated using their specific matrix standards. The procedure we followed for the construction of our custom dye matrix standard can be extended to other fluorescent dyes.

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Population analysis of African Y-STR profiles with UniQ TYPER™ Y-10 genotyping system

D’Amato

Kasu

2017

Forensic Science International: Genetics Supplement Series

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Novel Y-chromosome short tandem repeat sequence variation for loci DYS710, DYS518, DYS385, DYS644, DYS612, DYS626, DYS504, DYS481, DYS447 and DYS449

Kasu

Fredericks

Fraser³

et al. 2019

Int J Legal Med

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Forensic parameters and genetic structure based on Y-chromosome short tandem repeats in Lesotho populations

Lesaoana

Kasu

D’Amato

2019

Forensic Science International: Genetics Supplement Series

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Lesotho is a landlocked country with approximately 2.2 million inhabitants. Over 97% of the population is represented by the Southern Sotho people (Sotho-Tswana group), followed by a number of minorities mostly from the Nguni language group. In this study we investigated the patterns of genetic variation and report genetic diversity, forensic parameters and novel allele variations in 938 unrelated Bantu males. Population pairwise comparisons identified high affinities between the Xhosa and the Vundle, while the largest genetic distance was observed between the Vundle and the Baphuthi ethnic groups (R st = 0.14878). A high level of genetic differentiation between populations was observed considering culture and language affiliations as opposed to geographic distance.

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Mohaimin Kasu

The validation of forensic DNA extraction systems to utilize soil contaminated biological evidence

Design, installation, and performance evaluation of a custom dye matrix standard for automated capillary electrophoresis

Population analysis of African Y-STR profiles with UniQ TYPER™ Y-10 genotyping system

Novel Y-chromosome short tandem repeat sequence variation for loci DYS710, DYS518, DYS385, DYS644, DYS612, DYS626, DYS504, DYS481, DYS447 and DYS449

Forensic parameters and genetic structure based on Y-chromosome short tandem repeats in Lesotho populations

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