Forensic short tandem repeat markers alteration in cancerous tissues: a scoping review Izzah Syahira Omar, Md Yusop Nur Hafiza, Zainuddin Zafarina, Mohd Nafi Siti Norasikin, Mohd Isa Seoparjoo Azmel, Mohamed Yusoff Shafini, Hanis Z. A. NurWaliyuddin Egyptian Journal of Forensic Sciences, 2024 Background Short Tandem Repeats (STRs) are segments of DNA composed of a short sequence of nucleotides that repeat consecutively. These repeating sequences exhibit distinct lengths and nucleotide sequences among individuals, showcasing high variability and uniqueness. The STR profile remains consistent across all cells in an individual’s body. Nonetheless, changes in the STR profile have been documented in cancerous tissues. This scoping review aimed to investigate the occurrence and pattern of forensic STR markers alterations in cancerous tissues. We conducted a scoping review of the English-language publications published between 2002 and 2022 in the PubMed, Science Direct, and Scopus databases and a manual search of reference lists from reviewed papers. The review was carried out in compliance with the Preferred Reporting Items for Systematic reviews and Meta-Analyses extension for Scoping Reviews. Results Our search resulted in a total of 1,065 articles associating forensic STR studies with cancerous tissues. A total of 18 of these studies met our inclusion criteria. The D18S51 marker was most often found to be altered when associated with cancers such as breast, colorectal, gastric, gynaecology, and lung cancers. Following with that, FGA, VWA, D19S433, and D13S317 markers could as well be seen to have allelic alteration in cancerous tissues. Four other STR markers (TPOX, D7S820, D2S1338, and Penta D) could be potentially represented as stable STR markers in cancerous tissues. Conclusions According to our review, colorectal cancer tissue has the highest level of genomic instability compared to that of other cancer types. In summary, the genetic instability caused by faulty DNA mismatch repair processes in human carcinomas can pose challenges for forensic genotyping and DNA profile matching.
Draft Genome Sequence of Clinical Isolate USM026 of the Pathogenic Yeast Candida parapsilosis Dina Yamin, Wan Khairunnisa Wan Juhari, Nur Waliyuddin Hanis Zainal Abidin, Shuhaila Mat-Sharani, Azian Harun Microbiology Resource Announcements, 2022 Here, we report the draft genome sequence of a Candida parapsilosis clinical isolate (USM026) that was recovered from a blood sample from a patient who was treated for a catheter-related bloodstream infection (CRBSI). The draft genome is 12,839,916 bp in length, with 22,076,712 reads, 249 scaffolds, and 5,537 genes.
Draft Genome Sequence of Clinical Isolate USM039K of the Pathogenic Yeast Candida parapsilosis Dina Yamin, Wan Khairunnisa Wan Juhari, NurWaliyuddin Hanis Zainal Abidin, Shuhaila Mat-Sharani, Azian Harun Microbiology Resource Announcements, 2022 Here, we announce the draft genome sequence of a Candida parapsilosis clinical isolate (USM039K) recovered from a patient with catheter-related bloodstream infection (CRBSI). The genome size is 12,860,016 bp long, with 188 scaffolds, a G+C content of 38.65%, and 5,467 genes.
Understanding the genetic history of Malay populations in Peninsular Malaysia via KIR genes diversity Nur Waliyuddin Hanis Zainal Abidin, Norazmi Mohd Nor, Panneerchelvam Sundararajulu, Zainuddin Zafarina American Journal of Human Biology, 2021 Killer cell immunoglobulin‐like receptor (KIR) genes with high polymorphism at genotypic levels are important in providing immune defense and have been expanded towards human population genetics. The aim of this study is to provide supporting information from this new biomarker to strengthen the comprehension of genetic history of the complex Malay population.
Ancient genetic signatures of orang asli revealed by killer immunoglobulin-like receptor gene polymorphisms Hanis Z. A. NurWaliyuddin, Mohd N. Norazmi, Hisham A. Edinur, Geoffrey K. Chambers, Sundararajulu Panneerchelvam, Zainuddin Zafarina Plos One, 2015 The aboriginal populations of Peninsular Malaysia, also known as Orang Asli (OA), comprise three major groups; Semang, Senoi and Proto-Malays. Here, we analyzed for the first time KIR gene polymorphisms for 167 OA individuals, including those from four smallest OA subgroups (Che Wong, Orang Kanaq, Lanoh and Kensiu) using polymerase chain reaction-sequence specific primer (PCR-SSP) analyses. The observed distribution of KIR profiles of OA is heterogenous; Haplotype B is the most frequent in the Semang subgroups (especially Batek) while Haplotype A is the most common type in the Senoi. The Semang subgroups were clustered together with the Africans, Indians, Papuans and Australian Aborigines in a principal component analysis (PCA) plot and shared many common genotypes (AB6, BB71, BB73 and BB159) observed in these other populations. Given that these populations also display high frequencies of Haplotype B, it is interesting to speculate that Haplotype B may be generally more frequent in ancient populations. In contrast, the two Senoi subgroups, Che Wong and Semai are displaced toward Southeast Asian and African populations in the PCA scatter plot, respectively. Orang Kanaq, the smallest and the most endangered of all OA subgroups, has lost some degree of genetic variation, as shown by their relatively high frequency of the AB2 genotype (0.73) and a total absence of KIR2DL2 and KIR2DS2 genes. Orang Kanaq tradition that strictly prohibits intermarriage with outsiders seems to have posed a serious threat to their survival. This present survey is a demonstration of the value of KIR polymorphisms in elucidating genetic relationships among human populations.
Human neutrophil antigen profiles in Banjar, Bugis, Champa, Jawa and Kelantan Malays in Peninsular Malaysia S. M. Manaf, H. Z. A. NurWaliyuddin, S. Panneerchelvam, Z. Zafarina, M. Norazmi, G. Chambers, H. Edinur Blood Transfusion, 2015 BACKGROUND Human neutrophil antigens (HNA) are polymorphic and immunogenic proteins involved in the pathogenesis of neonatal alloimmune neutropenia, transfusion-related acute lung injury (TRALI) and transfusion-related alloimmune neutropenia. The characterisation of HNA at a population level is important for predicting the risk of alloimmunisation associated with blood transfusion and gestation and for anthropological studies. MATERIALS AND METHODS Blood samples from 192 healthy, unrelated Malays were collected and genotyped using polymerase chain reaction-sequence specific primers (HNA-1, -3, -4) and polymerase chain reaction-restriction fragment length polymorphisms (HNA-5). The group comprised 30 Banjar, 37 Bugis, 51 Champa, 39 Jawa and 35 Kelantan Malays. RESULTS The most common HNA alleles in the Malays studied were HNA-1a (0.641-0.765), -3a (0.676-0.867), -4a (0.943-1.000) and -5a (0.529-0.910). According to principal coordinate plots constructed using HNA allele frequencies, the Malay sub-ethnic groups are closely related and grouped together with other Asian populations. The risks of TRALI or neonatal neutropenia were not increased for subjects with HNA-1, -3 and -4 loci even for donor and recipient or pairs from different Malay sub-ethnic groups. Nonetheless, our estimates showed significantly higher risks of HNA alloimmunisation during pregnancy and transfusion between Malays and other genetically differentiated populations such as Africans and Europeans. DISCUSSION This study reports HNA allele and genotype frequencies for the five Malay sub-ethnic groups living in Peninsular Malaysia for the first time. These Malay sub-ethnic groups show closer genetic relationships with other Asian populations than with Europeans and Africans. The distributions of HNA alleles in other lineages of people living in Malaysia (e.g. Chinese, Indian and Orang Asli) would be an interesting subject for future study.
Killer immunoglobulin-like receptor diversity in Malay subethnic groups of Peninsular Malaysia H. Z. A. NurWaliyuddin, H. A. Edinur, M. N. Norazmi, P. Sundararajulu, G. K. Chambers, Z. Zafarina International Journal of Immunogenetics, 2014 The KIR system shows variation at both gene content and allelic level across individual genome and populations. This variation reflects its role in immunity and has become a significant tool for population comparisons. In this study, we investigate KIR gene content in 120 unrelated individuals from the four Malay subethnic groups (Kelantan, Jawa, Banjar and Pattani Malays). Genotyping using commercial polymerase chain reaction–sequence‐specific primer (PCR‐SSP) kits revealed a total of 34 different KIR genotypes; 17 for Kelantan, 15 for Banjar, 14 for Jawa and 13 for Pattani Malays. Two new variants observed in Banjar Malays have not previously been reported. Genotype AA and haplotype A were the most common in Jawa (0.47 and 0.65, respectively), Banjar (0.37 and 0.52, respectively) and Pattani (0.40 and 0.60, respectively) Malays. In contrast, Kelantan Malays were observed to have slightly higher frequency (0.43) of genotype BB as compared with the others. Based on the KIR genes distribution, Jawa, Pattani and Banjar subethnic groups showed greater similarity and are discrete from Kelantan Malays. A principal component plot carried out using KIR gene carrier frequency shows that the four Malay subethnic groups are clustered together with other South‐East Asian populations. Overall, our observation on prevalence of KIR gene content demonstrates genetic affinities between the four Malay subethnic groups and supports the common origins of the Austronesian‐speaking people.
