Genetic Variability of Short Tandem Repeat Markers in Alcohol-Dependent Individuals in Baghdad

Authors

  • Ali Qahtan Kadhim Department of Forensic Chemistry, Higher Institute of Forensic Sciences, Al-Nahrain University, Baghdad, Iraq.
  • Rasha Abd Ali Al-Khalidi Department of Biotechnology, College of Science, University of Baghdad. Baghdad, Iraq

Keywords:

Alcohol dependent, Forensic statistical parameters, Genetic diversity, Short tandem repeats (STR)

Abstract

Alcohol use disorder (AUD) arises from complex interactions among genetic, cultural, and environmental factors. Baghdad’s diverse population provides an ideal setting to explore these dynamics. We genotyped 23 autosomal short tandem repeat (STR) loci in 200 alcohol‑dependent individuals and 50 controls from Baghdad using the PowerPlex® 23 System between January 2023 and January 2025. Locus Penta E exhibited the highest gene diversity (GD = 0.962) and discrimination capacity (DC = 0.9310), whereas DYS391 and D10S1248 showed lower polymorphism (GD = 0.850). The combined random‑match probability across all loci was 9.66 × 10⁻²⁶. These results demonstrate that our 23‑locus STR panel delivers robust forensic resolution and establishes a reference dataset for future population‑genetic and AUD‑related research in Iraq.

References

[1] Al-Hemiary, N. J.; Al-Diwan, J. K.; Hasson, A. L.; Rawson, R. A.; "Drug and alcohol use in Iraq: findings of the inaugural Iraqi Community Epidemiological Workgroup". Subst. Use Misuse, 49 (13): 1759–1763, 2014.

[2] Keyes, K. M.; "Age, period, and cohort effects in alcohol use in the United States in the 20th and 21st centuries: implications for the coming decades". Alcohol Res. Curr. Rev., 42 (1): 02 2022.

[3] Moskatel, L. S.; Slusky, D. J. G.; "The impact of COVID-19 on alcohol sales and consumption in the United States: A retrospective, observational analysis". Alcohol, 111: 25–31, 2023.

[4] Ciucă Anghel, D.-M.; Nițescu, G. V; Tiron, A.-T.; Guțu, C. M.; Baconi, D. L.; "Understanding the Mechanisms of Action and Effects of Drugs of Abuse". Molecules 28 (13), 2023.

[5] Agrawal, A.; Brislin, S. J.; Bucholz, K. K.; Dick, D.; Hart, R. P.; Johnson, E. C.; Meyers, J.; Salvatore, J.; Slesinger, P.; COGA Collaborators, et al.; "The Collaborative Study on the Genetics of Alcoholism: Overview". Genes, Brain Behav., 22 (5): e12864, 2023.

[6] Sedenkova, M.; Pogosov, S.; Sharapova, D.; and Shernazarov, F.; "The possibility of predicting the time of formation and development of alcohol dependence: the role of genetic risk, family weight and its level". Sci. Innov., 2 (12): 173–178, 2023.

[7] Kizys, R.; Mamatzakis, E. C.; Tzouvanas, P.; "Does genetic diversity on corporate boards lead to improved environmental performance?". J. Int. Financ. Mark. Institutions Money, 84: 101756, 2023.

[8] Zhang, C.; Cawley, S.; Liu, G.; Cao, M.; Gorrell, H.; Kennedy, G. C.; "A genome-wide linkage analysis of alcoholism on microsatellite and single-nucleotide polymorphism data, using alcohol dependence phenotypes and electroencephalogram measures". BMC Genet., 6 (1): S17, 2005.

[9] Sinha, R.; "Chronic stress, drug use, and vulnerability to addiction". Ann. N. Y. Acad. Sci., 1141 (1): 105–130, 2008.

[10] Borsari, B.; Borsari, B.; Carey, K. B.; "How the quality of peer relationships influences college alcohol use". Drug Alcohol Rev., 25 (4): 361–370, 2006.

[11] Al-Zubaidi, M. M.; Mohi, A. R.; "Bio-Molecular Allele Frequencies Availability of 23Y-Str Markers Polymorphisms and Odontogenic Diseases in Iraqi Population Study". Indian J. Forensic Med. Toxicol., 15 (3): 1625, 2021.

[12] Saud, A. M.; Ali Al-Khalidi, R. A.; Abdulridha, R. H.; "Genetic Analysis And Gene Expression of Polycystic Ovary Syndrome (PCOS).". Biochem. Cell. Arch., 20 (1): 1989-1994, 2020.

[13] Al–Zubaidi, Mohammed Mahdi, Asia Abdul Lateef Mahdi, Reem Husam Al-Tabra, Halah Khalid Ibrahim Al-Sammaraie, Ban Ameen Abd el_Jabbar, Asmaa A. Jawad, and S. N. H.; "Mitochondrial DNA in Fornescis: Principles, Applications, and Limitations". Al-Nahrain J. Sci., 27, 2 : 50–62, 2024.

[14] Oo, K. Z.; Aung, Y. K.; Jenkins, M. A.; Win, A. K.; "Associations of 5HTTLPR polymorphism with major depressive disorder and alcohol dependence: A systematic review and meta-analysis". Aust. New Zeal. J. Psychiatry, 50 (9): 842–857, 2016.

[15] Bendre, M.; Comasco, E.; Checknita, D.; Tiihonen, J.; Hodgins, S.; Nilsson, K. W.; "Associations Between MAOA‐uVNTR Genotype, Maltreatment, MAOA Methylation, and Alcohol Consumption in Young Adult Males". Alcohol. Clin. Exp. Res., 42 (3): 508–519, 2018.

[16] Fotsing, S. F.; Margoliash, J.; Wang, C.; Saini, S.; Yanicky, R.; Shleizer-Burko, S.; Goren, A.; Gymrek, M.; "The impact of short tandem repeat variation on gene expression.". Nat. Genet., 51 (11): 1652–1659, 2019.

[17] Depienne, C.; Mandel, J.-L.; "30 years of repeat expansion disorders: What have we learned and what are the remaining challenges?". Am. J. Hum. Genet., 108 (5): 764–785, 2021.

[18] Gymrek, M.; Willems, T.; Guilmatre, A.; Zeng, H.; Markus, B.; Georgiev, S.; Daly, M. J.; Price, A. L.; Pritchard, J. K.; Sharp, A. J.; Erlich, Y.; "Abundant contribution of short tandem repeats to gene expression variation in humans.". Nat. Genet., 48 (1): 22–29, 2016.

[19] Malik, I.; Kelley, C. P.; Wang, E. T.; Todd, P. K.; "Molecular mechanisms underlying nucleotide repeat expansion disorders". Nat. Rev. Mol. cell Biol., 22 (9): 589–607, 2021.

[20] Santos, N. B.; de Paula Filho, M. F.; Silva, A. M.; Teló, E. P.; Junior, J. B.; de Queiroz Balbino, V.; Takenami, I. O.; Cansanção, I. F.; "Allele Frequencies and Forensic Data of 25 STR Markers for Individuals in Northeast Brazil". Genes 14 (6): 1185-1186, 2023.

[21] Al-Zubaidi, M. M.; Ibrahem, H. K.; Ameen, R. S.; Ameen, B.; "Allele frequencies of 15 Autosomal STR loci in Some of Iraqi population". Iraqi J. Sci.,63 (6): 2434–2443, 2022.

[22] M. Albarzinji, B.; Hadi, S.; Ismael, B.; Barqee, A.; Hadi, A.; Lazim, H.; "An X-STRs analysis of the Iraqi Sorani Kurds". PLoS One, 18 (11): e0294973, 2023.

[23] Sharma, D.; Al-Khalidi, R.; Edgar, S.; An, Q.; Wang, Y.; Young, C.; Nowis, D.; Gorecki, D. C.; "Co-delivery of indoleamine 2, 3-dioxygenase prevents loss of expression of an antigenic transgene in dystrophic mouse muscles". Gene Ther., 24 (2): 113–119, 2017.

[24] Hameed, I. H.; Ommer, A. J.; Murad, A. F.; Mohammed, G. J.; "Allele frequency data of 21 autosomal short tandem repeat loci in Mesan and Basra provinces in South Iraq". Egypt. J. Forensic Sci., 5 (4): 150–156, 2015.

[25] Farhan, M. M.; Hadi, S.; Iyengar, A.; Goodwin, W.; "Population genetic data for 20 autosomal STR loci in an Iraqi Arab population: Application to the identification of human remains". Forensic Sci. Inter. Genetics 25: e10–e11, 2016.

Downloads

Published

2025-09-15

Issue

Vol. 28 No. 3 (2025): September 2025

Section

Mathematics

License

Copyright (c) 2025 Ali Qahtan Kadhim, Rasha Abd Ali Al-Khalidi

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

How to Cite

(1)
Qahtan Kadhim, A. .; Abd Ali Al-Khalidi, R. . Genetic Variability of Short Tandem Repeat Markers in Alcohol-Dependent Individuals in Baghdad. Al-Nahrain J. Sci. 2025, 28 (3), 84-92.