Variations of the Angiotensin converting enzyme (ACE) gene on the explosion performance of badminton athletes

Arimbi Arimbi; Hasmyati Hasmyati; Syahruddin Syahruddin; Poppy Elisano  Arfanda; Wahyana Mujari  Wahid

doi:10.29407/js_unpgri.v8i4.18549

Vol. 8 No. 4 (2022), Article

Vol. 8 No. 4 (2022)

Variations of the Angiotensin converting enzyme (ACE) gene on the explosion performance of badminton athletes

Article

https://doi.org/10.29407/js_unpgri.v8i4.18549

Published December 24, 2022

Arimbi Arimbi⁺⁻
Hasmyati Hasmyati⁺⁻
Syahruddin Syahruddin⁺⁻
Poppy Elisano Arfanda⁺⁻
Wahyana Mujari Wahid⁺⁻

Arimbi Arimbi

Universitas Negeri Makasar

https://orcid.org/0000-0002-1962-3203

Hasmyati Hasmyati

Universitas Negeri Makasar

Syahruddin Syahruddin

Universitas Negeri Makasar

https://orcid.org/0000-0002-1667-2405

Poppy Elisano Arfanda

Universitas Negeri Makasar

https://orcid.org/0000-0002-8191-6912

Wahyana Mujari Wahid

Universitas Negeri Makasar

https://orcid.org/0000-0003-3865-0511

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Keywords

variasi genetik
ACE
daya ledak
atlet

How to Cite

Arimbi, A., Hasmyati, H., Syahruddin, S., Arfanda, P. E., & Wahid, W. M. (2022). Variations of the Angiotensin converting enzyme (ACE) gene on the explosion performance of badminton athletes. Jurnal SPORTIF : Jurnal Penelitian Pembelajaran, 8(4), 355-366. https://doi.org/10.29407/js_unpgri.v8i4.18549

Abstract

The appropriate genetic potential of an athlete or prospective athlete determines the development of their future performance and achievement and reduces the risk of pathological conditions such as overtraining. This study aimed to determine the genotype variation thought to play a role in differences in exercise results and explosive power performance, namely the ACE gene. The research method used a cross-sectional design to describe the relationship between a factor and its effects on how genetic mutation variations play a role in an athlete's physical performance by involving 54 male and female badminton athletes with an average age of 18 years. The study was conducted by analysing the development of badminton skills with the same exercise routine, then being given an explosive power test in the form of a vertical jump through the Lewis nomogram assessment. The initial test was in the first month, and the second test was after six months. The results showed significant differences between the groups with variation II, ID and DD genotypes of the ACE gene. The DD genotype group showed better training adaptation in the explosive power test than genotype II and ID with a significant value (P<0.05). This study concludes that athletes with genotype DD variations adapt better to explosive power training than athletes with genotype II and ID. Athletes with genetic mutations II and ID in the ACE gene are more suitable for badminton sports requiring complex movement abilities and skills, which require good anaerobic and aerobic abilities.

https://doi.org/10.29407/js_unpgri.v8i4.18549

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References

Afifah, N. N., Mulyani, Y., & Yuniarto, A. (2021). Pengaruh Tanaman Obat Yang Beraktivitas Hipertensi Terhadap Ekspresi Gen Reseptor ACE-1 dan ACE 2. Jurnal Mandala Pharmacon Indonesia, 7(1), 9–31.

Agus, A. (2012). Olahraga Kebugaran Jasmani: Sebagai Suatu Pengantar.

Arimbi, A., Usman, A., & Muriyati, M. (2017). Polymorphism of Angiotensin-converting Enzyme Gene of Insertion/Deletion on Cardiovascular Endurance Performance of Athletes. Proceedings of the 2nd International Conference on Education, Science, and Technology (ICEST 2017), 149, 1–3. https://doi.org/10.2991/icest-17.2017.1

Arimbi, & Muriyati. (2017). Polymorphism of Angiotensin-converting Enzyme Gene of Insertion/Deletion on Cardiovascular Endurance Performance of Athletes Arimbi Arifuddin Usman.

Candra, A. T., & Setiabudi, M. A. (2021). Analisis Tingkat Volume Oksigen Maksimal (Vo2max) Camaba Prodi Pjkr. Jurnal Pendidikan Kesehatan Rekreasi, 7(1), 10–17. DOI: https://doi.org/10.5281/zenodo.4420388

Ehrlich, P. R., & Ehrlich, P. R. (2000). Human natures: Genes, cultures, and the human prospect. Island Press.

Garrett, W. E., & Kirkendall, D. T. (2000). Exercise and sport science. Lippincott Williams & Wilkins.

Gineviciene, V., Jakaitiene, A., Aksenov, M. O., Aksenova, A. v, Druzhevskaya, A. M., Astratenkova, I. v, Egorova, E. S., Gabdrakhmanova, L. J., Tubelis, L., & Kucinskas, V. (2016). Association analysis of ACE, ACTN3 and PPARGC1A gene polymorphisms in two cohorts of European strength and power athletes. Biology of Sport, 33(3), 199–206. DOI: https://doi.org/10.5604/20831862.1201051

Gineviciene, V., Jakaitiene, A., Tubelis, L., & Kucinskas, V. (2014). Variation in the ACE, PPARGC1A and PPARA genes in Lithuanian football players. European Journal of Sport Science, 14(sup1), S289–S295. https://doi.org/10.1080/17461391.2012.691117

Ginevičienė, V., Kučinskas, V., & Kasnauskienė, J. (2009). The angiotensin converting enzyme gene insertion/deletion polymorphism in Lithuanian professional athletes. Acta Medica Lituanica, 16(1), 11–16.

Handoyo, D., & Rudiretna, A. (2000). Prinsip umum dan pelaksanaan polymerase chain reaction (PCR)[general principles and implementation of polymerase chain reaction]. Unitas, 9(1), 17–29.

Hidayat, A. A. (2015). Metode penelitian kesehatan paradigma kuantitatif. Health Books Publishing.

Hodeib, S., Herberg, J. A., Levin, M., & Sancho-Shimizu, V. (2020). Human genetics of meningococcal infections. Human Genetics, 139(6), 961–980.

Holdys, J., Gronek, P., Kryściak, J., & Stanisławski, D. (2013). Genetic variants of uncoupling proteins-2 and-3 in relation to maximal oxygen uptake in different sports. Acta Biochimica Polonica, 60(1).

Kusnadi, J., & Arumingtyas, E. L. (2020). Polymerase Chain Reaction (PCR): Teknik dan Fungsi. Universitas Brawijaya Press.

Ma, F., Yang, Y., Li, X., Zhou, F., Gao, C., Li, M., & Gao, L. (2013). The association of sport performance with ACE and ACTN3 genetic polymorphisms: a systematic review and meta-analysis. PloS One, 8(1), e54685.

Melianita, R., & Hardjono, J. (2005). Perbedaan pengaruh pemberian latihan metode de lorme dengan latihan metode oxford terhadap peningkatan kekuatan otot quadriceps. Jurnal Fisioterapi Indonusa, 5(2), 1–16.

Nugroho, S., Nasrulloh, A., Karyono, T. H., Dwihandaka, R., & Pratama, K. W. (2021). Effect of intensity and interval levels of trapping circuit training on the physical condition of badminton players. Journal of Physical Education and Sport, 21, 1981–1987.

Pitsiladis, Y., Wang, G., Wolfarth, B., Scott, R., Fuku, N., Mikami, E., He, Z., Fiuza-Luces, C., Eynon, N., & Lucia, A. (2013). Genomics of elite sporting performance: what little we know and necessary advances. British Journal of Sports Medicine, 47(9), 550–555.

Puthucheary, Z. A., Astin, R., McPhail, M. J. W., Saeed, S., Pasha, Y., Bear, D. E., Constantin, D., Velloso, C., Manning, S., Calvert, L., Singer, M., Batterham, R. L., Gomez-Romero, M., Holmes, E., Steiner, M. C., Atherton, P. J., Greenhaff, P., Edwards, L. M., Smith, K., … Montgomery, H. E. (2018). Metabolic phenotype of skeletal muscle in early critical illness. Thorax, 73(10), 926–935. https://doi.org/10.1136/thoraxjnl-2017-211073

Rasyid, H., Bakri, S., & Yusuf, I. (2012). Angiotensin-converting enzyme gene polymorphisms, blood pressure and pulse pressure in subjects with essential hypertension in a South Sulawesi Indonesian population. Acta Med Indones, 44(4), 280–283.

Thomas, R., Hubbard, A. E., McHale, C. M., Zhang, L., Rappaport, S. M., Lan, Q., Rothman, N., Vermeulen, R., Guyton, K. Z., & Jinot, J. (2014). Characterisation of changes in gene expression and biochemical pathways at low levels of benzene exposure. PloS One, 9(5), e91828.

Wang, G., Mikami, E., Chiu, L.-L., de Perini, A., Deason, M., Fuku, N., Miyachi, M., Kaneoka, K., Murakami, H., & Tanaka, M. (2013). Association analysis of ACE and ACTN3 in elite Caucasian and East Asian swimmers. Medicine and Science in Sports and Exercise, 45(5), 892–900.

Yusuf, Z. K. (2010). Polymerase chain reaction (PCR). Jurnal Saintek, 5(6), 1–6.