Hubungan gen Peroxisome Proliferator-activated Receptor Alpha (PPARα) dengan daya tahan otot (Muscular Endurance) pada siswa sekolah sepak bola di kota Medan
DAFTAR PUSTAKA
Ahmetov I.I., Vinogradova, O.L., Williams, A.G. (2012). Gene polymorphisms and fiber-type
composition of human skeletal muscle. International Journal of Sport Nutrition and
Exercise Metabolism. 22(4). 292-303
Ahmetov, I.I., Fedotovskaya, O.N. (2012). Cellular and Molecular Exercise Physiology Sports
genomics:
Current
state
of
knowledge
and
future
directions.
www.cellularandmolecularexercisephysiology.com. 1(1). 1-24
Ahmetov, I.I., Emiliya, E.,Egorova, S., Leysan, C., Mustafina, J. (2013). The PPARA Gene
Polymorphism In Team Sports Athletes. Central European Journal of Sport Sciences
and Medicine. 1(1), 19-24
Ahmetov, I.I., Gavrilov, D.N., Astratenkova, V.I., Druzhevskaya, M.A., Malinin V.A.,
Romanova, E.E., Rogozkin, A.V. (2013). The association of ACE, ACTN3 and
PPARA gene variants with strength phenotypes in middle school-age children. Journal
of Physiological Sciences. 63 (1), 79-85
Ahmetov, I.I., William, A.G., Popov, D.V., Lyubaevaa, E.V., Malinin V.A., Hakimullina,
A.M., Fedotovskaya, O.N., Mozhayskaya, A.I., Vinogradova, L.O,. Montgomery,
E.H,.Rogozkin, A.V. (2009). The combined impact of metabolic gene polymorphisms
on elite endurance athlete status and related phenotypes. Human Genetic. 126 (6), 756761
Amstrong, N., Mechelen, v.M. (2008). Paediatric Exercise Science and Medicine, Second
Edition, ISBN 978-0-19-923248-2 (Pbk.: alk paper), by Oxford University Press Inc.,
New York
Aninditia, Oktavita. (2009). Hubungan pola konsumsi, aktivitas fisik dan status gizi dengan
kebugaran pada siswa MI Al Muhajirin, Depok Tahun 2009, FKM UI
Bray, M.S., Haqberg, J.M, Pérusse, L., Rankinen, T., Roth, S.M., Wolfarth, B., Bouchard, C.
(2009). The human gene map for performance and health-related fitness phenotypes:
the 2006-2007 update. Medicine and Science in Sports and Exercise. 41(1). 35-73
Beatrice, D., Wahli, W. (1999). Peroxisome Proliferator-Activated Receptors : Nuclear Control
of Metabolism. Endocrine Society. 20(5). 649-688
Drozdovska, S.B,. Dosenko, V.E,. Ahmetov, I.I,. Ilyin, V.N. (2013). The association of gene
polymorphisms with athlete status in Ukrainians. Biology of Sport. 30(3). 163-167
Drozdovska, S.B., Lysenko, O.M., Dosenko, V.E., Ilyin, V.N. (2015). Dependence of Aerobic
Performance of Athletes on Polymorphism of Genes. Central European Journal of
Sport Sciences and Medicine. 9(1). 65-73
Drozdovska, S., Tyrtyshnk, V. (2015). Gene polymorphisms determining physical
performance in Ukrainian power-oriented events of track and field athletics. Sport
Science. 3(3), 52-58
62
Universitas Sumatera Utara
Egorova, E.S., Borisova, A.V.,Mustafina, L.J., Arkhipova, A.A.,Gabbasov, R.T.,
Druzhevskaya, A.M.,Astratenkova, I.V., Ildus, & Ahmetov, I.,Ahmetov, I.I. (2014).
The polygenic profile of Russian football players. Journal of Sports Sciences. 32(13).
1286-1293
Ferré. P. (2004). The Biology of Peroxisome Proliferator–Activated Receptors Relationship
With Lipid Metabolism and Insulin Sensitivity. Diabetes. 53(1), 43-50
Flavell, M.D., Ireland, H., Stephens, W.J., Hawe, E., Acharya., Mather. H., Hurel, S.,
Humphries, E.S. (2005). Peroxisome Proliferator-Activated Receptor Alpha Gene
Variation Influences Age of Onset and Progression of Type 2 Diabetes. Diabetes. 54,
582-586
Ginevičienė, V., Pranckevičienė, E., Milašius, K.,Kučinskas, V. (β010). Relating fitness
phenotypes to genotypes in Lithuanian elite athletes. Acta Medica Lituanica. 17(1). 110
Ginevičienė, V., Pranckevičienė, E., Milašius, K.,Kučinskas, V. (β011). Gene variants related
to the power performance of the Lithuanian athletes. Central European Journal of
Biology. 6(1). 48-57
Gronek, P.,Holdys, J., Kryściak, J.,Stanisławski, D. (β01γ). Maximal oxygen uptake is
associated with the snp 13470 G>C polymorphism of the mitochondrial NADH
dehydrogenase subunit 5 gene (mtND5) in caucasians from Poland. Trends in Sport
Sciences. 4(20). 189-196
Grygiel. G., Bogna. (2014). Peroxisome proliferator-activated receptors and their ligands:
nutritional and clinical implications –a review. Nutrition Journal. 13(17). 1-10
Haff, G.G, Dumke, C. (2012). Laboratory manual for exercise physiology. Human Kinetics.
P.O. Box 5076 Champaign, IL 5076, United States
Katch, L.V., McArdle, D.W., Katch, I.F. (2011). Essential of Exercise Physiology, Fourth
Edition. Lippincott Williams & Wilkins, a Wolters Kluwer business, Philadelphhia,
PA 19103
Kenney, L.W., Wilmore, H.J., Costill, L.D., (2012). Physiology of Sport and Exercise, 5th ed.
Human Kinetics,P.O. Box5076, Champaign, IL 61825-5076. United State of Amarica
Kersten, S. (β014). Integrated physiology and systems biology of PPARα. Molecular
Metabolism. 3(4). 354-371
Leon, S.L., Tuvblad, C., Forero, D.A. (2016). Sport genetic: the PPARA gene and athletes'
high ability in endurance sport. A systematic review and meta-analysis. Biology of
Sport. 3391. 3-6
Leońska, A., Duniec, (β01γ). Genetic Research in Modern Sport. Central European Journal of
Sport Sciences and Medicine. 3(3). 19-26
Maciejewska, K., Agnieszka. (2013). Polymorphic variants of the PPAR (Peroxisome
Proliferator-Activated Receptor) genes: relevance for athletic performance. Trends In
Sport Sciences. 1(120). 5-15
Mbada, E.C., Adeyemi, O.O., Johnson, E.O., Dada, O.O., Awofolu, O.O., Oghumu, N.S.
(2010). Normative values of static and dynamic abdominal muscles endurance in
apparently healthy Nigerians. Medical Rehabilitation. 14(4). 21-28
63
Universitas Sumatera Utara
McMillan, K., Helgerud, J,. Macdonald, R., Hoff, J. (2005). Physiological adaptations to soccer
specific endurance training in professional youth soccer players. British journal of
sports medicine. 39(5). 273-277
Pate, R., Oria, M., Pillsbury, L. (2012). Fitness Measures and Health Outcomes in Youth.
Institute of Medicine of The National Academies. Washington, DC 20001. United
States of America
Petr, M., Št'Astný, P., Pecha, O., Šteffl, M., Šeda, O., Kohlíková, E. (β014). PPARA intron
polymorphism associated with power performance in 30-s anaerobic wingate test.
Plos One. 9(9). 1-10
Rentice, E.W. (2012). Get Fit Stay Fit, Sixth Edition. Published by McGraw-Hill, a business
unit of The McGraw-Hill Companies, Inc., 1221 Avenue of the Americas, New
York, NY 10020
Proia, P., Bianco, A., Schiera, G., Saladino, P., Contrò, V., Caramazza, G., Traina, M.,
Grimaldi, K.A., Palma, A., Paoli, A., (2014) PPARα gene variants as predicted
performance-enhancing polymorphisms in professional Italian soccer players. Journal
of Sports Medicine. 5. 273-278
Scheunemann, S.T., Reyna, T., Perez. J.,Gunadi, P., (2012) Kurikulum Sepakbola Indonesia,
untuk Usia Dini (U5 – U12), Usia Muda (U13 – U20) dan Senior, PSSI
Swan, M. (2012). Applied genomics: personalized interpretation of athletic performance
genetic association data for sports performance capability and injury reduction. The
Journal of Bioscience and Medicine Review. 2(1). 1-10
Torra, I.P., Jamshidi, Y., Flavell, D.M., Fruchart, J.C., Bart, B.S. (2015). Characterization of
the Human PPARA Promoter : Identification of a Functional Nuclear Response
Element. Endocrine Society. 1695). 1013-1028
Tyrtyshnyk,. Vyacheslav. (2015). Gene polymorphisms determining physical performance in
Ukrainian power-oriented events of track and field athletics. Sport Science. 3(81). 5358
Wilk, K.B., Dembińska, K.A., Olszanecka, A., Bodzioch, M., Jaszcz, K.K. (β005). The
Selected Pathophysiological Aspects of PPARS Activation. Journal of Physiology
and Pharmacology. 56(2). 149-162
Yan, Z., Okutsu, M., Akhtar, Y.N., Lira, V. (2011). Regulation of exercise-induced fiber type
transformation, mitochondrial biogenesis, and angiogenesis in skeletal muscle.
Journal of applied physiology. 110. 264-274
http://www.had2know.com/academics/hardy-weinberg-equilibrium-calculator-2-alleles.html
64
Universitas Sumatera Utara
Ahmetov I.I., Vinogradova, O.L., Williams, A.G. (2012). Gene polymorphisms and fiber-type
composition of human skeletal muscle. International Journal of Sport Nutrition and
Exercise Metabolism. 22(4). 292-303
Ahmetov, I.I., Fedotovskaya, O.N. (2012). Cellular and Molecular Exercise Physiology Sports
genomics:
Current
state
of
knowledge
and
future
directions.
www.cellularandmolecularexercisephysiology.com. 1(1). 1-24
Ahmetov, I.I., Emiliya, E.,Egorova, S., Leysan, C., Mustafina, J. (2013). The PPARA Gene
Polymorphism In Team Sports Athletes. Central European Journal of Sport Sciences
and Medicine. 1(1), 19-24
Ahmetov, I.I., Gavrilov, D.N., Astratenkova, V.I., Druzhevskaya, M.A., Malinin V.A.,
Romanova, E.E., Rogozkin, A.V. (2013). The association of ACE, ACTN3 and
PPARA gene variants with strength phenotypes in middle school-age children. Journal
of Physiological Sciences. 63 (1), 79-85
Ahmetov, I.I., William, A.G., Popov, D.V., Lyubaevaa, E.V., Malinin V.A., Hakimullina,
A.M., Fedotovskaya, O.N., Mozhayskaya, A.I., Vinogradova, L.O,. Montgomery,
E.H,.Rogozkin, A.V. (2009). The combined impact of metabolic gene polymorphisms
on elite endurance athlete status and related phenotypes. Human Genetic. 126 (6), 756761
Amstrong, N., Mechelen, v.M. (2008). Paediatric Exercise Science and Medicine, Second
Edition, ISBN 978-0-19-923248-2 (Pbk.: alk paper), by Oxford University Press Inc.,
New York
Aninditia, Oktavita. (2009). Hubungan pola konsumsi, aktivitas fisik dan status gizi dengan
kebugaran pada siswa MI Al Muhajirin, Depok Tahun 2009, FKM UI
Bray, M.S., Haqberg, J.M, Pérusse, L., Rankinen, T., Roth, S.M., Wolfarth, B., Bouchard, C.
(2009). The human gene map for performance and health-related fitness phenotypes:
the 2006-2007 update. Medicine and Science in Sports and Exercise. 41(1). 35-73
Beatrice, D., Wahli, W. (1999). Peroxisome Proliferator-Activated Receptors : Nuclear Control
of Metabolism. Endocrine Society. 20(5). 649-688
Drozdovska, S.B,. Dosenko, V.E,. Ahmetov, I.I,. Ilyin, V.N. (2013). The association of gene
polymorphisms with athlete status in Ukrainians. Biology of Sport. 30(3). 163-167
Drozdovska, S.B., Lysenko, O.M., Dosenko, V.E., Ilyin, V.N. (2015). Dependence of Aerobic
Performance of Athletes on Polymorphism of Genes. Central European Journal of
Sport Sciences and Medicine. 9(1). 65-73
Drozdovska, S., Tyrtyshnk, V. (2015). Gene polymorphisms determining physical
performance in Ukrainian power-oriented events of track and field athletics. Sport
Science. 3(3), 52-58
62
Universitas Sumatera Utara
Egorova, E.S., Borisova, A.V.,Mustafina, L.J., Arkhipova, A.A.,Gabbasov, R.T.,
Druzhevskaya, A.M.,Astratenkova, I.V., Ildus, & Ahmetov, I.,Ahmetov, I.I. (2014).
The polygenic profile of Russian football players. Journal of Sports Sciences. 32(13).
1286-1293
Ferré. P. (2004). The Biology of Peroxisome Proliferator–Activated Receptors Relationship
With Lipid Metabolism and Insulin Sensitivity. Diabetes. 53(1), 43-50
Flavell, M.D., Ireland, H., Stephens, W.J., Hawe, E., Acharya., Mather. H., Hurel, S.,
Humphries, E.S. (2005). Peroxisome Proliferator-Activated Receptor Alpha Gene
Variation Influences Age of Onset and Progression of Type 2 Diabetes. Diabetes. 54,
582-586
Ginevičienė, V., Pranckevičienė, E., Milašius, K.,Kučinskas, V. (β010). Relating fitness
phenotypes to genotypes in Lithuanian elite athletes. Acta Medica Lituanica. 17(1). 110
Ginevičienė, V., Pranckevičienė, E., Milašius, K.,Kučinskas, V. (β011). Gene variants related
to the power performance of the Lithuanian athletes. Central European Journal of
Biology. 6(1). 48-57
Gronek, P.,Holdys, J., Kryściak, J.,Stanisławski, D. (β01γ). Maximal oxygen uptake is
associated with the snp 13470 G>C polymorphism of the mitochondrial NADH
dehydrogenase subunit 5 gene (mtND5) in caucasians from Poland. Trends in Sport
Sciences. 4(20). 189-196
Grygiel. G., Bogna. (2014). Peroxisome proliferator-activated receptors and their ligands:
nutritional and clinical implications –a review. Nutrition Journal. 13(17). 1-10
Haff, G.G, Dumke, C. (2012). Laboratory manual for exercise physiology. Human Kinetics.
P.O. Box 5076 Champaign, IL 5076, United States
Katch, L.V., McArdle, D.W., Katch, I.F. (2011). Essential of Exercise Physiology, Fourth
Edition. Lippincott Williams & Wilkins, a Wolters Kluwer business, Philadelphhia,
PA 19103
Kenney, L.W., Wilmore, H.J., Costill, L.D., (2012). Physiology of Sport and Exercise, 5th ed.
Human Kinetics,P.O. Box5076, Champaign, IL 61825-5076. United State of Amarica
Kersten, S. (β014). Integrated physiology and systems biology of PPARα. Molecular
Metabolism. 3(4). 354-371
Leon, S.L., Tuvblad, C., Forero, D.A. (2016). Sport genetic: the PPARA gene and athletes'
high ability in endurance sport. A systematic review and meta-analysis. Biology of
Sport. 3391. 3-6
Leońska, A., Duniec, (β01γ). Genetic Research in Modern Sport. Central European Journal of
Sport Sciences and Medicine. 3(3). 19-26
Maciejewska, K., Agnieszka. (2013). Polymorphic variants of the PPAR (Peroxisome
Proliferator-Activated Receptor) genes: relevance for athletic performance. Trends In
Sport Sciences. 1(120). 5-15
Mbada, E.C., Adeyemi, O.O., Johnson, E.O., Dada, O.O., Awofolu, O.O., Oghumu, N.S.
(2010). Normative values of static and dynamic abdominal muscles endurance in
apparently healthy Nigerians. Medical Rehabilitation. 14(4). 21-28
63
Universitas Sumatera Utara
McMillan, K., Helgerud, J,. Macdonald, R., Hoff, J. (2005). Physiological adaptations to soccer
specific endurance training in professional youth soccer players. British journal of
sports medicine. 39(5). 273-277
Pate, R., Oria, M., Pillsbury, L. (2012). Fitness Measures and Health Outcomes in Youth.
Institute of Medicine of The National Academies. Washington, DC 20001. United
States of America
Petr, M., Št'Astný, P., Pecha, O., Šteffl, M., Šeda, O., Kohlíková, E. (β014). PPARA intron
polymorphism associated with power performance in 30-s anaerobic wingate test.
Plos One. 9(9). 1-10
Rentice, E.W. (2012). Get Fit Stay Fit, Sixth Edition. Published by McGraw-Hill, a business
unit of The McGraw-Hill Companies, Inc., 1221 Avenue of the Americas, New
York, NY 10020
Proia, P., Bianco, A., Schiera, G., Saladino, P., Contrò, V., Caramazza, G., Traina, M.,
Grimaldi, K.A., Palma, A., Paoli, A., (2014) PPARα gene variants as predicted
performance-enhancing polymorphisms in professional Italian soccer players. Journal
of Sports Medicine. 5. 273-278
Scheunemann, S.T., Reyna, T., Perez. J.,Gunadi, P., (2012) Kurikulum Sepakbola Indonesia,
untuk Usia Dini (U5 – U12), Usia Muda (U13 – U20) dan Senior, PSSI
Swan, M. (2012). Applied genomics: personalized interpretation of athletic performance
genetic association data for sports performance capability and injury reduction. The
Journal of Bioscience and Medicine Review. 2(1). 1-10
Torra, I.P., Jamshidi, Y., Flavell, D.M., Fruchart, J.C., Bart, B.S. (2015). Characterization of
the Human PPARA Promoter : Identification of a Functional Nuclear Response
Element. Endocrine Society. 1695). 1013-1028
Tyrtyshnyk,. Vyacheslav. (2015). Gene polymorphisms determining physical performance in
Ukrainian power-oriented events of track and field athletics. Sport Science. 3(81). 5358
Wilk, K.B., Dembińska, K.A., Olszanecka, A., Bodzioch, M., Jaszcz, K.K. (β005). The
Selected Pathophysiological Aspects of PPARS Activation. Journal of Physiology
and Pharmacology. 56(2). 149-162
Yan, Z., Okutsu, M., Akhtar, Y.N., Lira, V. (2011). Regulation of exercise-induced fiber type
transformation, mitochondrial biogenesis, and angiogenesis in skeletal muscle.
Journal of applied physiology. 110. 264-274
http://www.had2know.com/academics/hardy-weinberg-equilibrium-calculator-2-alleles.html
64
Universitas Sumatera Utara