THE GENETIC FACTOR OF THE INDIVIDUAL DIFFERENCES OF THE EXERCISE CAPACITY OR ITS TRAINABILITY
- VernacularTitle:身体能力及びそのトレーニング効果の個人差に関与する遺伝的背景
- Author:
HARUKA MURAKAMI
;
KAZUO MURAKAMI
;
SHINYA KUNO
- Publication Type:Journal Article
- Keywords:
individual difference;
genetic factor;
mitochondrial DNA
- From:Japanese Journal of Physical Fitness and Sports Medicine
2003;52(Supplement):83-91
- CountryJapan
- Language:Japanese
-
Abstract:
It is well known that individual differences exist in exercise capacity or trainability. Several studies have shown that these individual differences are brought about by environmental effects such as life-style, diet and genetics. The potential of several specific genes to cause individual differences in endurance capacity or trainability has been investigated. The angiotensin-converting enzyme (ACE) gene, which has insertion (I) /deletion (D) polymorphism, is one of the most studied genes. Montgomery et al. reported that elite high-altitude mountaineers had higher I allele frequency of the ACE gene than did sedentary males. Moreover, they reported that subjects with II homozygotes showed higher trainability during a 10-week endurance training program than did individuals with ID heterozygotes or DD homozygotes. However, the results reported by Rankinen et al. did not support their results in terms of the relation between ACE genotype and cardiorespiratory endurance. Although numerous studies have reported a relationship between these two items, it remains controversial. Furthermore, mitochondrial DNA (mtDNA), the creative kinase and the Na+-K+-ATPase ∂2 genes have been studied as genes that may dictate individual differences in endurance capacity or trainability. We are going to report about the relation between these genes and exercise capacity and trainability.
