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• W1989286660 abstract "The year 2003 marked the 50th anniversary of the dissemination of James Watson and Francis Crick’s discovery paper on the structure of deoxyribose nucleic acid (DNA). Coincidentally, the American College of Sports Medicine (ACSM) also began celebration of its “Golden Anniversary.” Do these landmarks have anything in common? Superficially, one may not associate any relationship between these two events. However, if one “free associates” or “thinks outside the box,” it is incontestable that these two milestones celebrate not only extraordinary achievements but also dramatic developments in the areas of genetics, immunology, and endocrinology and how they relate to health and disease, respectively. Watson and Crick’s discovery served as a preamble and impetus to subsequent molecular biology studies by others, which have attempted to explore the different spheres including those of genetic information, inflammation, and endocrinology. Oh, how the field of exercise genetics has evolved from the early work of Ernst Jokl and Joseph Wolffe in the early 1950s to the elegant studies of Claude Bouchard and others of today! At the most recent ACSM meeting and in the latest articles that have been published in Medicine & Science in Sports & Exercise® terms like polymorphism, transcription factors, deletion allele, and sequence variants are simply everyday vernacular in certain sessions and manuscripts relating to genetics. Would this terminology have confused those pioneers? At the turn of the 20th century, the renowned Canadian physician, Sir Willliam Osler viewed that a common cold could only be treated with contempt. However, a series of more recent studies have determined that certain exercise regimens may cause specific immunological responses and have potential effects on the incidence and frequency of respiratory distress associated with the common cold. Challenges wait on the new frontiers of exercise endocrinology. Not to be overlooked is the relatively recent identification of a family of hormone receptors known as peroxisome proliferator activated receptors or PPARS. The possibility of skeletal fiber type switching and substrate mobilization being modulated by factors such as nitric oxide, endogenous ligands, or novel hormones, which are released by exercise and subsequently bind to these receptors, causing a unknown cascade of signaling events to occur and a subsequent altered physiological status remains unknown. To keep at the “cutting edge of science,” exercise physiologists have taken the cue from scientists who do not use exercise as an intervention. Capitalization of different technologies such as gene arrays, production of phosphospecific antibodies, plate readers, and robotics have allowed exercise physiologists to explore classical questions such as “What factors may be responsible for the increase in maximal aerobic capacity?” with an efficacy that a previous generation would have thought not only incredible but also impossible. While advances in technology are essential, collaboration and communication is of utmost importance to the further advancement of knowledge. ACSM, through scientific sessions including tutorials, symposia, and free communications at its Annual Meeting, keeps its membership informed of developments in the field through sponsorship of strong basic science components in these areas. The past sets the precedent for the present and the present will dictate the future. While genomics and proteonomics are currently emerging, exercisenomics may emerge in the future as a field where exercise scientists investigate a series of different factors at different stages in development. This new field may help discover the different factors that account for the potency and plasticity of the physiological changes and adaptations to exercise. Subsequently, the health benefits of exercise or the limits of performance for athletes may be fully realized. Whether an “exercise chip” will ever be fabricated to solve questions in the aforementioned areas remains to be determined, but the knowledge gleaned will only be limited by our hard work and imaginations." @default.
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• W1989286660 date "2004-05-01" @default.
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• W1989286660 title "Exercisenomics: A Wave of the Future?" @default.
• W1989286660 doi "https://doi.org/10.1097/00005768-200405000-00001" @default.
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