Proceedings of the Korean Nutrition Society Conference (한국영양학회:학술대회논문집)
- 2002.06a
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- Pages.598-603
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- 2002
Emerging Genomics Technologies in Nutritional Sciences : Applications to Obesity and Hypertension Research
- Moustaid-Moussa (Associate Professor, University of Tennessee, Department of Nutrition) ;
- Sumithra Urs (Associate Professor, University of Tennessee, Department of Nutrition) ;
- Kim, Suyeon (Associate Professor, University of Tennessee, Department of Nutrition) ;
- Heo, Young-Ran (Associate Professor, University of Tennessee, Department of Nutrition)
- Published : 2002.06.01
Abstract
While the sequencing of several genomes was underway, several advanced techniques in genetics, molecular biology and protein chemistry emerged. Within the notritional sciences, while the focus on nutrition education, epidemiology and public health aspects remains essential; it is crucial to incorporate the new advances in gene and protein discovery in nutritional studies. Nutrition is a discipline that has always integrated social, biochemical and physiological sciences from the studies at the molecule level to studies at the population level. for this reason, nutritionists are in a prime position to readily incorporate the current genomics approaches in nutrition research. All the available analytical techniques can and should be used in modem nutritional sciences. These include genetics, genomics, proteomics and metabolomics which also require integration and use of bioinformatics and computational methods for data analysis and management. These applications will be briefly reviewed with a primary focus on what the genomics and genetics approaches offer to nutritionists. We will use one of our research focus areas to illustrate uses of some of these applications in obesity-hypertension research. Our central hypothesis is that adipose tissue is an endocrine organ that plays a major role in obesity and related hypertension. We are primarily studying the renin angiotensin system (RAS). We provide evidence from our own studies and others for the paracrine as well as endocrine role of adipocyte-derived angiotensin II in adipocyte gene expression, adiposity and blood pressure regulation. Both cell culture studies as well as knockout and transgenic mice models are used to test our hypothesis. Genomics and proteomics technologies are currently developed to complement our physiological and molecular studies on the RAS and for a fine analysis of this system and its function in health and disease.
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